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Title: The Natural History of Pliny, Volume 3 (of 6) - By Pliny, the Elder
Author: Elder, Pliny the
Language: English
As this book started as an ASCII text book there are no pictures available.


*** Start of this LibraryBlog Digital Book "The Natural History of Pliny, Volume 3 (of 6) - By Pliny, the Elder" ***


Transcriber’s notes:

Italic text is denoted _thus_.

See further notes at the end of this volume.



  THE

  NATURAL HISTORY

  OF

  PLINY.

  TRANSLATED,

  WITH COPIOUS NOTES AND ILLUSTRATIONS


  BY THE LATE
  JOHN BOSTOCK, M.D., F.R.S.,

  AND

  H. T. RILEY, ESQ., B.A.,
  LATE SCHOLAR OF CLARE HALL, CAMBRIDGE.

  VOL. III.

  LONDON:
  HENRY G. BOHN, YORK STREET, COVENT GARDEN.
  MDCCCLV.



CONTENTS.

OF THE THIRD VOLUME.


  BOOK XI.

  THE VARIOUS KINDS OF INSECTS.

  CHAP.                                                         Page

  1. The extreme smallness of insects                              1

  2. Whether insects respire, and whether they have blood          3

  3. The bodies of insects                                         4

  4. Bees                                                          5

  5. The order displayed in the works of bees                    _ib._

  6. The meaning of the terms commosis, pissoceros, and propolis   6

  7. The meaning of erithace, sandaraca, or cerinthos              7

  8. What flowers are used by the bees in their work             _ib._

  9. Persons who have made bees their study                        8

  10. The mode in which bees work                                _ib._

  11. Drones                                                      10

  12. The qualities of honey                                      11

  13. Where the best honey is produced                            12

  14. The kinds of honey peculiar to various places              _ib._

  15. How honey is tested. Ericæum. Tetralix, or sisirum          14

  16. The reproduction of bees                                    16

  17. The mode of government of the bees                          18

  18. Happy omens sometimes afforded by a swarm of bees           19

  19. The various kinds of bees                                   20

  20. The diseases of bees                                        21

  21. Things that are noxious to bees                             22

  22. How to keep bees to the hive                                23

  23. Methods of renewing the swarm                              _ib._

  24. Wasps and hornets: animals which appropriate what belongs
        to others                                                 24

  25. The bombyx of Assyria                                       25

  26. The larvæ of the silk-worm—who first invented silk cloths  _ib._

  27. The silk-worm of Cos—how the Coan vestments are made        26

  28. Spiders; the kinds that make webs; the materials used by
        them in so doing                                          27

  29. The generation of spiders                                   29

  30. Scorpions                                                  _ib._

  31. The stellio                                                 31

  32. The grasshopper: that it has neither mouth nor outlet
        for food                                                 _ib._

  33. The wings of insects                                        33

  34. The beetle. The glow-worm. Other kinds of beetles           33

  35. Locusts                                                     35

  36. Ants                                                        37

  37. The chrysalis                                               39

  38. Animals which breed in wood                                 40

  39. Insects that are parasites of man. Which is the smallest
        of animals? Animals found in wax even                    _ib._

  40. An animal which has no passage for the evacuations         _ib._

  41. Moths, cantharides, gnats—an insect which breeds in the
        snow                                                      41

  42. An animal found in fire—the pyrallis, or pyrausta           42

  43. The animal called hemerobion                               _ib._

  44. The nature and characteristics of all animals considered
        limb by limb. Those which have tufts and crests           43

  45. The various kinds of horns. Animals in which they are
        moveable                                                  44

  46. The heads of animals. Those which have none                 46

  47. The hair                                                   _ib._

  48. The bones of the head                                       47

  49. The brain                                                  _ib._

  50. The ears. Animals which hear without ears or apertures      48

  51. The face, the forehead, and the eye-brows                   49

  52. The eyes—animals which have no eyes, or have only one
        eye                                                      _ib._

  53. The diversity of the colour of the eyes                     50

  54. The theory of sight—persons who can see by night           _ib._

  55. The nature of the pupil—eyes which do not shut              52

  56. The hair of the eye-lids; what animals are without them.
        Animals which can see on one side only                    54

  57. Animals which have no eye-lids                              55

  58. The cheeks                                                 _ib._

  59. The nostrils                                               _ib._

  60. The mouth; the lips; the chin; and the jaw-bone             56

  61. The teeth; the various kinds of teeth; in what animals
        they are not on both sides of the mouth: animals which
        have hollow teeth                                        _ib._

  62. The teeth of serpents; their poison. A bird which has
        teeth                                                     57

  63. Wonderful circumstances connected with the teeth            59

  64. How an estimate is formed of the age of animals from their
        teeth                                                     60

  65. The tongue; animals which have no tongue. The noise made
        by frogs. The palate                                      61

  66. The tonsils; the uvula; the epiglossis; the tracheal
        artery; the gullet                                        62

  67. The neck; the throat; the dorsal spine                      63

  68. The throat; the gullet; the stomach                         64

  69. The heart; the blood; the vital spirit                     _ib._

  70. Those animals which have the largest heart, and those
        which have the smallest. What animals have two hearts     65

  71. When the custom was first adopted of examining the heart
        in the inspection of the entrails                         66

  72. The lungs: in what animals they are the largest, and in
        what the smallest. Animals which have nothing but lungs
        in the interior of the body. Causes which produce
        extraordinary swiftness in animals                        67

  73. The liver; in what animals, and in what part there are two
        livers found                                             _ib._

  74. The gall; where situate, and in what animals it is double.
        Animals which have no gall, and others in which it is
        not situate in the liver                                  68

  75. The properties of the gall                                  69

  76. In what animals the liver increases and decreases with the
        moon. Observations on the aruspices relative thereto, and
        remarkable prodigies                                      70

  77. The diaphragm. The nature of laughter                      _ib._

  78. The belly: animals which have no belly. Which are the only
        animals that vomit                                        71

  79. The small guts, the front intestines, the anus, the
        colon. The causes of the insatiate voracity of certain
        animals                                                  _ib._

  80. The omentum: the spleen; animals which are without it       73

  81. The kidneys: animals which have four kidneys. Animals which
        have none                                                _ib._

  82. The breast: the ribs                                        74

  83. The bladder: animals which have no bladder                 _ib._

  84. The womb: the womb of the sow: the teats                    75

  85. Animals which have suet: animals which do not grow fat     _ib._

  86. The marrow: animals which have no marrow                    76

  87. Bones and fish-bones: animals which have neither.
        Cartilages                                                77

  88. The nerves: animals which have none                        _ib._

  89. The arteries; the veins: animals without arteries or veins.
        The blood and the sweat                                   78

  90. Animals, the blood of which coagulates with the greatest
        rapidity: other animals, the blood of which does not
        coagulate. Animals which have the thickest blood: those
        the blood of which is the thinnest: animals which have
        no blood                                                 _ib._

  91. Animals which are without blood at certain periods of
        the year                                                  79

  92. Whether the blood is the principle of life                  80

  93. The hide of animals                                        _ib._

  94. The hair and the covering of the skin                       81

  95. The paps: birds which have paps. Remarkable facts connected
        with the dugs of animals                                  82

  96. The milk: the biestings. Cheese: of what milk cheese cannot
        be made. Rennet; the various kinds of aliment in milk     83

  97. Various kinds of cheese                                     85

  98. Differences of the members of man from those of other
        animals                                                   86

  99. The fingers, the arms                                      _ib._

  100. Resemblance of the ape to man                             _ib._

  101. The nails                                                  87

  102. The knees and the hams                                    _ib._

  103. Parts of the human body to which certain religious ideas
         are attached                                             88

  104. Varicose veins                                             88

  105. The gait, the feet, the legs                               89

  106. Hoofs                                                     _ib._

  107. The feet of birds                                          90

  108. The feet of animals, from those having two feet to those
         with a hundred.—Dwarfs                                   91

  109. The sexual parts.—Hermaphrodites                          _ib._

  110. The testes.—The three classes of eunuchs                   92

  111. The tails of animals                                      _ib._

  112. The different voices of animals                            93

  113. Superfluous limbs                                          95

  114. Signs of vitality and of the moral disposition of man,
         from the limbs                                           96

  115. Respiration and nutriment                                  97

  116. Animals which when fed upon poison do not die, and the
         flesh of which is poisonous                              98

  117. Reasons for indigestion. Remedies for crudity             _ib._

  118. From what causes corpulence arises; how it may be
         reduced                                                 _ib._

  119. What things, by merely tasting of them, allay hunger
         and thirst                                               99


  BOOK XII.

  THE NATURAL HISTORY OF TREES.

  1. The honourable place occupied by trees in the system of
       nature                                                    101

  2. The early history of trees                                  102

  3. Exotic trees. When the plane-tree first appeared in Italy,
       and whence it came                                        103

  4. The nature of the plane-tree                                104

  5. Remarkable facts connected with the plane-tree              _ib._

  6. The chamæplatanus. Who was the first to clip green shrubs   106

  7. How the citron is planted                                   _ib._

  8. The trees of India                                          107

  9. When ebony was first seen at Rome. The various kinds of
       ebony                                                     109

  10. The Indian thorn                                           _ib._

  11. The Indian fig                                             _ib._

  12. The pala: the fruit called ariena                          110

  13. Indian trees, the names of which are unknown. Indian
        trees which bear flax                                    111

  14. The pepper-tree.—The various kinds of
        pepper—bregma—zingiberi, or zimpirebi                    _ib._

  15. Caryophyllon, lycion, and the Chironian pyxacanthus        113

  16. Macir                                                      114

  17. Sugar                                                      _ib._

  18. Trees of Ariana, Gedrosia, and Hyrcania                    115

  19. Trees of Bactriana, bdellium, or brochon, otherwise
        malacha, or maldacon, scordastum. Adulterations used
        in all spices and aromatics; the various tests of them
        and their respective values                              _ib._

  20. Trees of Persis                                            117

  21. Trees of the islands of the Persian Sea. The cotton tree   _ib._

  22. The tree called cyna. Trees from which fabrics for
        clothing are made in the east                            118

  23. A country where the trees never lose their leaves          _ib._

  24. The various useful products of trees                       119

  25. Costus                                                     _ib._

  26. Nard. The twelve varieties of the plant                    _ib._

  27. Asarum, or foal-foot                                       121

  28. Amomum.—Amomis                                             122

  29. Cardamomum                                                 123

  30. The country of frankincense                                _ib._

  31. The trees which bear frankincense                          125

  32. Various kinds of frankincense                              126

  33. Myrrh                                                      129

  34. The trees which produce myrrh                              130

  35. The nature and various kinds of myrrh                      _ib._

  36. Mastich                                                    132

  37. Ladanum and stobolon                                       _ib._

  38. Enhæmon                                                    134

  39. The tree called bratus                                     135

  40. The tree called stobrum                                    _ib._

  41. Why Arabia was called “Happy”                              136

  42. Cinnamomum. Xylocinnamum                                   137

  43. Cassia                                                     140

  44. Cancamum and tarum                                         141

  45. Serichatum and gabalium                                    142

  46. Myrobalanum                                                _ib._

  47. Phœnicobalanus                                             143

  48. The sweet-scented calamus; the sweet-scented rush          144

  49. Hammoniacum                                                _ib._

  50. Sphagnos                                                   145

  51. Cypros                                                     146

  52. Aspalathos, or erysisceptrum                               _ib._

  53. Maron                                                      147

  54. Balsamum; opobalsamum; and xylobalsamum                    _ib._

  55. Storax                                                     151

  56. Galbanum                                                   152

  57. Panax                                                      _ib._

  58. Spondylium                                                 153

  59. Malobathrum                                                _ib._

  60. Omphacium                                                  _ib._

  61. Bryon, œnanthe, and massaris                               154

  62. Elate or spathe                                            155

  63. Cinnamon or comacum                                        _ib._


  BOOK XIII.

  THE NATURAL HISTORY OF EXOTIC TREES, AND AN ACCOUNT OF UNGUENTS.

  1. Unguents—at what period they were first introduced          159

  2. The various kinds of unguents—twelve principal
       compositions                                              160

  3. Diapasma, magma; the mode of testing unguents               166

  4. The excesses to which luxury has run in unguents            167

  5. When unguents were first used by the Romans                 168

  6. The palm-tree                                               169

  7. The nature of the palm-tree                                 170

  8. How the palm-tree is planted                                172

  9. The different varieties of palm-trees, and their
       characteristics                                           173

  10. The trees of Syria: the pistacia, the cottana, the
        damascena, and the myxa                                  178

  11. The cedar. Trees which have on them the fruit of three
        years at once                                            _ib._

  12. The terebinth                                              179

  13. The sumach-tree                                            _ib._

  14. The trees of Egypt. The fig-tree of Alexandria             180

  15. The fig-tree of Cyprus                                     181

  16. The carob-tree                                             _ib._

  17. The Persian tree. In what trees the fruits germinate
        the one below the other                                  182

  18. The cucus                                                  183

  19. The Egyptian thorn                                         _ib._

  20. Nine kinds of gum. The sarcocolla                          184

  21. The papyrus: the use of paper: when it was first
        invented                                                 185

  22. The mode of making paper                                   186

  23. The nine different kinds of paper                          187

  24. The mode of testing the goodness of paper                  189

  25. The peculiar defects in paper                              190

  26. The paste used in the preparation of paper                 191

  27. The books of Numa                                          _ib._

  28. The trees of Æthiopia                                      193

  29. The trees of Mount Atlas. The citrus, and the tables
        made of the wood thereof                                 194

  30. The points that are desirable or otherwise in these
        tables                                                   195

  31. The citron-tree                                            198

  32. The lotus                                                  _ib._

  33. The trees of Cyrenaica. The paliurus                       200

  34. Nine varieties of the Punic apple. Balaustium              _ib._

  35. The trees of Asia and Greece; the epipactis, the erica,
        the Cnidian grain or thymelæa, pyrosachne, cnestron,
        or cneoron                                               201

  36. The tragion: tragacanthe                                   _ib._

  37. The tragos or scorpio; the myrica or brya; the ostrys      202

  38. The euonymos                                               203

  39. The tree called eon                                        _ib._

  40. The andrachle                                              204

  41. The coccygia; the apharce                                  _ib._

  42. The ferula                                                 _ib._

  43. The thapsia                                                205

  44. The capparis or cynosbaton, otherwise ophiostaphyle        206

  45. The saripha                                                207

  46. The royal thorn                                            _ib._

  47. The cytisus                                                208

  48. The trees and shrubs of the Mediterranean. The phycos,
        prason, or zoster                                        209

  49. The sea bryon                                              210

  50. Plants of the Red Sea                                      211

  51. Plants of the Indian Sea                                   _ib._

  52. The plants of the Troglodytic Sea; the hair of Isis:
        the Charito-blepharon                                    212


  BOOK XIV.

  THE NATURAL HISTORY OF THE FRUIT-TREES.

  1 and 2. The nature of the vine. Its mode of
        fructification                                           215

  3. The nature of the grape, and the cultivation of the vine    218

  4. Ninety-one varieties of the vine                            222

  5. Remarkable facts connected with the culture of the vine     233

  6. The most ancient wines                                      236

  7. The nature of wines                                         238

  8. Fifty kinds of generous wines                               239

  9. Thirty-eight varieties of foreign wine                      245

  10. Seven kinds of salted wines                                247

  11. Eighteen varieties of sweet wine. Raisin-wine and
        hepsema                                                  248

  12. Three varieties of second-rate wine                        251

  13. At what period generous wines were first commonly made
        in Italy                                                 251

  14. The inspection of wine ordered by King Romulus             252

  15. Wines drunk by the ancient Romans                          253

  16. Some remarkable facts connected with wine-lofts.
        The Opimian wine                                         254

  17. At what period four kinds of wine were first served
        at table                                                 _ib._

  18. The uses of the wild vine. What juices are naturally
        the coldest of all                                       255

  19. Sixty-six varieties of artificial wine                     256

  20. Hydromeli, or melicraton                                   261

  21. Oxymeli                                                    _ib._

  22. Twelve kinds of wine with miraculous properties            262

  23. What wines it is not lawful to use in the sacred rites     263

  24. How must is usually prepared                               _ib._

  25. Pitch and resin                                            264

  26. Vinegar—lees of wine                                       268

  27. Wine-vessels—wine-cellars                                  _ib._

  28. Drunkenness                                                270

  29. Liquors with the strength of wine made from water
        and corn                                                 274


  BOOK XV.

  THE NATURAL HISTORY OF THE FRUIT-TREES.

  1. The olive.—How long it existed in Greece only.—At what
       period it was first introduced into Italy, Spain,
       and Africa                                                277

  2. The nature of the olive, and of new olive oil               278

  3. Olive oil: the countries in which it is produced, and
       its various qualities                                     279

  4. Fifteen varieties of the olive                              281

  5. The nature of olive oil                                     284

  6. The culture of the olive: its mode of preservation.
       The method of making olive oil                            285

  7. Forty-eight varieties of artificial oils. The cicus-tree
       or croton, or sili, or sesamum                            286

  8. Amurca                                                      291

  9. The various kinds of fruit-trees and their natures.
       Four varieties of pine-nuts                               292

  10. The quince. Four kinds of cydonia, and four varieties
        of the struthea                                          _ib._

  11. Six varieties of the peach                                 293

  12. Twelve kinds of plums                                      294

  13. The peach                                                  296

  14. Thirty different kinds of pomes. At what period foreign
        fruits were first introduced into Italy, and whence      297

  15. The fruits that have been most recently introduced         _ib._

  16. Forty-one varieties of the pear                            300

  17. Various methods of grafting trees. Expiations for
        lightning                                                302

  18. The mode of keeping various fruits and grapes              303

  19. Twenty-nine varieties of the fig                           307

  20. Historical anecdotes connected with the fig                309

  21. Caprification                                              311

  22. Three varieties of the medlar                              314

  23. Four varieties of the sorb                                 _ib._

  24. Nine varieties of the nut                                  315

  25. Eighteen varieties of the chesnut                          318

  26. The carob                                                  319

  27. The fleshy fruits. The mulberry                            _ib._

  28. The fruit of the arbutus                                   320

  29. The relative natures of berry fruits                       321

  30. Nine varieties of the cherry                               322

  31. The cornel. The lentisk                                    323

  32. Thirteen different flavours of juices                      _ib._

  33. The colour and smell of juices                             325

  34. The various natures of fruit                               326

  35. The myrtle                                                 328

  36. Historical anecdotes relative to the myrtle                328

  37. Eleven varieties of the myrtle                             330

  38. The myrtle used at Rome in ovations                        331

  39. The laurel; thirteen varieties of it                       332

  40. Historical anecdotes connected with the laurel             334


  BOOK XVI.

  THE NATURAL HISTORY OF THE FOREST TREES.

  1. Countries that have no trees                                339

  2. Wonders connected with trees in the northern regions        340

  3. The acorn oak. The civic crown                              341

  4. The origin of the presentation of crowns                    342

  5. Persons presented with a crown of leaves                    343

  6. Thirteen varieties of the acorn                             345

  7. The beech                                                   346

  8. The other acorns—wood for fuel                              _ib._

  9. The gall-nut                                                350

  10. Other productions on these trees besides the acorn         _ib._

  11. Cachrys                                                    351

  12. The kermes berry                                           353

  13. Agaric                                                     _ib._

  14. Trees of which the bark is used                            354

  15. Shingles                                                   355

  16. The pine                                                   _ib._

  17. The pinaster                                               356

  18. The pitch-tree: the fir                                    _ib._

  19. The larch: the torch-tree                                  357

  20. The yew                                                    360

  21. Methods of making tar—how cedrium is made                  361

  22. Methods by which thick pitch is prepared                   _ib._

  23. How the resin called zopissa is prepared                   363

  24. Trees the wood of which is highly valued. Four varieties
        of the ash                                               365

  25. Two varieties of the linden-tree                           366

  26. Ten varieties of the maple                                 367

  27. Bruscum: molluscum; the staphylodendron                    368

  28. Three varieties of the box-tree                            _ib._

  29. Four varieties of the elm                                  370

  30. The natures of the various trees according to their
        localities: the mountain trees, and the trees of the
        plain                                                    _ib._

  31. Trees which grow on a dry soil: those which are found in
        wet localities: those which are found in both
        indifferently                                            372

  32. Division of trees into various species                     373

  33. Trees which do not lose their foliage. The rhododendron.
        Trees which do not lose the whole of their foliage.
        Places in which there are no trees                       _ib._

  34. The nature of the leaves which wither and fall             374

  35. Trees which have leaves of various colours; trees with
        leaves of various shapes. Three varieties of the poplar  375

  36. Leaves which turn round every year                         376

  37. The care bestowed on the leaves of the palm, and the uses
        to which they are applied                                377

  38. Remarkable facts connected with leaves                     _ib._

  39. The natural order of the production of plants              379

  40. Trees which never blossom. The juniper                     380

  41. The fecundation of trees. Germination: the appearance of
        the fruit                                                381

  42. In what order the trees blossom                            383

  43. At what period each tree bears fruit. The cornel           384

  44. Trees which bear the whole year. Trees which have on them
        the fruit of three years                                 385

  45. Trees which bear no fruit: trees looked upon as
        ill-omened                                               385

  46. Trees which lose their fruit or flowers most readily       386

  47. Trees which are unproductive in certain places             387

  48. The mode in which trees bear                               _ib._

  49. Trees in which the fruit appears before the leaves         _ib._

  50. Trees which bear two crops in a year. Trees which bear
        three crops                                              388

  51. Which trees become old with the greatest rapidity, and
        which most slowly                                        389

  52. Trees which bear various products. Cratægum                390

  53. Differences in trees in respect of the trunks and
        branches                                                 391

  54. The branches of trees                                      392

  55. The bark of trees                                          393

  56. The roots of trees                                         _ib._

  57. Trees which have grown spontaneously from the ground       394

  58. How trees grow spontaneously—diversities in their
        nature, the same trees not growing everywhere            395

  59. Plants that will not grow in certain places                396

  60. The cypress                                                397

  61. That the earth often bears productions which it has never
        borne before                                             399

  62. The ivy—twenty varieties of it                             _ib._

  63. The smilax                                                 402

  64. Water plants: the rush: twenty-eight varieties of the
        reed                                                     403

  65. Reeds used for arrows, and for the purpose of writing      404

  66. Flute reeds: the reed of Orchomenus; reeds used for
        fowling and fishing                                      405

  67. The vine-dresser’s reed                                    408

  68. The willow: eight varieties of it                          409

  69. Trees, in addition to the willow, which are of use in
        making withes                                            410

  70. Rushes: candle-rushes: rushes for thatching                411

  71. The elder: the bramble                                     _ib._

  72. The juices of trees                                        412

  73. The veins and fibres of trees                              413

  74. The felling of trees                                       415

  75. The opinion of Cato on the felling of timber               416

  76. The size of trees: the nature of wood: the sappinus        417

  77. Methods of obtaining fire from wood                        421

  78. Trees which are proof against decay: trees which never
        split                                                    422

  79. Historical facts connected with the durability of wood     423

  80. Varieties of the teredo                                    425

  81. The woods used in building                                 426

  82. Carpenters’ woods                                          427

  83. Woods united with glue                                     _ib._

  84. Veneering                                                  428

  85. The age of trees. A tree that was planted by the first
        Scipio Africanus. A tree at Rome five hundred years
        old                                                      429

  86. Trees as old as the City                                   430

  87. Trees in the suburban districts older than the City        _ib._

  88. Trees planted by Agamemnon the first year of the Trojan
        war: other trees which date from the time that the
        place was called Ilium, anterior to the Trojan war       431

  89. Trees planted at Argos by Hercules: others planted by
        Apollo. A tree more ancient than Athens itself           _ib._

  90. Trees which are the most short-lived                       432

  91. Trees which have been rendered famous by remarkable
        events                                                   _ib._

  92. Plants which have no peculiar spot for their growth:
        others that grow upon trees, and will not grow in
        the ground. Nine varieties of them: cadytas, polypodion,
        phaulias, hippophæston                                   433

  93. Three varieties of mistletoe. The nature of mistletoe
        and similar plants                                       434

  94. The method of making birdlime                              435

  95. Historical facts connected with the mistletoe              435


  BOOK XVII.

  THE NATURAL HISTORY OF THE CULTIVATED TREES.

  1. Trees which have been sold at enormous prices               438

  2. The influence of weather upon trees: what is the proper
       situation for the vine                                    441

  3. What soils are to be considered the best                    446

  4. The eight kinds of earth boasted of by the Gauls and
       Greeks                                                    452

  5. The employment of ashes                                     455

  6. Manure                                                      456

  7. Crops which tend to improve the land: crops which
       exhaust it                                                459

  8. The proper mode of using manure                             _ib._

  9. The modes in which trees bear                               460

  10. Plants which are propagated by seed                        _ib._

  11. Trees which never degenerate                               461

  12. Propagation by suckers                                     463

  13. Propagation by slips and cuttings                          464

  14. Seed-plots                                                 _ib._

  15. The mode of propagating the elm                            467

  16. The holes for transplanting                                468

  17. The intervals to be left between trees                     472

  18. The nature of the shadow thrown by trees                   473

  19. The droppings of water from the leaves                     474

  20. Trees which grow but slowly: those which grow with
        rapidity                                                 475

  21. Trees propagated from layers                               _ib._

  22. Grafting: the first discovery of it                        477

  23. Inoculation or budding                                     _ib._

  24. The various kinds of grafting                              _ib._

  25. Grafting the vine                                          482

  26. Grafting by scutcheons                                     483

  27. Plants which grow from a branch                            485

  28. Trees which grow from cuttings: the mode of planting
        them                                                     486

  29. The cultivation of the olive                               _ib._

  30. Transplanting operations as distributed throughout the
       various seasons of the year                               487

  31. The cleaning and baring of the roots, and moulding them    491

  32. Willow-beds                                                492

  33. Reed-beds                                                  493

  34. Other plants that are cut for poles and stakes             494

  35. The culture of the vine and the various shrubs which
        support it                                               495

  36. How grapes are protected from the ravages of insects       517

  37. The diseases of trees                                      _ib._

  38. Prodigies connected with trees                             526

  39. Treatment of the diseases of trees                         528

  40. Methods of irrigation                                      529

  41. Remarkable facts connected with irrigation                 _ib._

  42. Incisions made in trees                                    530

  43. Other remedies for the diseases of trees                   _ib._

  44. Caprification, and particulars connected with the fig      531

  45. Errors that may be committed in pruning                    _ib._

  46. The proper mode of manuring trees                          532

  47. Medicaments for trees                                      _ib._



GREEK AND ROMAN MONEY, WEIGHTS, AND MEASURES MENTIONED BY PLINY.


  Acetabulum. R                  1/8 of a Sextarius, .1238 pint.
  Actus. R                       120 Pedes or Roman feet.
  Amphora. R                     48 Sextarii, 5 gall. 7.577 pints.
  As. R                          2-1/8 farthings. Copper.
  As. R [weight]                 See “Libra.”
  Concha, Smaller, G and R       .0412 pint.
  Concha, Larger, G and R        .1238 pint.
  Congius. R                     5.9471 pints.
  Cubitus. G                     1 foot 6.2016 inches.
  Cubitus. R                     1 foot 5.4744 inches.
  Culeus. R                      20 Amphoræ, 118 gall. 7.546 pints.
  Cyathus. G and R               1/12 of a Sextarius, .0825 pint.
  Denarius. R                    16 Asses, 8-1/2 pence. Silver.
  Denarius. R. [weight]          52.5 to 60 grains.
  Digitus, or Finger. R          1/16 of a Pes, .7281 inch.
  Drachma. G                     .63 grains.
  Hemina. R                      See “Semisextarius.”
  Jugerum. R                     240 Pedes or Roman feet by 120.
  Libra, or Pound. R             11-3/4 ounces 60.45 grains, avoird.
  Mina.[1] G                     15 ounces 83.75 grains, avoird.
  Modius. R. [dry measure]       1/3 of an Amphora, 1 gall.
                                   7.8576 pints.
  Obolus, G                      1-1/2 pence + .5 farthings. Silver.
  Obolus. G. [weight]            10.5 grains.
  Palmus, or Handbreadth. R      2.9214 inches.
  Passus, or Pace.[2] R          5 Roman feet, 4 ft. 10.248 inches.
  Pes, or Foot. R                12 Unciæ, 11.6496 inches.
  Pollex, or Thumb. R            See “Uncia” [lineal measure].
  Quadrans. R                    .53125 farthings. Copper.
  Quadrans. R [weight]           3 Unciæ, 2-3/4 ounces 97.21 grs.
  Quadrantal. R                  See “Amphora.”
  Quartarius. R                  1/4 of a Sextarius, .2477 pint.
  Quinarius. R                   1/2 of a Denarius.
  Scripulum, or Scruple. R       1/24 of an Uncia, 18.06 grains.
  Semisextarius. R               1/2 of a Sextarius.
  Sestertius. R                  1/4 of a Denarius. Brass or Silver.
  Sestertium. R                  1000 Sestertii, £7 16s. 3d.
  Sextarius. R                   1/6 of a Congius, .9911 pint.
  Spithama, or Span. G           9.1008 inches.
  Stadium. G and R               1/8 of a Roman mile, 606 feet 9 in.
  Teruncius. R                   See “Quadrans” [weight & money].
  Ulna, or Ell. R                6 feet, 81 inch.
  Uncia, or Inch. R              1/12 of a Pes, .9708 inch.
  Uncia, or Ounce. R             1/12 of a Libra. 433.666 grs.
  Urna. R                        1/2 of an Amphora.
  Victoriatus. R                 See “Quinarius.”

The Schœnus, an Egyptian and Persian lineal measure, varied
considerably; being sometimes thirty, and sometimes forty Stadia. See
B. v. c. 11, B. vi. c. 30, and B. xii. c. 30.

The Attic Talent, as a weight, was equal to 56lb. 15-1/4oz. 100.32
grains. The Commercial Talent was 85lb. 2-1/2oz. 70.7 grs. The Silver
Attic, or Great Talent, was in value £343 15s. or, according to Pollux,
£406 5s. The Gold, or Sicilian Talent, was equal in weight to six Attic
Drachmæ, or about 3/4 oz. and 71 grs. The Egyptian Talent, as a measure
of weight, was equal to about twice the Attic Talent.



NATURAL HISTORY OF PLINY.



BOOK XI.

THE VARIOUS KINDS OF INSECTS.



CHAP. 1. (1.)—THE EXTREME SMALLNESS OF INSECTS.


We shall now proceed to a description of the insects, a subject replete
with endless difficulties;[3] for, in fact, there are some authors who
have maintained that they do not respire, and that they are destitute
of blood. The insects are numerous, and form many species, and their
mode of life is like that of the terrestrial animals and the birds.
Some of them are furnished with wings, bees for instance; others
are divided into those kinds which have wings, and those which are
without them, such as ants; while others, again, are destitute of
both wings and feet. All these animals have been very properly called
“insects,”[4] from the incisures or divisions which separate the body,
sometimes at the neck, and sometimes at the corselet, and so divide
it into members or segments, only united to each other by a slender
tube. In some insects, however, this division is not complete, as it
is surrounded by wrinkled folds; and thus the flexible vertebræ of the
creature, whether situate at the abdomen, or whether only at the upper
part of the body, are protected by layers, overlapping each other;
indeed, in no one of her works has Nature more fully displayed her
exhaustless ingenuity.

(2.) In large animals, on the other hand, or, at all events, in the
very largest among them, she found her task easy and her materials
ready and pliable; but in these minute creatures, so nearly akin as
they are to non-entity, how surpassing the intelligence, how vast the
resources, and how ineffable the perfection which she has displayed.
Where is it that she has united so many senses as in the gnat?—not to
speak of creatures that might be mentioned of still smaller size—Where,
I say, has she found room to place in it the organs of sight? Where
has she centred the sense of taste? Where has she inserted the power
of smell? And where, too, has she implanted that sharp shrill voice of
the creature, so utterly disproportioned to the smallness of its body?
With what astonishing subtlety has she united the wings to the trunk,
elongated the joints of the legs, framed that long, craving concavity
for a belly, and then inflamed the animal with an insatiate thirst for
blood, that of man more especially! What ingenuity has she displayed in
providing it with a sting,[5] so well adapted for piercing the skin!
And then too, just as though she had had the most extensive field for
the exercise of her skill, although the weapon is so minute that it can
hardly be seen, she has formed it with a twofold mechanism, providing
it with a point for the purpose of piercing, and at the same moment
making it hollow, to adapt it for suction.

What teeth, too, has she inserted in the teredo,[6] to adapt it for
piercing oak even with a sound which fully attests their destructive
power! while at the same time she has made wood its principal
nutriment. We give all our admiration to the shoulders of the elephant
as it supports the turret, to the stalwart neck of the bull, and the
might with which it hurls aloft whatever comes in its way, to the
onslaught of the tiger, or to the mane of the lion; while, at the
same time, Nature is nowhere to be seen to greater perfection than in
the very smallest of her works. For this reason then, I must beg of
my readers, notwithstanding the contempt they feel for many of these
objects, not to feel a similar disdain for the information I am about
to give relative thereto, seeing that, in the study of Nature, there
are none of her works that are unworthy of our consideration.



CHAP. 2. (3.)—WHETHER INSECTS RESPIRE, AND WHETHER THEY HAVE BLOOD.


Many authors deny that insects respire,[7] and make the assertion upon
the ground, that in their viscera there is no respiratory organ to be
found. On this ground, they assert that insects have the same kind of
life as plants and trees, there being a very great difference between
respiring and merely having life. On similar grounds also, they assert
that insects have no blood, a thing which cannot exist, they say, in
any animal that is destitute of heart and liver; just as, according to
them, those creatures cannot breathe which have no lungs. Upon these
points, however, a vast number of questions will naturally arise; for
the same writers do not hesitate to deny that these creatures are
destitute also of voice,[8] and this, notwithstanding the humming of
bees, the chirping of grasshoppers, and the sounds emitted by numerous
other insects which will be considered in their respective places.
For my part, whenever I have considered the subject, I have ever felt
persuaded that there is nothing impossible to Nature, nor do I see
why creatures should be less able to live and yet not inhale, than to
respire without being possessed of viscera, a doctrine which I have
already maintained, when speaking[9] of the marine animals; and that,
notwithstanding the density and the vast depth of the water which would
appear to impede all breathing. But what person could very easily
believe that there can be any creatures that fly to and fro, and live
in the very midst of the element of respiration, while, at the same
time, they themselves are devoid of that respiration; that they can
be possessed of the requisite instincts for nourishment, generation,
working, and making provision even for time to come, in the enjoyment
too (although, certainly, they are not possessed of the organs which
act, as it were, as the receptacles of those senses) of the powers of
hearing, smelling, and tasting, as well as those other precious gifts
of Nature, address, courage, and skilfulness? That these creatures have
no blood[10] I am ready to admit, just as all the terrestrial animals
are not possessed of it; but then, they have something similar, by way
of equivalent. Just as in the sea, the sæpia[11] has a black liquid in
place of blood, and the various kinds of purples, those juices which
we use for the purposes of dyeing; so, too, is every insect possessed
of its own vital humour, which, whatever it is, is blood to it. While
I leave it to others to form what opinion they please on this subject,
it is my purpose to set forth the operations of Nature in the clearest
possible light, and not to enter upon the discussion of points that are
replete with doubt.



CHAP. 3. (4.)—THE BODIES OF INSECTS.


Insects, so far as I find myself able to ascertain, seem to have
neither sinews,[12] bones, spines, cartilages, fat, nor flesh; nor yet
so much as a frail shell, like some of the marine animals, nor even
anything that can with any propriety be termed skin; but they have a
body which is of a kind of intermediate nature between all these, of an
arid substance, softer than muscle, and in other respects of a nature
that may, in strictness, be rather pronounced yielding,[13] than hard.
Such, then, is all that they are, and nothing more:[14] in the inside
of their bodies there is nothing, except in some few, which have an
intestine arranged in folds. Hence it is, that even when cut asunder,
they are remarkable for their tenacity of life, and the palpitations
which are to be seen in each of their parts. For every portion of them
is possessed of its own vital principle, which is centred in no limb
in particular, but in every part of the body; least of all, however,
in the head, which alone is subject to no movements unless torn off
together with the corselet. No kind of animal has more feet than the
insects have, and those among them which have the most, live the
longest when cut asunder, as we see in the case of the scolopendra.
They have eyes, and the senses as well of touch and taste; some of them
have also the sense of smelling, and some few that of hearing.



CHAP. 4. (5.)—BEES.


But among them all, the first rank, and our especial admiration, ought,
in justice, to be accorded to bees, which alone, of all the insects,
have been created for the benefit of man. They extract honey and
collect it, a juicy substance remarkable for its extreme sweetness,
lightness, and wholesomeness. They form their combs and collect wax,
an article that is useful for a thousand purposes of life; they are
patient of fatigue, toil at their labours, form themselves into
political communities, hold councils together in private, elect chiefs
in common, and, a thing that is the most remarkable of all, have their
own code of morals. In addition to this, being as they are, neither
tame nor wild, so all-powerful is Nature, that, from a creature so
minute as to be nothing more hardly than the shadow of an animal, she
has created a marvel beyond all comparison. What muscular power, what
exertion of strength are we to put in comparison with such vast energy
and such industry as theirs? What display of human genius, in a word,
shall we compare with the reasoning powers manifested by them? In this
they have, at all events, the advantage of us—they know of nothing but
what is for the common benefit of all. Away, then, with all questions
whether they respire or no, and let us be ready to agree on the
question of their blood; and yet, how little of it can possibly exist
in bodies so minute as theirs.—And now let us form some idea of the
instinct they display.



CHAP. 5. (6.)—THE ORDER DISPLAYED IN THE WORKS OF BEES.


Bees keep within the hive during the winter—for whence are they to
derive the strength requisite to withstand frosts and snows, and the
northern blasts? The same, in fact, is done by all insects, but not
to so late a period; as those which conceal themselves in the walls
of our houses, are much sooner sensible of the returning warmth. With
reference to bees, either seasons and climates have considerably
changed, or else former writers have been greatly mistaken. They retire
for the winter at the setting of the Vergiliæ, and remain shut up till
after the rising of that constellation, and not till only the beginning
of spring, as some authors have stated; nor, indeed, does any one in
Italy ever think of then opening the hives. They do not come forth to
ply their labours until the bean blossoms; and then not a day do they
lose in inactivity, while the weather is favourable for their pursuits.

First of all, they set about constructing their combs, and forming the
wax, or, in other words, making their dwellings and cells; after this
they produce their young, and then make honey and wax from flowers,
and extract bee-glue[15] from the tears of those trees which distil
glutinous substances, the juices, gums, and resins, namely, of the
willow, the elm, and the reed. With these substances, as well as others
of a more bitter nature, they first line the whole inside of the hive,
as a sort of protection against the greedy propensities of other small
insects, as they are well aware that they are about to form that which
will prove an object of attraction to them. Having done this, they
employ similar substances in narrowing the entrance to the hive, if
otherwise too wide.



CHAP. 6. (5.)—THE MEANING OF THE TERMS COMMOSIS, PISSOCEROS, AND
PROPOLIS.


The persons who understand this subject, call the substance which
forms the first foundation of their combs, _commosis_,[16] the next,
_pissoceros_,[17] and the third _propolis_;[18] which last is placed
between the other layers and the wax, and is remarkable for its utility
in medicine.[19] The commosis forms the first crust or layer, and has a
bitter taste; and upon it is laid the pissoceros, a kind of thin wax,
which acts as a sort of varnish. The propolis is produced from the
sweet gum of the vine or the poplar, and is of a denser consistency,
the juices of flowers being added to it. Still, however, it cannot be
properly termed wax, but rather the foundation of the honey-combs; by
means of it all inlets are stopped up, which might, otherwise, serve
for the admission of cold or other injurious influences; it has also a
strong odour, so much so, indeed, that many people use it instead of
galbanum.



CHAP. 7.—THE MEANING OF ERITHACE, SANDARACA, OR CERINTHOS.


In addition to this, the bees form collections of _erithace_ or
bee-bread, which some persons call “sandaraca,”[20] and others
“cerinthos.” This is to serve as the food of the bees while they are
at work, and is often found stowed away in the cavities of the cells,
being of a bitter flavour also. It is produced from the spring dews and
the gummy juices of trees, being less abundant while the south-west
wind is blowing, and blackened by the prevalence of a south wind. On
the other hand, again, it is of a reddish colour and becomes improved
by the north-east wind; it is found in the greatest abundance upon the
nut trees in Greece. Menecrates says, that it is a flower, which gives
indications of the nature of the coming harvest; but no one says so,
with the exception of him.



CHAP. 8. (8.)—WHAT FLOWERS ARE USED BY THE BEES IN THEIR WORK.


Bees form wax[21] from the blossoms of all trees and plants, with
the sole exception of the rumex[22] and the echinopodes,[23] both
being kinds of herbs. It is by mistake, however, that spartum is
excepted;[24] for many varieties of honey that come from Spain, and
have been made in the plantations of it, have a strong taste of that
plant. I am of opinion, also, that it is without any sufficient reason
that the olive has been excepted, seeing that it is a well-known fact,
that where olives are in the greatest abundance, the swarms of bees are
the most numerous. Bees are not injurious to fruit of any kind; they
will never settle on a dead flower, much less a dead carcase. They
pursue their labours within three-score paces of their hives; and when
the flowers in their vicinity are exhausted, they send out scouts from
time to time, to discover places for forage at a greater distance. When
overtaken by night in their expeditions, they watch till the morning,
lying on their backs, in order to protect their wings from the action
of the dew.



CHAP. 9. (9.)—PERSONS WHO HAVE MADE BEES THEIR STUDY.


It is not surprising that there have been persons who have made bees
their exclusive study; Aristomachus of Soli, for instance, who for a
period of fifty-eight years did nothing else; Philiscus of Thasos,
also, surnamed Agrius,[25] who passed his life in desert spots, tending
swarms of bees. Both of these have written works on this subject.



CHAP. 10. (10.)—THE MODE IN WHICH BEES WORK.


The manner in which bees carry on their work is as follows. In the
day time a guard is stationed at the entrance of the hive, like the
sentries in a camp. At night they take their rest until the morning,
when one of them awakes the rest with a humming noise, repeated twice
or thrice, just as though it were sounding a trumpet. They then take
their flight in a body, if the day is likely to turn out fine; for they
have the gift of foreknowing wind and rain, and in such case will keep
close within their dwellings. On the other hand, when the weather is
fine—and this, too, they have the power of foreknowing—the swarm issues
forth, and at once applies itself to its work, some loading their
legs from the flowers, while others fill their mouths with water, and
charge the downy surface of their bodies with drops of liquid. Those
among them that are young[26] go forth to their labours, and collect
the materials already mentioned, while those that are more aged stay
within the hives and work. The bees whose business it is to carry the
flowers, with their fore feet load their thighs, which Nature has made
rough for the purpose, and with their trunks load their fore feet:
bending beneath their load, they then return to the hive, where there
are three or four bees ready to receive them, and aid in discharging
their burdens. For, within the hive as well, they have their allotted
duties to perform: some are engaged in building, others in smoothing,
the combs, while others again are occupied in passing on the materials,
and others in preparing food[27] from the provision which has been
brought; that there may be no unequal division, either in their labour,
their food, or the distribution of their time, they do not even feed
separately.

Commencing at the vaulted roof of the hive, they begin the construction
of their cells, and, just as we do in the manufacture of a web, they
construct their cells from top to bottom, taking care to leave two
passages around each compartment, for the entrance of some and the exit
of others. The combs, which are fastened to the hive in the upper part,
and in a slight degree also at the sides, adhere to each other, and are
thus suspended altogether. They do not touch the floor of the hive,
and are either angular or round, according to its shape; sometimes,
in fact, they are both angular and round at once, when two swarms are
living in unison, but have dissimilar modes of operation. They prop
up the combs that are likely to fall, by means of arched pillars, at
intervals springing from the floor, so as to leave them a passage for
the purpose of effecting repairs. The first three ranks of their cells
are generally left empty when constructed, that there may be nothing
exposed to view which may invite theft; and it is the last ones, more
especially, that are filled with honey: hence it is that the combs are
always taken out at the back of the hive.

The bees that are employed in carrying look out for a favourable
breeze, and if a gale should happen to spring up, they poise themselves
in the air with little stones, by way of ballast; some writers,
indeed, say that they place them upon their shoulders. When the wind
is contrary, they fly close to the ground, taking care, however, to
keep clear of the brambles. It is wonderful what strict watch is kept
upon their work: all instances of idleness are carefully remarked, the
offenders are chastised, and on a repetition of the fault, punished
with death. Their sense of cleanliness, too, is quite extraordinary;
everything is removed that might be in the way, and no filth is allowed
to remain in the midst of their work. The ordure even of those that are
at work within, that they may not have to retire to any distance, is
all collected in one spot, and on stormy days, when they are obliged
to cease their ordinary labours, they employ themselves in carrying it
out. When it grows towards evening, the buzzing in the hive becomes
gradually less and less, until at last one of their number is to be
seen flying about the hive with the same loud humming noise with which
they were aroused in the morning, thereby giving the signal, as it
were, to retire to rest: in this, too, they imitate the usage of the
camp. The moment the signal is heard, all is silent.

(11.) They first construct the dwellings of the commonalty, and then
those of the king-bee. If they have reason to expect an abundant[28]
season, they add abodes also for the drones: these are cells of a
smaller size, though the drones themselves are larger than the bees.



CHAP. 11.—DRONES.


The drones have no sting,[29] and would seem to be a kind of imperfect
bee, formed the very last of all; the expiring effort, as it were, of
worn-out and exhausted old age, a late and tardy offspring, and doomed,
in a measure, to be the slaves of the genuine bees. Hence it is that
the bees exercise over them a rigorous authority, compel them to take
the foremost rank in their labours, and if they show any sluggishness,
punish them[30] without mercy. And not only in their labours do the
drones give them their assistance, but in the propagation of their
species as well, the very multitude of them contributing greatly to the
warmth of the hive. At all events, it is a well-known fact, that the
greater[31] the multitude of the drones, the more numerous is sure
to be the progeny of the swarm. When the honey is beginning to come
to maturity, the bees drive away the drones, and setting upon each in
great numbers, put them all to death. It is only in the spring that the
drones are ever to be seen. If you deprive a drone of its wings, and
then replace it in the hive, it will pull off the wings of the other
drones.



CHAP. 12.—THE QUALITIES OF HONEY.


In the lower part of the hive they construct for their future sovereign
a palatial abode,[32] spacious and grand, separated from the rest,
and surmounted by a sort of dome: if this prominence should happen
to be flattened, all hopes of progeny are lost. All the cells are
hexagonal, each foot[33] having formed its own side. No part of this
work, however, is done at any stated time, as the bees seize every
opportunity for the performance of their task when the days are fine;
in one or two days, at most, they fill their cells with honey.

(12.) This substance is engendered from the air,[34] mostly at the
rising of the constellations, and more especially when Sirius is
shining; never, however, before the rising of the Vergiliæ, and then
just before day-break. Hence it is, that at early dawn the leaves of
the trees are found covered with a kind of honey-like dew, and those
who go into the open air at an early hour in the morning, find their
clothes covered, and their hair matted, with a sort of unctuous liquid.
Whether it is that this liquid is the sweat of the heavens, or whether
a saliva emanating from the stars, or a juice exuding from the air
while purifying itself, would that it had been, when it comes to us,
pure, limpid, and genuine, as it was, when first it took its downward
descent. But as it is, falling from so vast a height, attracting
corruption in its passage, and tainted by the exhalations of the earth
as it meets them, sucked, too, as it is from off the trees and the
herbage of the fields, and accumulated in the stomachs of the bees—for
they cast it up again through the mouth—deteriorated besides by the
juices of flowers, and then steeped within the hives and subjected to
such repeated changes—still, in spite of all this, it affords us by
its flavour a most exquisite pleasure, the result, no doubt, of its
æthereal nature and origin.



CHAP. 13. (13.)—WHERE THE BEST HONEY IS PRODUCED.


The honey is always best in those countries where it is to be found
deposited in the calix of the most exquisite flowers, such, for
instance, as the districts of Hymettus and Hybla, in Attica and Sicily
respectively, and after them the island of Calydna.[35] At first,
honey is thin, like water, after which it effervesces for some days,
and purifies itself like must. On the twentieth day it begins to
thicken, and soon after becomes covered with a thin membrane, which
gradually increases through the scum which is thrown up by the heat.
The honey of the very finest flavour, and the least tainted by the
leaves of trees, is that gathered from the foliage of the oak and the
linden, and from reeds.



CHAP. 14. (14.)—THE KINDS OF HONEY PECULIAR TO VARIOUS PLACES.


The peculiar excellence of honey depends, as already stated,[36] on
the country in which it is produced; the modes, too, of estimating
its quality are numerous. In some countries we find the honey-comb
remarkable for the goodness of the wax, as in Sicily, for instance, and
the country of the Peligni; in other places the honey itself is found
in greater abundance, as in Crete, Cyprus, and Africa; and in others,
again, the comb is remarkable for its size; the northern climates, for
instance, for in Germany a comb has been known to be as much as eight
feet in length, and quite black on the concave surface.

But whatever the country in which it may happen to have been produced,
there are three different kinds of honey.—Spring honey[37] is that
made in a comb which has been constructed of flowers, from which
circumstance it has received the name of _anthinum_. There are some
persons who say that this should not be touched, because the more
abundant the nutriment, the stronger will be the coming swarm; while
others, again, leave less of this honey than of any other for the bees,
on the ground that there is sure to be a vast abundance at the rising
of the greater constellations, as well as at the summer solstice, when
the thyme and the vine begin to blossom, for then they are sure to find
abundant materials for their cells.

In taking the combs the greatest care is always requisite, for when
they are stinted for food the bees become desperate, and either pine
to death, or else wing their flight to other places: but on the other
hand, over-abundance will entail idleness, and then they will feed
upon the honey, and not the bee-bread. Hence it is that the most
careful breeders take care to leave the bees a fifteenth part of this
gathering. There is a certain day for beginning the honey-gathering,
fixed, as it were, by a law of Nature, if men would only understand or
observe it, being the thirtieth day after the bees have swarmed and
come forth. This gathering mostly takes place before the end of May.

The second kind of honey is “summer honey,” which, from the
circumstance of its being produced at the most favourable season, has
received the Greek name of _horaion_;[38] it is generally made during
the next thirty days after the solstice, while Sirius is shining in all
its brilliancy. Nature has revealed in this substance most remarkable
properties to mortals, were it not that the fraudulent propensities of
man are apt to falsify and corrupt everything. For, after the rising of
each constellation, and those of the highest rank more particularly, or
after the appearance of the rainbow, if a shower does not ensue, but
the dew becomes warmed by the sun’s rays, a medicament, and not real
honey, is produced; a gift sent from heaven for the cure of diseases
of the eyes, ulcers, and maladies of the internal viscera. If this is
taken at the rising of Sirius, and the rising of Venus, Jupiter, or
Mercury should happen to fall on the same day, as often is the case,
the sweetness of this substance, and the virtue which it possesses of
restoring men to life, are not inferior to those attributed to the
nectar of the gods.



CHAP. 15. (15.)—HOW HONEY IS TESTED. ERICÆUM. TETRALIX, OR SISIRUM.


The crop of honey is most abundant if gathered at full moon, and
it is richest when the weather is fine. In all honey, that which
flows of itself, like must or oil, has received from us the name of
_acetum_.[39] The summer honey is the most esteemed of all, from the
fact of its being made when the weather is driest: it is looked upon as
the most serviceable when made from thyme;[40] it is then of a golden
colour, and of a most delicious flavour. The honey that we see formed
in the calix of flowers is of a rich and unctuous nature; that which
is made from rosemary is thick, while that which is candied is little
esteemed. Thyme honey does not coagulate, and on being touched will
draw out into thin viscous threads, a thing which is the principal
proof of its heaviness. When honey shows no tenacity, and the drops
immediately part from one another, it is looked upon as a sign of its
worthlessness. The other proofs of its goodness are the fine aroma
of its smell, its being of a sweetness that closely borders on the
sour,[41] and being glutinous and pellucid.

Cassius Dionysius is of opinion that in the summer gathering the
tenth part of the honey ought to be left for the bees if the hives
should happen to be well filled, and even if not, still in the same
proportion; while, on the other hand, if there is but little in them,
he recommends that it should not be touched at all. The people of
Attica have fixed the period for commencing this gathering at the first
ripening of the wild fig; others[42] have made it the day that is
sacred to Vulcan.[43]

(16.) The third kind of honey, which is the least esteemed of all, is
the wild honey, known by the name of _ericæum_.[44] It is collected by
the bees after the first showers of autumn, when the heather[45] alone
is blooming in the woods, from which circumstance it derives its sandy
appearance. It is mostly produced at the rising of Arcturus, beginning
at the day[46] before the ides of September. Some persons delay the
gathering of the summer honey until the rising of Arcturus, because
from then till the autumnal equinox there are fourteen days left, and
it is from the equinox till the setting of the Vergiliæ, a period
of forty-eight days, that the heather is in the greatest abundance.
The Athenians call this plant by the name of _tetralix_,[47] and the
Eubœans _sisirum_, and they look upon it as affording great pleasure to
the bees to browse upon, probably because there are no other flowers
for them to resort to. This gathering terminates at the end of the
vintage and the setting of the Vergiliæ, mostly about the ides of
November.[48] Experience teaches us that we ought to leave for the bees
two-thirds of this crop, and always that part of the combs as well,
which contains the bee-bread.

From the winter solstice to the rising of Arcturus the bees are buried
in sleep for sixty days, and live without any nourishment. Between the
rising of Arcturus and the vernal equinox, they awake in the warmer
climates, but even then they still keep within the hives, and have
recourse to the provisions kept in reserve for this period. In Italy,
however, they do this immediately after the rising of the Vergiliæ,
up to which period they are asleep. Some persons, when they take the
honey, weigh the hive and all, and remove just as much as they leave:
a due sense of equity should always be stringently observed in dealing
with them, and it is generally stated that if imposed upon in this
division, the swarm will die of grief. It is particularly recommended
also that the person who takes the honey should be well washed
and clean: bees have a particular aversion, too, to a thief and a
menstruous woman. When the honey is taken, it is the best plan to drive
away the bees by means of smoke, lest they should become irritated, or
else devour the honey themselves. By often applying smoke, too, they
are aroused from their idleness to work; but if they have not duly
incubated in the comb, it is apt to become of a livid colour. On the
other hand, if they are smoked too often, they will become tainted;
the honey, too, a substance which turns sour at the very slightest
contact with dew, will very quickly receive injury from the taint thus
contracted: hence it is that among the various kinds of honey which are
preserved, there is one which is known by the name of _acapnon_.[49]



CHAP. 16.—THE REPRODUCTION OF BEES.


How bees generate their young has been a subject of great and subtle
research among the learned; seeing that no one has ever witnessed[50]
any sexual intercourse among these insects. Many persons have
expressed an opinion that they must be produced from flowers, aptly
and artistically arranged by Nature; while others, again, suppose that
they are produced from an intercourse with the one which is to be found
in every swarm, and is usually called the king. This one, they say, is
the only male[51] in the hive, and is endowed with such extraordinary
proportions, that it may not become exhausted in the performance of
its duties. Hence it is, that no offspring can be produced without it,
all the other bees being females,[52] and attending it in its capacity
of a male, and not as their leader. This opinion, however, which is
otherwise not improbable, is sufficiently refuted by the generation of
the drones. For on what grounds could it possibly happen that the same
intercourse should produce an offspring part of which is perfect, and
part in an imperfect state? The first surmise which I have mentioned
would appear, indeed, to be much nearer the truth, were it not the
case that here another difficulty meets us—the circumstance that
sometimes, at the extremity of the combs, there are produced bees of
a larger size, which put the others to flight. This noxious bee bears
the name of _œstrus_,[53] and how is it possible that it should ever
be produced, if it is the fact that the bees themselves form their
progeny?[54]

A fact, however, that is well ascertained, is, that bees sit,[55] like
the domestic fowl, that which is hatched by them at first having
the appearance of a white maggot, and lying across and adhering so
tenaciously to the wax as to seem to be part of it. The king, however,
from the earliest moment, is of the colour of honey, just as though he
were made of the choicest flowers, nor has he at any time the form of
a grub, but from the very first is provided with wings.[56] The rest
of the bees, as soon as they begin to assume a shape, have the name of
_nymphæ_,[57] while the drones are called _sirenes_, or _cephenes_. If
a person takes off the head of either kind before the wings are formed,
the rest of the body is considered a most choice morsel by the parents.
In process of time the parent bees instil nutriment into them, and
sit upon them, making on this occasion a loud humming noise, for the
purpose, it is generally supposed, of generating that warmth which is
so requisite for hatching the young. At length the membrane in which
each of them is enveloped, as though it lay in an egg, bursts asunder,
and the whole swarm comes to light.

This circumstance was witnessed at the suburban retreat of a man of
consular dignity near Rome, whose hives were made of transparent
lantern horn: the young were found to be developed in the space of
forty-five days. In some combs, there is found what is known by the
name of “nail” wax;[58] it is bitter and hard, and is only met with
when the bees have failed to hatch their young, either from disease
or a natural sterility, it is the abortion, in fact, of the bees. The
young ones, the moment they are hatched, commence working with their
parents, as though in a course of training, and the newly-born king is
accompanied by a multitude of his own age.

That the supply may not run short, each swarm rears several kings; but
afterwards, when this progeny begins to arrive at a mature age, with
one accord[59] they put to death the inferior ones, lest they should
create discord in the swarm.[60] There are two sorts of king bees;
those of a reddish colour are better than the black and mottled ones.
The kings have always a peculiar form of their own, and are double the
size of any of the rest; their wings are shorter[61] than those of the
others, their legs are straight, their walk more upright, and they have
a white spot on the forehead, which bears some resemblance to a diadem:
they differ, too, very much from the rest of the community, in their
bright and shining appearance.



CHAP. 17. (17.)—THE MODE OF GOVERNMENT OF THE BEES.


Let a man employ himself, forsooth, in the enquiry whether there has
been only one Hercules, how many fathers Liber there have been, and all
the other questions which are buried deep in the mould of antiquity!
Here behold a tiny object, one to be met with at most of our country
retreats, and numbers of which are always at hand, and yet, after all,
it is not agreed among authors whether or not the king[62] is the only
one among them that is provided with no sting, and is possessed of no
other arms than those afforded him by his majestic office, or whether
Nature has granted him a sting, and has only denied him the power of
making use of it; it being a well-known fact, that the ruling bee
never does use a sting. The obedience which his subjects manifest in
his presence is quite surprising. When he goes forth, the whole swarm
attends him, throngs about him, surrounds him, protects him, and will
not allow him to be seen. At other times, when the swarm is at work
within, the king is seen to visit the works, and appears to be giving
his encouragement, being himself the only one that is exempt from work:
around him are certain other bees which act as body-guards and lictors,
the careful guardians of his authority. The king never quits the hive
except when the swarm is about to depart; a thing which may be known
a long time beforehand, as for some days a peculiar buzzing noise is
to be heard within, which denotes that the bees are waiting for a
favourable day, and making all due preparations for their departure. On
such an occasion, if care is taken to deprive the king of one of his
wings, the swarm will not fly away. When they are on the wing, every
one is anxious to be near him, and takes a pleasure in being seen in
the performance of its duty. When he is weary, they support him on
their shoulders; and when he is quite tired, they carry him outright.
If one of them falls in the rear from weariness, or happens to go
astray, it is able to follow the others by the aid of its acuteness
of smell. Wherever the king bee happens to settle, that becomes the
encampment of all.



CHAP. 18.—HAPPY OMENS SOMETIMES AFFORDED BY A SWARM OF BEES.


And then, too, it is that they afford presages both of private and
public interest, clustering, as they do, like a bunch of grapes, upon
houses or temples; presages, in fact, that are often accounted for by
great events. Bees settled upon the lips of Plato when still an infant
even, announcing thereby the sweetness of that persuasive eloquence for
which he was so noted. Bees settled, too, in the camp of the chieftain
Drusus when he gained the brilliant victory at Arbalo;[63] a proof,
indeed, that the conjectures of soothsayers are not by any means
infallible, seeing that they are of opinion that this is always of evil
augury. When their leader is withheld from them, the swarm can always
be detained; and when lost, it will disperse and take its departure to
find other kings. Without a king, in fact, they cannot exist, and it
is with the greatest reluctance that they put them to death when there
are several; they prefer, too, to destroy the cells of the young ones,
if they find reason to despair of providing food; in such case they
then expel the drones. And yet, with regard to the last, I find that
some doubts are entertained; and that there are some authors who are
of opinion that they form a peculiar species, like that bee, the very
largest among them all, which is known by the name of the “thief,”[64]
because it furtively devours the honey; it is distinguished by its
black colour and the largeness of its body. It is a well-known fact,
however, that the bees are in the habit of killing the drones. These
last have no king of their own; but how it is that they are produced
without a sting, is a matter still undetermined.

In a wet spring the young swarms are more numerous; in a dry one the
honey is most abundant. If food happens to fail the inhabitants of any
particular hive, the swarm makes a concerted attack upon a neighbouring
one, with the view of plundering it. The swarm that is thus attacked,
at once ranges itself in battle array, and if the bee-keeper should
happen to be present, that side which perceives itself favoured by
him will refrain from attacking him. They often fight, too, for other
reasons as well, and the two generals are to be seen drawing up their
ranks in battle array against their opponents. The dispute generally
arises in culling from the flowers, when each, the moment that it is
in danger, summons its companions to its aid. The battle, however, is
immediately put an end to by throwing dust[65] among them, or raising
a smoke; and if milk or honey mixed with water is placed before them,
they speedily become reconciled.



CHAP. 19. (18.)—THE VARIOUS KINDS OF BEES.


There are field bees also, and wild bees, ungainly in appearance,
and much more irascible than the others, but remarkable for their
laboriousness and the excellence of their work. Of domestic bees there
are two sorts; the best are those with short bodies, speckled all over,
and of a compact round shape. Those that are long, and resemble the
wasp in appearance, are an inferior kind; and of these last, the very
worst of all are those which have the body covered with hair. In Pontus
there is a kind of white bee, which makes honey twice a month. On the
banks of the river Thermodon there are two kinds found, one of which
makes honey in the trees, the other under ground: they form a triple
row of combs, and produce honey in the greatest abundance.

Nature has provided bees with a sting, which is inserted in the abdomen
of the insect. There are some who think that at the first blow which
they inflict with this weapon they will instantly die,[66] while
others, again, are of opinion that such is not the case, unless the
animal drives it so deep as to cause a portion of the intestines to
follow; and they assert, also, that after they have thus lost their
sting they become drones,[67] and make no honey, being thus castrated,
so to say, and equally incapable of inflicting injury, and of making
themselves useful by their labours. We have instances stated of horses
being killed by bees.

They have a great aversion to bad smells, and fly away from them; a
dislike which extends to artificial perfumes even. Hence it is that
they will attack persons who smell of unguents. They themselves, also,
are exposed to the attacks of wasps and hornets, which belong to the
same class, but are of a degenerate[68] nature; these wage continual
warfare against them, as also does a species of gnat, which is known by
the name of “mulio;”[69] swallows, too, and various other birds prey
upon them. Frogs lie in wait for them when in quest of water, which,
in fact, is their principal occupation at the time they are rearing
their young. And it is not only the frog that frequents ponds and
streams that is thus injurious to them, but the bramble-frog as well,
which will come to the hives even in search of them, and, crawling up
to the entrance, breathe through the apertures; upon hearing which, a
bee flies to the spot, and is snapped up in an instant. It is generally
stated that frogs are proof against the sting of the bee. Sheep, too,
are peculiarly dangerous to them, as they have the greatest difficulty
in extricating themselves from the fleece. The smell of crabs,[70] if
they happen to be cooked in their vicinity, is fatal to them.



CHAP. 20.—THE DISEASES OF BEES.


Bees are also by nature liable to certain diseases of their own. The
sign that they are diseased, is a kind of torpid, moping sadness: on
such occasions, they are to be seen bringing out those that are sick
before the hives, and placing them in the warm sun, while others,
again, are providing them with food. Those that are dead they carry
away from the hive, and attend the bodies, paying their last duties, as
it were, in funeral procession. If the king should happen to be carried
off by the pestilence, the swarm remains plunged in grief and listless
inactivity; it collects no more food, and ceases to issue forth from
its abode; the only thing that it does is to gather around the body,
and to emit a melancholy humming noise. Upon such occasions, the usual
plan is to disperse the swarm and take away the body; for otherwise
they would continue listlessly gazing upon it, and so prolong their
grief. Indeed, if due care is not taken to come to their aid, they will
die of hunger. It is from their cheerfulness, in fact, and their bright
and sleek appearance that we usually form an estimate as to their
health.

(19) There are certain maladies, also, which affect their productions;
when they do not fill their combs, the disease under which they are
labouring is known by the name of _claros_,[71] and if they fail to
rear their young, they are suffering from the effects of that known as
_blapsigonia_.[72]



CHAP. 21.—THINGS THAT ARE NOXIOUS TO BEES.


Echo, or the noise made by the reverberation of the air, is also
injurious to bees, as it dismays them by its redoubled sounds; fogs,
also, are noxious to them. Spiders, too, are especially hostile to
bees; when they have gone so far as to build their webs within the
hive, the death of the whole swarm is the result. The common and
ignoble moth,[73] too, that is to be seen fluttering about a burning
candle, is deadly to them, and that in more ways than one. It devours
the wax, and leaves its ordure behind it, from which the maggot known
to us as the “teredo” is produced; besides which, wherever it goes, it
drops the down from off its wings, and thereby thickens the threads of
the cobwebs. The teredo is also engendered in the wood of the hive,
and then it proves especially destructive to the wax. Bees are the
victims, also, of their own greediness, for when they glut themselves
overmuch with the juices of the flowers, in the spring season more
particularly, they are troubled with flux and looseness. Olive oil is
fatal[74] to not only bees, but all other insects as well, and more
especially if they are placed in the sun, after the head has been
immersed in it. Sometimes, too, they themselves are the cause of their
own destruction; as, for instance, when they see preparations being
made for taking their honey, and immediately fall to devouring it with
the greatest avidity. In other respects they are remarkable for their
abstemiousness, and they will expel those that are inclined to be
prodigal and voracious, no less than those that are sluggish and idle.
Their own honey even may be productive of injury to them; for if they
are smeared with it on the fore-part of the body, it is fatal to them.
Such are the enemies, so numerous are the accidents—and how small a
portion of them have I here enumerated!—to which a creature that proves
so bountiful to us is exposed. In the appropriate place[75] we will
treat of the proper remedies; for the present the nature of them is our
subject.



CHAP. 22. (20.)—HOW TO KEEP BEES TO THE HIVE.


The clapping of the hands and the tinkling of brass afford bees great
delight, and it is by these means that they are brought together; a
strong proof, in fact, that they are possessed of the sense of hearing.
When their work is completed, their offspring brought forth, and all
their duties fulfilled, they still have certain formal exercises to
perform, ranging abroad throughout the country, and soaring aloft in
the air, wheeling round and round as they fly, and then, when the hour
for taking their food has come, returning home. The extreme period of
their life, supposing that they escape accident and the attacks of
their enemies, is only seven years; a hive, it is said, never lasts
more than ten.[76] There are some persons, who think that, when dead,
if they are preserved in the house throughout the winter, and then
exposed to the warmth of the spring sun, and kept hot all day in the
ashes of fig-tree wood, they will come to life again.



CHAP. 23.—METHODS OF RENEWING THE SWARM.


These persons say also, that if the swarm is entirely lost, it may be
replaced by the aid of the belly[77] of an ox newly killed, covered
over with dung. Virgil also says[78] that this may be done with the
body of a young bull, in the same way that the carcase of the horse
produces wasps and hornets, and that of the ass beetles, Nature herself
effecting these changes of one substance into another. But in all
these last, sexual intercourse is to be perceived as well, though the
characteristics of the offspring are pretty much the same as those of
the bee.



CHAP. 24. (21.)—WASPS AND HORNETS: ANIMALS WHICH APPROPRIATE WHAT
BELONGS TO OTHERS.


Wasps build their nests of mud in lofty places,[79] and make wax
therein: hornets, on the other hand, build in holes or under ground.
With these two kinds the cells are also hexagonal, but, in other
respects, though made of the bark of trees, they strongly resemble the
substance of a spider’s web. Their young also are found at irregular
intervals, and are of unshapely appearance; while one is able to fly,
another is still a mere pupa, and a third only in the maggot state.
It is in the autumn, too, and not in the spring, that all their young
are produced; and they grow during the full moon more particularly.
The wasp which is known as the ichneumon,[80] a smaller kind than
the others, kills one kind of spider in particular, known as the
phalangium; after which it carries the body to its nest, covers it over
with a sort of gluey substance, and then sits and hatches from it its
young.[81] In addition to this, they are all of them carnivorous, while
on the other hand bees will touch no animal substance whatever. Wasps
more particularly pursue the larger flies, and after catching them cut
off the head and carry away the remaining portion of the body.

Wild hornets live in the holes of trees, and in winter, like other
insects, keep themselves concealed; their life does not exceed two
years in length. It is not unfrequently that their sting is productive
of an attack of fever, and there are authors who say that thrice nine
stings will suffice to kill a man. Of the other hornets, which seem
not to be so noxious, there are two kinds; the working ones, which
are smaller in size and die in the winter; and the parent hornets,
which live two years; these last, indeed, are quite harmless.[82] In
spring they build their nests, which have generally four entrances,
and here it is that the working hornets are produced: after these
have been hatched they form other nests of larger size, in which to
bring forth the parents of the future generation. From this time the
working hornets begin to follow their vocation, and apply themselves to
supplying the others with food. The parent hornets are of larger size
than the others, and it is very doubtful whether they have a sting, as
it is never to be seen protruded. These races, too, have their drones.
Some persons are of opinion that all these insects lose their stings
in the winter. Neither hornets nor wasps have a king, nor do they
ever congregate in swarms; but their numbers are recruited by fresh
offspring from time to time.



CHAP. 25. (22.)—THE BOMBYX OF ASSYRIA.


A fourth class of this kind[83] of insect is the bombyx,[84] which is a
native of Assyria, and is of larger size than any of those which have
been previously mentioned. They construct their nests of a kind of mud
which has the appearance of salt, and then fasten them to a stone,
where they become so hard, that it is scarcely possible to penetrate
them with a dart even. In these nests they make wax, in larger
quantities than bees, and the grub which they then produce is larger.



CHAP. 26.—THE LARVÆ OF THE SILK-WORM—WHO FIRST INVENTED SILK CLOTHS.


There is another class also of these insects produced in quite a
different manner. These last spring from a grub of larger size, with
two horns of very peculiar appearance. The larva then becomes a
caterpillar, after which it assumes the state in which it is known
as _bombylis_, then that called _necydalus_, and after that, in six
months, it becomes a silk-worm.[85] These insects weave webs similar
to those of the spider, the material of which is used for making the
more costly and luxurious garments of females, known as “bombycina.”
Pamphile, a woman of Cos,[86] the daughter of Platea, was the first[87]
person who discovered the art of unravelling these webs and spinning a
tissue therefrom; indeed, she ought not to be deprived of the glory of
having discovered the art of making vestments which, while they cover a
woman, at the same moment reveal her naked charms.



CHAP. 27. (23.)—THE SILK-WORM OF COS—HOW THE COAN VESTMENTS ARE MADE.


The silk-worm, too, is said to be a native of the isle of Cos, where
the vapours of the earth give new life to the flowers of the cypress,
the terebinth, the ash, and the oak which have been beaten down by
the showers. At first they assume the appearance of small butterflies
with naked bodies, but soon after, being unable to endure the cold,
they throw out bristly hairs, and assume quite a thick coat against
the winter, by rubbing off the down that covers the leaves, by the
aid of the roughness of their feet. This they compress into balls by
carding it with their claws, and then draw it out and hang it between
the branches of the trees, making it fine by combing it out as it were:
last of all, they take and roll it round their body, thus forming a
nest in which they are enveloped. It is in this state that they are
taken; after which they are placed in earthen vessels in a warm place,
and fed upon bran. A peculiar sort of down soon shoots forth upon the
body, on being clothed with which they are sent to work upon another
task. The cocoons[88] which they have begun to form are rendered soft
and pliable by the aid of water, and are then drawn out into threads
by means of a spindle made of a reed. Nor, in fact, have the men even
felt ashamed to make use[89] of garments formed of this material, in
consequence of their extreme lightness in summer: for, so greatly have
manners degenerated in our day, that, so far from wearing a cuirass,
a garment even is found to be too heavy. The produce of the Assyrian
silk-worm, however, we have till now left to the women only.



CHAP. 28. (24.)—SPIDERS; THE KINDS THAT MAKE WEBS; THE MATERIALS USED
BY THEM IN SO DOING.


It is by no means an absurdity to append to the silk-worm an account
of the spider, a creature which is worthy of our especial admiration.
There are numerous kinds of spiders, however, which it will not be
necessary here to mention, from the fact of their being so well known.
Those that bear the name of _phalangium_ are of small size, with bodies
spotted and running to a point; their bite is venomous, and they leap
as they move from place to place. Another kind, again, is black, and
the fore-legs are remarkable for their length. They have all of them
three joints in the legs. The smaller kind of wolf-spider[90] does not
make a web, but the larger ones make their holes in the earth, and
spread their nets at the narrow entrance thereof. A third kind, again,
is remarkable for the skill which it displays in its operations. These
spin a large web, and the abdomen suffices to supply the material
for so extensive a work, whether it is that, at stated periods the
excrements are largely secreted in the abdomen, as Democritus thinks,
or that the creature has in itself a certain faculty of secreting[91]
a peculiar sort of woolly substance. How steadily does it work with
its claws, how beautifully rounded and how equal are the threads as it
forms its web, while it employs the weight of its body as an equipoise!
It begins at the middle to weave its web, and then extends it by adding
the threads in rings around, like a warp upon the woof: forming the
meshes at equal intervals, but continually enlarging them as the web
increases in breadth, it finally unites them all by an indissoluble
knot. With what wondrous art does it conceal the snares that lie in
wait for its prey in its checkered nettings! How little, too, would it
seem that there is any such trap laid in the compactness of its web
and the tenacious texture of the woof, which would appear of itself
to be finished and arranged by the exercise of the very highest art!
How loose, too, is the body of the web as it yields to the blasts,
and how readily does it catch all objects which come in its way! You
would fancy that it had left, quite exhausted, the thrums of the upper
portion of its net unfinished where they are spread across; it is with
the greatest difficulty that they are to be perceived, and yet the
moment that an object touches them, like the lines of the hunter’s
net, they throw it into the body of the web. With what architectural
skill, too, is its hole arched over, and how well defended by a nap of
extra thickness against the cold! How carefully, too, it retires into a
corner, and appears intent upon anything but what it really is, all the
while that it is so carefully shut up from view, that it is impossible
to perceive whether there is anything within or not! And then too, how
extraordinary the strength of the web! When is the wind ever known to
break it, or what accumulation of dust is able to weigh it down?

The spider often spreads its web right across between two trees, when
plying its art and learning how to spin; and then, as to its length,
the thread extends from the very top of the tree to the ground, while
the insect springs up again in an instant from the earth, and travels
aloft by the very self-same thread, thus mounting at the same moment
and spinning its threads. When its prey falls into its net, how on the
alert it is, and with what readiness it runs to seize it! Even though
it should be adhering to the very edge of its web, the insect always
runs instantly to the middle, as it is by these means that it can most
effectually shake the web, and so successfully entangle its prey. When
the web is torn, the spider immediately sets about repairing it, and
that so neatly, that nothing like patching can ever be seen. The spider
lies in wait even for the young of the lizard, and after enveloping the
head of the animal, bites its lips; a sight by no means unworthy of
the amphitheatre itself, when it is one’s good fortune to witness it.
Presages also are drawn from the spider; for when a river is about to
swell, it will suspend its web higher than usual. In calm weather these
insects do not spin, but when it is cloudy they do, and hence it is,
that a great number of cobwebs is a sure sign of showery weather. It
is generally supposed that it is the female spider that spins, and the
male that lies in wait for prey, thus making an equal division of their
duties.



CHAP. 29.—THE GENERATION OF SPIDERS.


Spiders couple[92] backwards, and produce maggots like eggs; for I
ought not to defer making some mention of this subject, seeing, in
fact, that of most insects there is hardly anything else to be said.
All these eggs they lay in their webs, but scattered about, as they
leap from place to place while laying them. The phalangium is the only
spider that lays a considerable number of them, in a hole; and as
soon as ever the progeny is hatched it devours its mother, and very
often the male parent as well, for that, too, aids in the process of
incubation. These last produce as many as three hundred eggs, the
others a smaller number. Spiders take three days to hatch their eggs.
They come to their full growth in twenty-eight days.



CHAP. 30. (25.)—SCORPIONS.


In a similar manner to the spider, the land scorpion also produces
maggots[93] similar to eggs, and dies in a similar manner. This animal
is a dangerous scourge, and has a venom like that of the serpent; with
the exception that its effects are far more[94] painful, as the person
who is stung will linger for three days before death ensues. The sting
is invariably fatal to virgins, and nearly always so to matrons. It is
so to men also, in the morning, when the animal has issued from its
hole in a fasting state, and has not yet happened to discharge its
poison by any accidental stroke. The tail is always ready to strike,
and ceases not for an instant to menace, so that no opportunity may
possibly be missed. The animal strikes too with a sidelong blow, or
else by turning the tail upwards. Apollodorus informs us, that the
poison which they secrete is of a white colour, and he has divided
them into nine classes, distinguished mostly by their colours—to very
little purpose, however, for it is impossible to understand which among
these it is that he has pronounced to be the least dangerous. He says,
also, that some of them have a double sting, and that the males—for he
asserts that they are engendered by the union of the sexes—are the most
dangerous. These may easily be known, he says, by their slender form
and greater length. He states, also, that they all of them have venom
in the middle of the day, when they have been warmed by the heat of the
sun, as, also, when they are thirsty—their thirst, indeed, can never be
quenched. It is an ascertained fact, that those which have seven joints
in the tail are the most[95] deadly; the greater part, however, have
but six.

For this pest of Africa, the southern winds have provided means of
flight as well, for as the breeze bears them along, they extend
their arms and ply them like so many oars in their flight; the same
Apollodorus, however, asserts that there are some which really have
wings.[96] The Psylli, who for their own profit have been in the habit
of importing the poisons of other lands among us, and have thus filled
Italy with the pests which belong to other regions, have made attempts
to import the flying scorpion as well, but it has been found that
it cannot live further north than the latitude of Sicily. However,
they[97] are sometimes to be seen in Italy, but are quite harmless
there; they are found, also, in many other places, the vicinity of
Pharos, in Egypt, for instance. In Scythia, the scorpion is able to
kill the swine even with its sting, an animal which, in general, is
proof against poisons of this kind in a remarkable degree. When stung,
those swine which are black die more speedily than others, and more
particularly if they happen to throw themselves into the water. When a
person has been stung, it is generally supposed that he may be cured
by drinking the ashes of the scorpion[98] mixed with wine. It is the
belief also that there is nothing more baneful to the scorpion and
the stellio,[99] than to dip them in oil. This last animal is also
dangerous to all other creatures, except those which, like itself,
are destitute of blood: in figure it strongly resembles the common
lizard. For the most part, also, the scorpion does no injury to any
animal which is bloodless. Some writers, too, are of opinion that the
scorpion devours its offspring, and that the one among the young which
is the most adroit avails itself of its sole mode of escape, by placing
itself on the back of the mother, and thus finding a place where it is
in safety from the tail and the sting. The one that thus escapes, they
say, becomes the avenger of the rest, and at last, taking advantage of
its elevated position, puts its parents to death. The scorpion produces
eleven at a birth.



CHAP. 31. (26.)—THE STELLIO.


The stellio[100] has in some measure the same nature as the chameleon,
as it lives upon nothing but dew, and such spiders[101] as it may
happen to find.



CHAP. 32.—THE GRASSHOPPER: THAT IT HAS NEITHER MOUTH NOR OUTLET FOR
FOOD.


The cicada[102] also lives in a similar manner, and is divided into
two kinds. The smaller kind are born the first and die the last, and
are without a voice. The others are of the flying kind, and have a
note; there are two sorts, those known as _achetæ_, and the smaller
ones called _tettigonia_: these last have the loudest voice. In both of
these last-mentioned kinds, it is the male that sings, while the female
is silent. There are nations in the east that feed upon these insects,
the Parthians even, wealthy and affluent as they are. They prefer the
male before it has had sexual intercourse, and the female after; and
they take[103] their eggs, which are white. They engender with the
belly upwards. Upon the back they have a sharp-edged instrument,[104]
by means of which they excavate a hole to breed in, in the ground. The
young is, at first, a small maggot in appearance, after which the larva
assumes the form in which it is known as the _tettigometra_.[105] It
bursts its shell about the time of the summer solstice, and then takes
to flight, which always happens in the night. The insect, at first, is
black and hard.

This is the only living creature that has no mouth; though it has
something instead which bears a strong resemblance to the tongues of
those insects which carry a sting in the mouth: this organ is situate
in the breast[106] of the animal, and is employed by it in sucking
up the dew. The corselet itself forms a kind of pipe; and it is by
means of this that the achetæ utter their note, as already mentioned.
Beyond this, they have no viscera in the abdomen. When surprised, they
spring upwards, and eject a kind of liquid, which, indeed, is our only
proof that they live upon dew. This, also, is the only animal that
has no outlet for the evacuations of the body. Their powers of sight
are so bad, that if a person contracts his finger, and then suddenly
extends it close to them, they will come upon it just as though it
were a leaf. Some authors divide these animals into two kinds, the
“surcularia,”[107] which is the largest, and the “frumentaria,”[108] by
many known as the “avenaria;”[109] this last makes its appearance just
as the corn is turning dry in the ear.

(27.) The grasshopper is not a native of countries that are bare of
trees—hence it is that there are none in the vicinity of the city of
Cyrene—nor, in fact, is it produced in champaign countries, or in cool
and shady thickets. They will take to some places much more readily
than others. In the district of Miletus they are only to be found in
some few spots; and in Cephallenia, there is a river which runs through
the country, on one side of which they are not to be found, while on
the other they exist in vast numbers. In the territory of Rhegium,
again, none of the grasshoppers have any note, while beyond the river,
in the territory of Locri,[110] they sing aloud. Their wings are formed
similarly to those of bees, but are larger, in proportion to the body.



CHAP. 33. (28.)—THE WINGS OF INSECTS.[111]


There are some insects which have two wings, flies, for instance;
others, again, have four, like the bee. The wings of the grasshopper
are membranous. Those insects which are armed with a sting in the
abdomen, have four wings. None of those which have a sting in the
mouth, have more than two wings. The former have received the sting for
the purpose of defending themselves, the latter for the supplying of
their wants. If pulled from off the body, the wings of an insect will
not grow again; no insect which has a sting inserted in its body, has
two wings only.



CHAP. 34.—THE BEETLE. THE GLOW-WORM. OTHER KINDS OF BEETLES.


Some insects, for the preservation of their wings, are covered with a
crust;[112] the beetle, for instance, the wing of which is peculiarly
fine and frail. To these insects a sting has been denied by Nature;
but in one large kind[113] we find horns of a remarkable length,
two-pronged at the extremities, and forming pincers, which the animal
closes when it is its intention to bite. These beetles are suspended
from the neck of infants by way of remedy against certain maladies:
Nigidius calls them “lucani.” There is another kind[114] of beetle,
again, which, as it goes backwards with its feet, rolls the dung into
large pellets, and then deposits in them the maggots which form its
young, as in a sort of nest, to protect them against the rigours of
winter. Some, again, fly with a loud buzzing or a drony noise, while
others[115] burrow numerous holes in the hearths and out in the fields,
and their shrill chirrup is to be heard at night.

The glow-worm, by the aid of the colour of its sides[116] and haunches,
sends forth at night a light which resembles that of fire; being
resplendent, at one moment, as it expands its wings,[117] and then
thrown into the shade the instant it has shut them. These insects are
never to be seen before the grass of the pastures has come to maturity,
nor yet after the hay has been cut. On the other hand, it is the nature
of the black beetle[118] to seek dark corners, and to avoid the light:
it is mostly found in baths, being produced from the humid vapours
which arise therefrom. There are some beetles also, belonging to the
same species, of a golden colour and very large size, which burrow[119]
in dry ground, and construct small combs of a porous nature, and very
like sponge; these they fill with a poisonous kind of honey. In Thrace,
near Olynthus, there is a small locality, the only one in which this
animal cannot exist; from which circumstance it has received the name
of “Cantharolethus.”[120]

The wings of all insects are formed without[121] any division in them,
and they none of them have a tail,[122] with the exception of the
scorpion; this, too, is the only one among them that has arms,[123]
together with a sting in the tail. As to the rest of the insects, some
of them have the sting in the mouth, the gad-fly for instance, or the
“tabanus,” as some persons choose to call it: the same is the case,
too, with the gnat and some kinds of flies. All these insects have
their stings situate in the mouth instead[124] of a tongue; but in
some the sting is not pointed, being formed not for pricking, but for
the purpose of suction: this is the case more especially with flies,
in which it is clear that the tongue[125] is nothing more than a tube.
These insects, too, have no teeth. Others, again, have little horns
protruding in front of the eyes, but without any power in them; the
butterfly, for instance. Some insects are destitute of wings, such as
the scolopendra, for instance.[126]



CHAP. 35.—LOCUSTS.


Those insects which have feet, move sideways. Some of them have the
hind feet longer than the fore ones, and curving outwards, the locust,
for example.

(29.) These creatures lay their eggs in large masses, in the autumn,
thrusting the end of the tail into holes which they form in the
ground. These eggs remain underground throughout the winter, and in
the ensuing year, at the close of spring, small locusts issue from
them, of a black colour, and crawling along without legs[127] and
wings. Hence it is that a wet spring destroys their eggs, while, if it
is dry, they multiply in great abundance. Some persons maintain that
they breed twice a year, and die the same number of times; that they
bring forth at the rising[128] of the Vergiliæ, and die at the rising
of the Dog-star,[129] after which others spring up in their places:
according to some, it is at the setting[130] of Arcturus that the
second litter is produced. That the mothers die the moment they have
brought forth, is a well-known fact, for a little worm immediately
grows about the throat, which chokes them: at the same time, too, the
males perish as well. This insect, which thus dies through a cause
apparently so trifling, is able to kill a serpent by itself, when it
pleases, by seizing its jaws with its teeth.[131] Locusts are only
produced in champaign places, that are full of chinks and crannies. In
India, it is said that they attain the length of three[132] feet, and
that the people dry the legs and thighs, and use them for saws. There
is another mode, also, in which these creatures perish; the winds carry
them off in vast swarms, upon which they fall into the sea or standing
waters, and not, as the ancients supposed, because their wings have
been drenched by the dampness of the night. The same authors have also
stated, that they are unable to fly during the night, in consequence of
the cold, being ignorant of the fact, that they travel over lengthened
tracts of sea for many days together, a thing the more to be wondered
at, as they have to endure hunger all the time as well, for this it is
which causes them to be thus seeking pastures in other lands. This is
looked upon as a plague[133] inflicted by the anger of the gods; for as
they fly they appear to be larger than they really are, while they make
such a loud noise with their wings, that they might be readily supposed
to be winged creatures of quite another species. Their numbers, too,
are so vast, that they quite darken the sun; while the people below are
anxiously following them with the eye, to see if they are about to make
a descent, and so cover their lands. After all, they have the requisite
energies for their flight; and, as though it had been but a trifling
matter to pass over the seas, they cross immense tracts of country, and
cover them in clouds which bode destruction to the harvests. Scorching
numerous objects by their very contact, they eat away everything with
their teeth, the very doors of the houses even.

Those from Africa are the ones which chiefly devastate Italy; and more
than once the Roman people have been obliged to have recourse to the
Sibylline Books, to learn what remedies to employ under their existing
apprehensions of impending famine. In the territory of Cyrenaica[134]
there is a law, which even compels the people to make war, three times
a year, against the locusts, first, by crushing their eggs, next by
killing the young, and last of all by killing those of full growth;
and he who fails to do so, incurs the penalty of being treated as a
deserter. In the island of Lemnos also, there is a certain measure
fixed by law, which each individual is bound to fill with locusts which
he has killed, and then bring it to the magistrates. It is for this
reason, too, that they pay such respect to the jack-daw, which flies
to meet the locusts, and kills them in great numbers. In Syria, also,
the people are placed under martial law, and compelled to kill them:
in so many countries does this dreadful pest prevail. The Parthians
look upon them as a choice food,[135] and the grasshopper as well. The
voice of the locust appears to proceed from the back part of the head.
It is generally believed that in this place, where the shoulders join
on to the body, they have, as it were, a kind of teeth, and that it
is by grinding these against each other that they produce the harsh
noise which they make. It is more especially about the two equinoxes
that they are to be heard, in the same way that we hear the chirrup of
the grasshopper about the summer solstice. The coupling of locusts is
similar to that of all other insects that couple, the female supporting
the male, and turning back the extremity of the tail towards him; it is
only after a considerable time that they separate. In all these kinds
of insects the male is of smaller size than the female.



CHAP. 36. (30.)—ANTS.


The greater part of the insects produce a maggot. Ants also produce
one in spring, which is similar to an egg,[136] and they work in
common, like bees; but whereas the last make their food, the former
only store[137] it away. If a person only compares the burdens which
the ants carry with the size of their bodies, he must confess that
there is no animal which, in proportion, is possessed of a greater
degree of strength. These burdens they carry with the mouth, but when
it is too large to admit of that, they turn their backs to it, and push
it onwards with their feet, while they use their utmost energies with
their shoulders. These insects, also, have a political community among
themselves, and are possessed of both memory and foresight. They gnaw
each grain before they lay it by, for fear lest it should shoot while
under ground; those grains, again, which are too large for admission,
they divide at the entrance of their holes; and those which have become
soaked by the rain, they bring out and dry.[138] They work, too, by
night, during the full moon; but when there is no moon, they cease
working. And then, too, in their labours, what ardour they display,
what wondrous carefulness! Because they collect their stores from
different quarters, in ignorance of the proceedings of one another,
they have certain days set apart for holding a kind of market, on which
they meet together and take stock.[139] What vast throngs are then to
be seen hurrying together, what anxious enquiries appear to be made,
and what earnest parleys[140] are going on among them as they meet! We
see even the very stones worn away by their footsteps, and roads beaten
down by being the scene of their labours. Let no one be in doubt,
then, how much assiduity and application, even in the very humblest
of objects, can upon every occasion effect! Ants are the only living
beings, besides man, that bestow burial on the dead. In Sicily there
are no winged ants to be found.

(31.) The horns of an Indian ant, suspended in the temple of Hercules,
at Erythræ,[141] have been looked upon as quite miraculous for their
size. This ant excavates gold from holes, in a country in the north
of India, the inhabitants of which are known as the Dardæ. It has the
colour of a cat, and is in size as large as an Egyptian wolf.[142] This
gold, which it extracts in the winter, is taken by the Indians during
the heats of summer, while the ants are compelled, by the excessive
warmth, to hide themselves in their holes. Still, however, on being
aroused by catching the scent of the Indians, they sally forth, and
frequently tear them to pieces, though provided with the swiftest
camels for the purpose of flight; so great is their fleetness, combined
with their ferocity and their passion for gold!



CHAP. 37. (32.)—THE CHRYSALIS.


Many insects, however, are engendered in a different manner; and some
more especially from dew. This dew settles upon the radish[143] leaf in
the early days of spring; but when it has been thickened by the action
of the sun, it becomes reduced to the size of a grain of millet. From
this a small grub afterwards arises, which, at the end of three days,
becomes transformed into a caterpillar. For several successive days it
still increases in size, but remains motionless, and covered with a
hard husk. It moves only when touched, and is covered with a web like
that of the spider. In this state it is called a chrysalis, but after
the husk is broken, it flies forth in the shape of a butterfly.



CHAP. 38. (33.)—ANIMALS WHICH BREED IN WOOD.


In the same manner, also, some animals are generated in the earth
from rain, and some, again, in wood. And not only wood-worms[144]
are produced in wood, but gad-flies also and other insects issue
from it, whenever there is an excess of moisture; just as in man,
tape-worms[145] are sometimes found, as much as three hundred feet or
more in length.



CHAP. 39.—INSECTS THAT ARE PARASITES OF MAN. WHICH IS THE SMALLEST OF
ANIMALS? ANIMALS FOUND IN WAX EVEN.


Then, too, in dead carrion there are certain animals produced, and in
the hair, too, of living men. It was through such vermin as this that
the Dictator Sylla,[146] and Alcman, one of the most famous of the
Grecian poets, met their deaths. These insects infest birds too, and
are apt to kill the pheasant, unless it takes care to bathe itself in
the dust. Of the animals that are covered with hair, it is supposed
that the ass and the sheep are the only ones that are exempt from
these vermin. They are produced, also, in certain kinds of cloth, and
more particularly those made of the wool of sheep which have been
killed by the wolf. I find it stated, also, by authors, that some
kinds of water[147] which we use for bathing are more productive of
these parasites than others. Even wax is found to produce mites, which
are supposed to be the very smallest of all living creatures. Other
insects, again, are engendered from filth, acted upon by the rays of
the sun—these fleas are called “petauristæ,”[148] from the activity
which they display in their hind legs. Others, again, are produced with
wings, from the moist dust that is found lying in holes and corners.



CHAP. 40. (34.)—AN ANIMAL WHICH HAS NO PASSAGE FOR THE EVACUATIONS.


There is an animal,[149] also, that is generated in the summer, which
has its head always buried deep in the skin [of a beast], and so,
living on its blood, swells to a large size. This is the only living
creature that has no outlet[150] for its food; hence, when it has
overgorged itself, it bursts asunder, and thus its very aliment is
made the cause of its death. This insect never breeds on beasts of
burden, but is very commonly seen on oxen, and sometimes on dogs,
which, indeed, are subject to every species of vermin. With sheep and
goats, it is the only parasite. The thirst, too, for blood displayed by
leeches, which we find in marshy waters, is no less singular; for these
will thrust the entire head into the flesh in quest of it. There is a
winged insect[151] which peculiarly infests dogs, and more especially
attacks them with its sting about the ears, where they are unable to
defend themselves with their teeth.



CHAP. 41. (35.)—MOTHS, CANTHARIDES, GNATS—AN INSECT THAT BREEDS IN THE
SNOW.


Dust, too, is productive of worms[152] in wools and cloths, and this
more especially if a spider should happen to be enclosed in them: for,
being sensible of thirst, it sucks up all the moisture, and thereby
increases the dryness of the material. These will breed in paper also.
There is one kind which carries with it its husk, in the same manner
as the snail, only that the feet are to be seen. If deprived of it, it
does not survive; and when it is fully developed, the insect becomes a
chrysalis. The wild fig-tree produces gnats,[153] known as “ficarii;”
and the little grubs of the fig-tree, the pear-tree, the pine, the
wild rose, and the common rose produce cantharides,[154] when fully
developed. These insects, which are venomous, carry with them their
antidote; for their wings are useful in medicine,[155] while the rest
of the body is deadly. Again, liquids turned sour will produce other
kinds of gnats, and white grubs are to be found in snow that has lain
long on the ground, while those that lie above are of a reddish[156]
colour—indeed, the snow itself becomes red after it has lain some time
on the ground. These grubs are covered with a sort of hair, are of a
rather large size, and in a state of torpor.



CHAP. 42. (36.)—AN ANIMAL FOUND IN FIRE—THE PYRALLIS OR PYRAUSTA.


That element, also, which is so destructive to matter, produces certain
animals; for in the copper-smelting furnaces of Cyprus, in the very
midst of the fire, there is to be seen flying about a four-footed
animal with wings, the size of a large fly: this creature is called the
“pyrallis,” and by some the “pyrausta.” So long as it remains in the
fire it will live, but if it comes out and flies a little distance from
it, it will instantly die.



CHAP. 43.—THE ANIMAL CALLED HEMEROBION.


The Hypanis, a river of Pontus, brings down in its waters, about
the time of the summer solstice, small membranous particles, like a
grape-stone in appearance; from which there issues an animal[157] with
four legs and with wings, similar to the one just mentioned. It does
not, however, live more than a single day, from which circumstance it
has obtained the name of “hemerobion.”[158] The life of other insects
of a similar nature is regulated from its beginning to its end by
multiples of seven. Thrice seven days is the duration of the life of
the gnat and of the maggot, while those that are viviparous live four
times seven days, and their various changes and transformations take
place in periods of three or four days. The other insects of this kind
that are winged, generally die in the autumn, the gad-fly becoming
quite blind[159] even before it dies. Flies which have been drowned in
water, if they are covered with ashes,[160] will return to life.



CHAP. 44. (37.)—THE NATURE AND CHARACTERISTICS OF ALL ANIMALS
CONSIDERED LIMB BY LIMB. THOSE WHICH HAVE TUFTS AND CRESTS.


In addition to what is already stated, we will add an account of every
part of the body of an animal, taken limb by limb.

All those which have blood, have a head as well. A small number of
animals, and those only among the birds, have tufts of various kinds
upon the head. The phœnix[161] has a long row of feathers on it, from
the middle of which arises another row; peacocks have a hairy tuft,
resembling a bushy shrub; the stymphalis[162] has a sort of pointed
crest, and the pheasant, again, small horns. Added to these, there
is the lark, a little bird, which, from the appearance of its tuft,
was formerly called “galerita,” but has since received the Gallic
name of “alauda,”[163] a name which it has transferred to one of our
legions.[164] We have already made mention, also, of one bird[165]
to which Nature has given a crest, which it can fold or unfold at
pleasure: the birds of the coot kind[166] have also received from
her a crest, which takes its rise at the beak, and runs along the
middle of the head; while the pie of Mars, and the Balearic crane, are
furnished with pointed tufts. But the most remarkable feature of all,
is the crest which we see attached to the heads of our domestic fowls,
substantial and indented like a saw; we cannot, in fact, strictly call
it flesh, nor can we pronounce it to be cartilage or a callosity, but
must admit that it is something of a nature peculiar to itself. As to
the crests of dragons, there is no one to be found who ever saw one.



CHAP. 45.—THE VARIOUS KINDS OF HORNS. ANIMALS IN WHICH THEY ARE
MOVEABLE.


Horns, too, of various forms have been granted to many animals of the
aquatic, marine, and reptile kind, but those which are more properly
understood under that name belong to the quadrupeds only; for I look
upon the tales of Actæon and of Cippus even, in Latin story, as nothing
more nor less than fables.[167] And, indeed, in no department of her
works has Nature displayed a greater capriciousness. In providing
animals with these weapons, she has made merry at their expense; for
some she has spread them out in branches, the stag, for instance; to
others she has given them in a more simple form, as in the “subulo,”
so called from the resemblance of its horns to a “subula,”[168] or
shoemaker’s awl. In others, again, she has flattened them in the shape
of a man’s hand, with the fingers extended, from which circumstance
the animal has received the name of “platyceros.”[169] To the roe-buck
she has given branching horns, but small, and has made them so as not
to fall off and be cast each year; while to the ram she has given
them of a contorted and spiral form, as though she were providing it
with a cæstus for offence. The horns of the bull, again, are upright
and threatening. In this last kind, the females, too, are provided
with them, while in most it is only the males. The chamois has them,
curving backwards; while in the fallow deer[170] they bend forward. The
strepsiceros,[171] which in Africa bears the name of addax, has horns
erect and spiral, grooved and tapering to a sharp point, so much so,
that you would almost take them to be the sides of a lyre.[172] In the
oxen of Phrygia, the horns are moveable,[173] like the ears; and among
the cattle of the Troglodytæ, they are pointed downwards to the ground,
for which reason it is that they are obliged to feed with the head on
one side. Other animals, again, have a single horn, and that situate in
the middle of the head, or else on the nose, as already stated.[174]

Then, again, in some animals the horns are adapted for butting, and
in others for goring; with some they are curved inwards, with others
outwards, and with others, again, they are fitted for tossing: all
which objects are effected in various ways, the horns either lying
backwards, turning from, or else towards each other, and in all cases
running to a sharp point. In one kind, also, the horns are used for the
purpose of scratching the body, instead of hands.

In snails the horns are fleshy, and are thus adapted for the purpose
of feeling the way, which is also the case with the cerastes;[175]
some reptiles, again, have only one horn, though the snail has always
two, suited for protruding and withdrawing. The barbarous nations of
the north drink from the horns of the urus,[176] a pair of which will
hold a couple of urnæ:[177] other tribes, again, point their spears
with them. With us they are cut into laminæ, upon which they become
transparent; indeed, the rays of a light placed within them may be
seen to a much greater distance than without. They are used also for
various appliances of luxury, either coloured or varnished, or else
for those kinds of paintings which are known as “cestrota,”[178] or
horn-pictures. The horns of all animals are hollow within, it being
only at the tip that they are solid: the only exception is the stag,
the horn of which is solid throughout, and is cast every year. When
the hoofs of oxen are worn to the quick, the husbandmen have a method
of curing them, by anointing the horns of the animal with grease. The
substance of the horns is so ductile, that even while upon the body of
the living animal, they can be bent by being steeped in boiling wax,
and if they are split down when they are first shooting, they may be
twisted different ways, and so appear to be four in number upon one
head. In females the horns are generally thinner than in the males, as
is the case, also, with most kinds of wool-bearing animals.

No individuals, however, among sheep, or hinds, nor yet any that have
the feet divided into toes, or that have solid hoofs, are furnished
with horns; with the sole exception of the Indian ass,[179] which is
armed with a single horn. To the beasts that are cloven-footed Nature
has granted two horns, but to those that have fore-teeth in the upper
jaw, she has given none. Those persons who entertain the notion that
the substance of these teeth is expended in the formation of the
horns, are easily to be refuted, if we only consider the case of the
hind, which has no more teeth than the male, and yet is without horns
altogether. In the stag the horn is only imbedded in the skin, but in
the other[180] animals it adheres to the bone.



CHAP. 46.—THE HEADS OF ANIMALS. THOSE WHICH HAVE NONE.


The head of the fish is very large in proportion to the rest of the
body, probably, to facilitate its diving under water. Animals of the
oyster and the sponge kind have no head, which is the case, also, with
most of the other kinds, whose only sense is that of touch. Some,
again, have the head blended with the body, the crab, for instance.



CHAP. 47.—THE HAIR.


Of all animals man has the longest hair upon the head; which is the
case more especially with those nations where the men and women in
common leave the hair to grow, and do not cut it. Indeed, it is from
this fact, that the inhabitants of the Alps have obtained from us the
name of “Capillati,”[181] as also those of Gallia, “Comata.”[182]
There is, however, a great difference in this respect according to
the various countries. In the island of Myconus,[183] the people are
born without hair, just as at Caunus the inhabitants are afflicted
with the spleen from their birth.[184] There are some animals, also,
that are naturally bald, such as the ostrich, for instance, and the
aquatic raven, which last has thence derived its Greek[185] name. It
is but rarely that the hair falls off in women, and in eunuchs such
is never known to be the case; nor yet does any person lose it before
having known sexual intercourse.[186] The hair does not fall off below
the brain, nor yet beneath the crown of the head, or around the ears
and the temples. Man is the only animal that becomes bald, with the
exception, of course, of such animals as are naturally so. Man and the
horse are the only creatures whose hair turns grey; but with man this
is always the case, first in the fore-part of the head, and then in the
hinder part.



CHAP. 48.—THE BONES OF THE HEAD.


Some few persons only are double-crowned. The bones of the head are
flat, thin, devoid of marrow, and united with sutures indented like a
comb. When broken asunder they cannot be united, but the extraction
of a small portion is not necessarily fatal, as a fleshy cicatrix
forms, and so makes good the loss. We have already mentioned, in their
respective[187] places, that the skull of the bear is the weakest of
all, and that of the parrot the hardest.



CHAP. 49.—THE BRAIN.


The brain exists in all animals which have blood, and in those sea
animals as well, which we have already mentioned as mollusks, although
they are destitute of blood, the polypus, for instance. Man, however,
has, in proportion to his body, the most voluminous brain of all.
This, too, is the most humid, and the coldest of all the viscera, and
is enveloped above and below with two membranous integuments, for
either of which to be broken is fatal. In addition to these facts, we
may remark that the brain is larger in men than in women. In man the
brain is destitute of blood and veins, and in other animals it has
no fat. Those who are well informed on the subject, tell us that the
brain is quite a different substance from the marrow, seeing that on
being boiled it only becomes harder. In the very middle of the brain
of every animal there are small bones found. Man is the only animal in
which it is known to palpitate[188] during infancy; and it does not
gain its proper consistency until after the child has made its first
attempt to speak. The brain is the most elevated of all the viscera,
and the nearest to the roof of the head; it is equally devoid of flesh,
blood, and excretions. The senses hold this organ as their citadel; it
is in this that are centred all the veins which spring from the heart;
it is here that they terminate; this is the very culminating point
of all, the regulator of the understanding. With all animals it is
advanced to the fore-part of the head, from the fact that the senses
have a tendency to the direction in which we look. From the brain
proceeds sleep, and its return it is that causes the head to nod. Those
creatures, in fact, which have no brain, never sleep. It is said that
stags[189] have in the head certain small maggots, twenty in number:
they are situate in the empty space that lies beneath the tongue, and
around the joints by which the head is united to the body.



CHAP. 50.—THE EARS. ANIMALS WHICH HEAR WITHOUT EARS OR APERTURES.


Man is the only animal the ears of which are immoveable. It is from
the natural flaccidity of the ear, that the surname of _Flaccus_ is
derived. There is no part of the body that creates a more enormous
expense for our women, in the pearls which are suspended from them.
In the East, too, it is thought highly becoming for the men, even, to
wear gold rings in their ears. Some animals have large, and others
small ears. The stag alone has them cut and divided, as it were; in
the field-mouse they have a velvet surface. All the animals that are
viviparous have ears of some kind or other, with the sole exception of
the sea-calf, the dolphin, the fishes which we have mentioned[190]
as cartilaginous, and the viper. These animals have only cavities
instead of ears, with the exception of the cartilaginous fishes and
the dolphin, which last, however, it is quite clear possesses the
sense of hearing, for it is charmed by singing, and is often taken
while enraptured with the melody: how it is that it does hear, is
quite marvellous. These animals, too, have not the slightest trace of
olfactory organs, and yet they have a most acute sense of smell.

Among the winged animals, only the horned owl and the long-eared owl
have feathers which project like ears, the rest having only cavities
for the purpose of hearing; the same is the case, also, with the scaly
animals and the serpents. Among horses and beasts of burden of all
kinds, it is the ears which indicate the natural feelings; when the
animal is weary, they are drooping and flaccid; when it is startled,
they quiver to and fro; when it is enraged, they are pricked up; and
when it is ailing, they are pendant.



CHAP. 51.—THE FACE, THE FOREHEAD, AND THE EYE-BROWS.


Man is the only creature that has a face, the other animals having
only a muzzle or a beak. Other animals have a forehead as well, but
it is only on the forehead of man that is depicted sorrow, gladness,
compassion, or severity. It is the forehead that is the index of the
mind. Man has eyebrows, also, which move together or alternately;
these, too, serve in some measure as indications of the feelings. Do
we deny or do we assent, it is the eyebrows, mostly, that indicate
our intentions. Feelings of pride may be generated elsewhere, but it
is here that they have their principal abode; it is in the heart that
they take their rise, but it is to the eyebrows that they mount, and
here they take up their position. In no part of the body could they
meet with a spot more lofty and more precipitous, in which to establish
themselves free from all control.



CHAP. 52.—THE EYES—ANIMALS WHICH HAVE NO EYES, OR HAVE ONLY ONE EYE.


Below the forehead are the eyes, which form the most precious portion
of the human body, and which, by the enjoyment of the blessings of
sight, distinguish life from death. Eyes, however, have not been
granted to all animals; oysters have none, but, with reference to some
of the shell-fish, the question is still doubtful; for if we move the
fingers before a scallop half open, it will immediately close its
shell, apparently from seeing them, while the solen[191] will start
away from an iron instrument when placed near it. Among quadrupeds
the mole[192] has no sight, though it has something that bears a
resemblance to eyes, if we remove the membrane that is extended in
front of them. Among birds also, it is said that a species of heron,
which is known as the “leucus,”[193] is wanting of one eye: a bird
of most excellent augury, when it flies towards the south or north,
for it is said that it portends thereby that there is about to be an
end of perils and alarms. Nigidius says also, that neither locusts
nor grasshoppers have eyes. In snails,[194] the two small horns with
which they feel their way, perform the duties of eyes. Neither the
mawworm[195] nor any other kind of worm has eyes.



CHAP. 53.—THE DIVERSITY OF THE COLOUR OF THE EYES.


The eyes vary in colour in the human race only; in all other animals
they are of one uniform colour peculiar to the kind, though there
are some horses that have eyes of an azure colour. But in man the
varieties and diversities are most numerous; the eyes being either
large, of middling size, remarkably small, or remarkably prominent.
These last are generally supposed to be very weak, while those which
are deep-seated are considered the best, as is the case also with those
which in colour resemble the eyes of the goat.



CHAP. 54.—THE THEORY OF SIGHT—PERSONS WHO CAN SEE BY NIGHT.


In addition to this, there are some persons who can see to a very
great distance, while there are others, again, who can only distinguish
objects when brought quite close to them. The vision of many stands in
need of the rays of the sun; such persons cannot see on a cloudy day,
nor yet after the sun has set. Others, again, have bad sight in the
day-time, but a sight superior to that of others by night. Of persons
having double pupils, or the evil eye, we have already spoken[196] at
sufficient length. Blue[197] eyes are the best for seeing in the dark.

It is said that Tiberius Cæsar, like no other human being, was so
endowed by Nature, that on awaking in the night[198] he could for
a few moments distinguish objects just as well as in the clearest
daylight, but that by degrees he would find his sight again enveloped
in darkness. The late Emperor Augustus had azure eyes like those of
some horses, the white being larger than with other men; he used to be
very angry if a person stared intently at them for this peculiarity.
Claudius Cæsar had at the corners of the eyes a white fleshy substance,
covered with veins, which would occasionally become suffused with
blood; with the Emperor Caius[199] they had a fixed, steady gaze,
while Nero could see nothing distinctly without winking, and having
it brought close to his eyes. The Emperor Caius had twenty pairs of
gladiators in his training-school, and of all these there were only
two who did not wink the eyes when a menacing gesture was made close
to them: hence it was that these men were invincible. So difficult a
matter is it for a man to keep his eyes from winking: indeed, to wink
is so natural to many, that they cannot desist from it; such persons we
generally look upon as the most timid.

No persons have the eye all of one colour; that of the middle of
the eye is always different from the white which surrounds it. In
all animals there is no part in the whole body that is a stronger
exponent of the feelings, and in man more especially, for it is
from the expression of the eye that we detect clemency, moderation,
compassion, hatred, love, sadness, and joy. From the eyes, too, the
various characters of persons are judged of, according as they are
ferocious, menacing, sparkling, sedate, leering, askance, downcast,
or languishing. Beyond a doubt it is in the eyes that the mind has its
abode: sometimes the look is ardent, sometimes fixed and steady, at
other times the eyes are humid, and at others, again, half closed. From
these it is that the tears of pity flow, and when we kiss them we seem
to be touching the very soul. It is the eyes that weep, and from them
proceed those streams that moisten our cheeks as they trickle down.
And what is this liquid that is always so ready and in such abundance
in our moments of grief, and where is it kept in reserve at other
times? It is by the aid of the mind that we see, by the aid of the
mind that we enjoy perception; while the eyes, like so many vessels,
as it were, receive its visual faculties and transmit them. Hence it
is that profound thought renders a man blind for the time, the powers
of sight being withdrawn from external objects and thrown inward: so,
too, in epilepsy, the mind is covered with darkness, while the eyes,
though open, are able to see nothing. In addition to this, it is the
fact that hares, as well as many human beings, can sleep with the eyes
open, a thing which the Greeks express by the term κορυβαντιᾷν. Nature
has composed the eye of numerous membranes of remarkable thinness,
covering them with a thick coat to ensure their protection against heat
and cold. This coat she purifies from time to time by the lachrymal
humours, and she has made the surface lubricous and slippery, to
protect the eye against the effects of a sudden shock.



CHAP. 55.—THE NATURE OF THE PUPIL—EYES WHICH DO NOT SHUT.


In the midst of the cornea of the eye Nature has formed a window in the
pupil, the small dimensions of which do not permit the sight to wander
at hazard and with uncertainty, but direct it as straight as though it
were through a tube, and at the same time ensure its avoidance of all
shocks communicated by foreign bodies. The pupils are surrounded by
a black circle in some persons, while it is of a yellowish cast with
others, and azure again with others. By this happy combination the
light is received by the eye upon the white that lies around the pupil,
and its reflection being thus tempered, it fails to impede or confuse
the sight by its harshness. So complete a mirror, too, does the eye
form, that the pupil, small as it is, is able to reflect the entire
image of a man. This[200] is the reason why most birds, when held in
the hand of a person, will more particularly peck at his eyes; for
seeing their own likeness reflected in the pupils, they are attracted
to it by what seem to be the objects of their natural affection.

It is only some few beasts of burden that are subject to maladies of
the eyes towards the increase of the moon: but it is man alone that is
rescued from blindness by the discharge of the humours[201] that have
caused it. Many persons have had their sight restored after being blind
for twenty years; while others, again, have been denied this blessing
from their very birth, without there being any blemish in the eyes.
Many persons, again, have suddenly lost their sight from no apparent
cause, and without any preceding injury. The most learned authors say
that there are veins which communicate from the eye to the brain, but
I am inclined to think that the communication is with the stomach; for
it is quite certain that a person never loses the eye without feeling
sickness at the stomach. It is an important and sacred duty, of high
sanction among the Romans, to close[202] the eyes of the dead, and then
again to open them when the body is laid on the funeral pile, the usage
having taken its rise in the notion of its being improper that the
eyes of the dead should be beheld by man, while it is an equally great
offence to hide them from the view of heaven. Man is the only living
creature the eyes of which are subject to deformities, from which, in
fact, arose the family names of “Strabo”[203] and “Pætus.”[204] The
ancients used to call a man who was born with only one eye, “cocles,”
and “ocella,” a person whose eyes were remarkably small. “Luscinus”
was the surname given to one who happened to have lost one eye by an
accident.

The eyes of animals that see at night in the dark, cats, for instance,
are shining and radiant, so much so, that it is impossible to look upon
them; those of the she-goat, too, and the wolf are resplendent, and
emit a light like fire. The eyes of the sea-calf and the hyæna change
successively to a thousand colours; and the eyes, when dried, of most
of the fishes will give out light in the dark, just in the same way as
the trunk of the oak when it has become rotten with extreme old age.
We have already mentioned[205] the fact, that animals which turn, not
the eyes but the head, for the purpose of looking round, are never
known to wink. It is said,[206] too, that the chameleon is able to
roll the eye-balls completely round. Crabs look sideways, and have the
eyes enclosed beneath a thin crust. Those of craw-fish and shrimps are
very hard and prominent, and lie in a great measure beneath a defence
of a similar nature. Those animals, however, the eyes of which are
hard, have worse sight than those of which the eyes are formed of a
humid substance. It is said that if the eyes are taken away from the
young of serpents and of the swallow,[207] they will grow again. In
all insects and in animals covered with a shell, the eyes move just
in the same way as the ears of quadrupeds do; those among them which
have a brittle[208] covering have the eyes hard. All animals of this
nature, as well as fishes and insects, are destitute of eye-lids, and
their eyes have no covering; but in all there is a membrane that is
transparent like glass, spread over them.



CHAP. 56.—THE HAIR OF THE EYE-LIDS; WHAT ANIMALS ARE WITHOUT THEM.
ANIMALS WHICH CAN SEE ON ONE SIDE ONLY.


Man has lashes on the eye-lids on either side; and women even make
it their daily care to stain them;[209] so ardent are they in the
pursuit of beauty, that they must even colour their very eyes. It was
with another view, however, that Nature had provided the hair of the
eyelids—they were to have acted, so to say, as a kind of rampart for
the protection of the sight, and as an advanced bulwark against the
approach of insects or other objects which might accidentally come
in their way. It is not without some reason that it is said that the
eyelashes[210] fall off with those persons who are too much given to
venereal pleasures. Of the other animals, the only ones that have
eyelashes are those that have hair on the rest of the body as well;
but the quadrupeds have them on the upper eyelid only, and the birds
on the lower one: the same is the case also with those which have a
soft skin, such as the serpent, and those among the quadrupeds that are
oviparous, the lizard, for instance. The ostrich is the only one among
the birds that, like man, has eyelashes on either side.



CHAP. 57.—ANIMALS WHICH HAVE NO EYELIDS.


All birds, however, have not eyelids: hence it is, that those which are
viviparous have no nictation of the eye. The heavier kinds of birds
shut the eye by means of the lower eyelid, and they wink by drawing
forward a membrane which lies in the corner of the eye. Pigeons,
and other birds of a similar nature, shut the two eyelids; but the
quadrupeds which are oviparous, such, for instance, as the tortoise
and the crocodile, have only the lower eyelid moveable, and never
wink, in consequence of the hardness of the eye. The edge of the upper
eyelid was by the ancients called “cilium,” from which comes our word
“supercilia.[211]” If the eyelid happens to be severed by a wound it
will not reunite,[212] which is the case also with some few other parts
of the human body.



CHAP. 58.—THE CHEEKS.


Below the eyes are the cheeks, a feature which is found in man only.
From the ancients they received the name of “genæ,” and by the laws of
the Twelve Tables, women were forbidden to tear them.[213] The cheeks
are the seat of bashfulness; it is on them more particularly that
blushes are to be seen.



CHAP. 59.—THE NOSTRILS.


Within the cheeks is the mouth, which gives such strong indications
of the feelings of joyousness and laughter; and above it, but in man
only, is the nose, which modern notions have stamped as the exponent
of sarcasm and ridicule.[214] In no other animal but man, is the nose
thus prominent; birds, serpents, and fishes, have no nostrils, but
apertures only for the purpose of smell. It is from the peculiarity of
the nose that are derived the surnames of “Simus”[215] and “Silo.”
Children born in the seventh month often have the ears and the nostrils
imperforate.



CHAP. 60.—THE MOUTH; THE LIPS; THE CHIN; AND THE JAW-BONE.


It is from the “labia,” or lips, that the Brocchi[216] have received
the surname of Labeo. All animals that are viviparous have a mouth that
is either well-formed, or harshly defined, as the case may be. Instead
of lips and mouth, the birds have a beak that is horny and sharp at the
end. With birds that live by rapine, the beak is hooked inwards, but
with those which gather and peck only, it is straight: those animals,
again, which root up grass or puddle in the mud, have the muzzle broad,
like swine. The beasts of burden employ the mouth in place of hands in
gathering their food, while those which live by rapine and slaughter
have it wider than the rest. No animal, with the exception of man, has
either chin or cheek-bones. The crocodile is the only animal that has
the upper jaw-bone[217] moveable; among the land quadrupeds it is the
same as with other animals, except that they can move it obliquely.



CHAP. 61.—THE TEETH; THE VARIOUS KINDS OF TEETH; IN WHAT ANIMALS THEY
ARE NOT ON BOTH SIDES OF THE MOUTH: ANIMALS WHICH HAVE HOLLOW TEETH.


Teeth are arranged in three different ways, serrated, in one continuous
row, or else protruding from the mouth. When serrated they unite
together, just like those of a comb, in order that they may not be worn
by rubbing against one another, as in serpents, fishes, and dogs,[218]
for instance. In some creatures they are set in one continuous row,
man and the horse, for instance; while in the wild boar, the elephant,
and the hippopotamus, they protrude from the mouth.[219] Among those
set in one continuous row, the teeth which divide the food are broad
and sharp, while those which grind it are double; the teeth which lie
between the incisive and the molar teeth, are those known as the canine
or dog-teeth; these are by far the largest in those animals which have
serrated teeth. Those animals which have continuous rows of teeth,
have them either situate on both sides of the mouth, as in the horse,
or else have no fore-teeth in the upper part of the mouth, as is the
case with oxen, sheep, and all the animals that ruminate. The she-goat
has no upper teeth, except the two front ones. No animals which have
serrated teeth, have them protruding[220] from the mouth; among these,
too, the females rarely have them; and to those that do have them, they
are of no[221] use: hence it is, that while the boar strikes, the sow
bites. No animal with horns has projecting teeth; and all such teeth
are hollow, while in other animals the teeth are solid. All[222] fish
have the teeth serrated, with the exception of the scarus,[223] this
being the only one among the aquatic animals that has them level[224]
at the edges. In addition to this, there are many fishes that have
teeth upon the tongue and over the whole of the mouth, in order that,
by the multitude of the bites which they inflict, they may soften those
articles of food which they could not possibly manage by tearing. Many
animals, also, have teeth in the palate, and even in the tail;[225]
in addition to which, some have them inclining to the interior of the
mouth, that the food may not fall out, the animal itself having no
other means of retaining it there.



CHAP. 62.—THE TEETH OF SERPENTS; THEIR POISON. A BIRD WHICH HAS TEETH.


The asp also, and other serpents, have similar teeth; but in the
upper jaw, on the right and left, they have two of extreme length,
which are perforated with a small tube in the interior, just like
the sting of the scorpion, and it is through these that they eject
their venom. The writers who have made the most diligent enquiries
on the subject, inform us that this venom is nothing but the gall of
the serpent, and that it is conveyed to the mouth by certain veins
which run beneath the spine; indeed, there are some who state that
there is only one poison-fang, and that being barbed at the end, it is
bent backwards when the animal has inflicted a bite. Other writers,
however, affirm that on such an occasion the fang falls out, as it is
very easily displaced, but that it soon grows[226] again; this tooth,
they say, is thus wanting in the serpents which we see handled about by
persons.[227] It is also stated that this fang exists in the tail of
the scorpion, and that most of these animals have no less than three.
The teeth of the viper are concealed in the gums: the animal, being
provided with a similar venom, exercises the pressure of its fangs for
the purpose of instilling the poison in its bite.

No winged creatures have teeth, with the sole exception of the bat.
The camel is the only one among the animals without horns, that has
no fore-teeth[228] in the upper jaw. None of the horned animals have
serrated[229] teeth. Snails, too, have teeth; a proof of which are
the vetches which we find gnawed away by snails of the very smallest
size. To assert that among marine animals, those that have shells, and
those that are cartilaginous have fore-teeth, and that the sea-urchin
has five teeth, I am very much surprised how such a notion could have
possibly[230] arisen. With insects the sting supplies the place of
teeth; the ape has teeth just like those in man.[231] The elephant
has in the interior of the mouth fourteen teeth, adapted for chewing,
in addition to those which protrude; in the male these are curved
inwards, but in the female they are straight, and project outwards.
The sea-mouse,[232] a fish which goes before the balæna, has no teeth
at all, but in place of them, the interior of the mouth is lined with
bristles, as well as the tongue and palate. Among the smaller land
quadrupeds, the two fore-teeth in each jaw are the longest.



CHAP. 63.—WONDERFUL CIRCUMSTANCES CONNECTED WITH THE TEETH.


The other animals are born with[233] teeth, whereas man has them only
at the seventh[234] month after his birth. While other[235] animals
keep their teeth to the time of their death, man, the lion, the beasts
of burden, the dog, and the ruminating animals, all change them; the
lion and the dog, however, change none[236] but the canine teeth. The
canine tooth of the wolf, on the right side, is held in high esteem
as an amulet.[237] There is no animal that changes the maxillary
teeth, which stand beyond the canine teeth. With man, the last teeth,
which are known as the “genuini,” or cheek teeth,[238] come about the
twentieth year, and with many men, and females as well, so late even as
the eightieth; but this only in the case of those who have not had them
in their youth. It is a well-known fact, that the teeth are sometimes
shed in old age, and replaced by others. Mucianus has stated that he,
himself, saw one Zocles, a native of Samothrace, who had a new set of
teeth when he was past his one hundred and fourth year. In addition
to these facts, in man males have more teeth than females,[239] which
is the case also in sheep, goats, and swine. Timarchus, the son of
Nicocles the Paphian, had a double[240] row of teeth in his jaws: the
same person had a brother also who never changed his front teeth, and,
consequently, wore them to the very stumps. There is an instance,
also, of a man having a tooth growing in the palate.[241] The canine
teeth,[242] when lost by any accident, are never known to come again.
While in all other animals the teeth grow of a tawny colour with old
age, with the horse, and him only, they become whiter the older he
grows.



CHAP. 64.—HOW AN ESTIMATE IS FORMED OF THE AGE OF ANIMALS FROM THEIR
TEETH.


The age, in beasts of burden,[243] is indicated by the teeth. In
the horse they are forty in number. At thirty months it loses the
two fore-teeth in either jaw, and in the following year the same
number next to them, at the time that the eye-teeth[244] come. At
the beginning of the fifth year the animal loses two teeth, which
grow again in the sixth, and in the seventh it has all its teeth,
those which have replaced the others, and those which have never been
changed. If a horse is gelded[245] before it changes its teeth, it
never sheds them. In a similar manner, also, the ass loses four of
its teeth in the thirtieth month, and the others from six months to
six months. If a she-ass happens not to have foaled before the last
of these teeth are shed, it is sure to be barren.[246] Oxen change
their teeth at two years old: with swine they are never changed.[247]
When these several indications of age have been lost in horses and
other beasts of burden, the age is ascertained by the projecting of
the teeth, the greyness of the hair in the eyebrows, and the hollow
pits that form around them; at this period the animal is supposed
to be about sixteen[248] years old. In the human teeth there is a
certain venom; for if they are placed uncovered before a mirror, they
will tarnish its brightness, and they will kill young pigeons while
yet unfledged. The other particulars relative to the teeth have been
already[249] mentioned under the head of the generation of man. When
teething first commences, the bodies of infants are subject to certain
maladies. Those animals which have serrated teeth inflict the most
dangerous bites.[250]



CHAP. 65.—THE TONGUE; ANIMALS WHICH HAVE NO TONGUE. THE NOISE MADE BY
FROGS. THE PALATE.


The tongue is not similarly formed in all animals. Serpents have a
very thin tongue, and three-forked,[251] which they vibrate to and
fro: it is of a black colour, and when drawn from out of the mouth,
of extraordinary length. The tongue of the lizard is two-forked, and
covered with hair.[252] That of the sea-calf also is twofold,[253] but
with the serpents it is of the thinness of a hair; the other animals
employ it to lick the parts around the mouth. Fishes have nearly the
whole of the tongue adhering to the palate, while in the crocodile
the whole of it does adhere thereto: but in the aquatic animals the
palate, which is fleshy, performs the duty of the tongue as the organ
of taste. In lions, pards, and all the animals of that class, and in
cats as well, the tongue is covered with asperities,[254] which overlap
each other, and bear a strong resemblance to a rasp. Such being its
formation, if the animal licks a man’s skin, it will wear it away by
making it thinner and thinner; for which reason it is that the saliva
of even a perfectly tame animal, being thus introduced to the close
vicinity of the blood, is apt to bring on madness. Of the tongue of the
purple we have made mention[255] already. With the frog the end of the
tongue adheres to the mouth, while the inner part is disjoined from
the sides of the gullet; and it is by this means that the males give
utterance to their croaking, at the season at which they are known as
ololygones.[256] This happens at stated periods of the year, at which
the males invite the females for the purposes of propagation: letting
down the lower lip to the surface of the water, they receive a small
portion of it in the mouth, and then, by quavering with the tongue,
make a gurgling noise, from which the croaking is produced which we
hear. In making this noise, the folds of the mouth, becoming distended,
are quite transparent, and the eyes start from the head and burn again
with the effort. Those insects which have a sting in the lower part
of the body, have teeth, and a tongue as well; with bees it is of
considerable length, and in the grasshopper it is very prominent. Those
insects which have a fistulous sting in the mouth, have neither tongue
nor teeth; while others, again, have a tongue in the interior of the
mouth, the ant, for instance. In the elephant the tongue is remarkably
broad; and while with all other animals, each according to its kind, it
is always perfectly at liberty, with man, and him alone, it is often
found so strongly tied down by certain veins, that it becomes necessary
to cut them. We find it stated that the pontiff Metellus had a tongue
so ill adapted for articulation, that he is generally supposed to have
voluntarily submitted to torture for many months, while preparing to
pronounce the speech which he was about to make on the dedication
of the temple of Opifera.[257] In most persons the tongue is able
to articulate with distinctness at about the seventh year; and many
know how to employ it with such remarkable skill, as to be able to
imitate the voices of various birds and other animals with the greatest
exactness. The other animals have the sense of taste centred in the
fore-part of the tongue; but in man it is situate in the palate as well.



CHAP. 66.—THE TONSILS; THE UVA; THE EPIGLOSSIS; THE ARTERY; THE GULLET.


In man there are tonsils at the root of the tongue; these in swine are
called the glandules. The uvula,[258] which is suspended between them
at the extremity of the palate, is found only in man. Beneath this
lies a smaller tongue, known by the name of “epiglossis,”[259] but it
is wanting in animals that are oviparous. Placed as it is between two
passages, the functions of the epiglottis are of a twofold nature. The
one of these passages that lies more inward is called the [tracheal]
artery, and leads to the lungs and the heart: the epiglottis covers
it during the action of eating, that the drink or food may not go the
wrong way, and so be productive of suffering, as it is by this passage
that the breath and the voice are conveyed. The other or exterior
passage is called the “gula,”[260] and it is by this passage that the
victuals and drink pass: this leads to the belly, while the former one
communicates with the chest.[261] The epiglottis covers the pharynx, in
its turn, when only the breath or the voice is passing, in order that
the victuals may not inopportunely pass upwards, and so disturb the
breathing or articulation. The tracheal artery is composed of cartilage
and flesh, while the gullet is formed of a sinewy substance united with
flesh.



CHAP. 67.—THE NECK; THE THROAT; THE DORSAL SPINE.


The neck is found to exist in no animal but those which have both these
passages. All the others which have the gullet only, have nothing but
a gorge or throat. In those which have a neck, it is formed of several
rounded vertebræ, and is flexible, and joined together by distinct
articulations, to allow of the animal turning round the head to look.
The lion, the wolf, and the hyæna are the only animals in which it
is formed of a single[262] rigid bone. The neck is annexed to the
spine, and the spine to the loins. The vertebral column is of a bony
substance, but rounded, and pierced within, to afford a passage for
the marrow to descend from the brain. It is generally concluded that
the marrow is of the same nature as the brain, from the fact that if
the membrane of exceeding thinness which covers it is pierced, death
immediately ensues.[263] Those animals which have long legs have a long
throat as well, which is the case also with aquatic birds, although
they have short legs, as well as with those which have hooked talons.



CHAP. 68.—THE THROAT; THE GULLET; THE STOMACH.


Man only, and the swine, are subject to swellings in the throat, which
are mostly caused by the noxious quality of the water[264] which they
drink. The upper part of the gullet is called the fauces, the lower
the stomach.[265] By this name is understood a fleshy concavity,
situate behind the tracheal artery, and joining the vertebral column;
it extends in length and breadth like a sort of chasm.[266] Those
animals which have no gullet have no stomach either, nor yet any neck
or throat, fishes, for example; and in all these the mouth communicates
immediately with the belly. The sea-tortoise[267] has neither tongue
nor teeth; it can break anything, however, with the sharp edge of
its muzzle. After the tracheal artery there is the œsophagus, which
is indented with hard asperities resembling bramble-thorns, for the
purpose of levigating the food, the incisions[268] gradually becoming
smaller as they approach the belly. The roughness at the very extremity
of this organ strongly resembles that of a blacksmith’s file.



CHAP. 69.—THE HEART; THE BLOOD; THE VITAL SPIRIT.


In all other animals but man the heart is situate in the middle of the
breast; in man alone it is placed just below the pap on the left-hand
side, the smaller end terminating in a point, and bearing outward. It
is among the fish only that this point is turned towards the mouth.
It is asserted that the heart is the first among the viscera that is
formed in the fœtus, then the brain, and last of all, the eyes: it is
said, too, that the eyes are the first organs that die, and the heart
the very last of all. The heart also is the principal seat of the heat
of the body; it is constantly palpitating, and moves as though it were
one animal enclosed within another. It is also enveloped in a membrane
equally supple and strong, and is protected by the bulwarks formed by
the ribs and the bone of the breast, as being the primary source and
origin of life. It contains within itself the primary receptacles for
the spirit and the blood, in its sinuous cavity, which in the larger
animals is threefold,[269] and in all twofold at least: here it is that
the mind[270] has its abode. From this source proceed two large veins,
which branch into the fore-part and the back of the body, and which,
spreading out in a series of branches, convey the vital blood by other
smaller veins over all parts of the body. This is the only one[271]
among the viscera that is not affected by maladies, nor is it subject
to the ordinary penalties of human life; but when injured, it produces
instant death. While all the other viscera are injured, vitality may
still remain in the heart.



CHAP. 70.—THOSE ANIMALS WHICH HAVE THE LARGEST HEART, AND THOSE WHICH
HAVE THE SMALLEST. WHAT ANIMALS HAVE TWO HEARTS.


Those animals are looked upon as stupid and lumpish which have a hard,
rigid heart, while those in which it is small are courageous, and
those are timid which have it very large. The heart is the largest, in
proportion to the body, in the mouse, the hare, the ass, the stag, the
panther, the weasel, the hyæna, and all the animals, in fact, which
are timid, or dangerous only from the effects of fear. In Paphlagonia
the partridge has a double heart. In the heart of the horse and the ox
there are bones sometimes found. It is said that the heart increases
every year in man, and that two drachmæ in weight are added[272] yearly
up to the fiftieth year, after which period it decreases yearly in a
similar ratio; and that it is for this reason that men do not live
beyond their hundredth year, the heart then failing them: this is the
notion entertained by the Egyptians, whose custom it is to embalm the
bodies of the dead, and so preserve them. It is said that men have
been born with the heart covered with hair, and that such persons
are excelled by none in valour and energy; such, for instance, as
Aristomenes,[273] the Messenian, who slew three hundred Lacedæmonians.
Being covered with wounds, and taken prisoner, he, on one occasion,
made his escape by a narrow hole which he discovered[274] in the stone
quarry where he was imprisoned, while in pursuit of a fox which had
found that mode of exit. Being again taken prisoner, while his guards
were fast asleep he rolled himself towards a fire close by, and, at
the expense of his body, burnt off the cords by which he was bound. On
being taken a third time, the Lacedæmonians opened his breast while he
was still alive, and his heart was found covered with hair.



CHAP. 71.—WHEN THE CUSTOM WAS FIRST ADOPTED OF EXAMINING THE HEART IN
THE INSPECTION OF THE ENTRAILS.


On an examination of the entrails, to find a certain fatty part on
the top of the heart, is looked upon as a fortunate presage. Still,
however the heart has not always been considered as forming a part of
the entrails for this purpose. It was under Lucius Postumius Albinus,
the King of the Sacrifices,[275] and after the 126th Olympiad, when
King Pyrrhus had quitted Italy, that the aruspices began to examine
the heart, as part of the consecrated entrails. The first day that
the Dictator Cæsar appeared in public, clothed in purple, and sitting
on a seat of gold, the heart was twice found wanting[276] when he
sacrificed. From this circumstance has risen a great question among
those who discuss matters connected with divination—whether it was
possible for the victim to have lived without that organ, or whether
it had lost it at the very moment[277] of its death. It is asserted
that the heart cannot be burnt of those persons who die of the
cardiac disease; and the same is said of those who die by poison.
At all events, there is still in existence an oration pronounced by
Vitellius,[278] in which he accuses Piso of this crime, and employs
this alleged fact as one of his proofs, openly asserting that the
heart of Germanicus Cæsar could not be burnt at the funeral pile,
in consequence of his having been poisoned. On the other hand, the
peculiar nature[279] of the disease under which Germanicus was
labouring, was alleged in Piso’s defence.



CHAP. 72.—THE LUNGS: IN WHAT ANIMALS THEY ARE THE LARGEST, AND IN WHAT
THE SMALLEST. ANIMALS WHICH HAVE NOTHING BUT LUNGS IN THE INTERIOR OF
THE BODY. CAUSES WHICH PRODUCE EXTRAORDINARY SWIFTNESS IN ANIMALS.


Beneath the heart are the lungs, the laboratory in which the
respiration is prepared. The use of these, is to draw in the air and
then expel it; for which purpose their substance is of a spongy nature,
and filled with cavernous holes. Some few among the aquatic animals
have lungs, as we have already stated;[280] and among the rest of
those which are oviparous, they are small, of a fungous nature, and
containing no blood; hence it is, that these animals do not experience
thirst. It is for the same reason also, that frogs and seals are able
to remain so long under water. The tortoise, too, although it has
lungs of remarkable size, and extending throughout the whole of the
shell, is also equally destitute of blood. The smaller the lungs are in
proportion to the body, the greater is the swiftness of the animal. It
is in the chameleon that the lungs are the largest in proportion to the
body; in which, in fact, it has no other viscera at all.[281]



CHAP. 73.—THE LIVER: IN WHAT ANIMALS, AND IN WHAT PART THERE ARE TWO
LIVERS FOUND.


The liver is on the right side: in this part is situate what has been
called the “head of the entrails,” and it is subject to considerable
variations. No liver[282] at all was found in a victim which was
sacrificed by M. Marcellus, about the period when he was killed in
battle against Hannibal; while in a victim which was slain on the
following day, a double liver was found. It was wanting, also, in a
victim sacrificed by C. Marius, at Utica, and in one which was offered
by the Emperor Caius[283] upon the calends of January,[284] on the
occasion of his entering the year of the consulship in which he was
slain: the same thing happened, also, to his successor, Claudius,
in the month in which he was cut off[285] by poison. When the late
Emperor Augustus was sacrificing at Spoletum, upon the first day of his
entering on the imperial dignity, in six different victims the liver
was found rolled over within itself, from the very lowest lobe; and the
answer that was given by the diviners was to the effect that, in the
course of the year, he would gain a twofold sway. It is of evil omen to
find an incision in the head of the entrails, except on occasions of
disquietude and alarm; for then it is significant of cutting all cares,
and so putting an end to them. The hares that are found in the vicinity
of Briletum[286] and Tharne, and in the Chersonnesus on the Propontis,
have a double liver; but, what is very singular, if they are removed to
another place, they will lose one of them.



CHAP. 74.—THE GALL; WHERE SITUATE, AND IN WHAT ANIMALS IT IS DOUBLE.
ANIMALS WHICH HAVE NO GALL, AND OTHERS IN WHICH IT IS NOT SITUATE IN
THE LIVER.


In the liver is the gall, which, however, does not exist in every
animal. At Chalcis, in Eubœa, none of the cattle have it, while in the
cattle of the Isle of Naxos, it is of extraordinary size, and double,
so that to a stranger either of these facts would appear as good as a
prodigy. The horse, the mule, the ass, the stag, the roe-buck, the wild
boar, the camel, and the dolphin have no gall, but some kinds of rats
and mice have it. Some few men are without it, and such persons enjoy
robust health and a long life. There are some authors who say that the
gall exists in the horse, not in the liver, but in the paunch, and that
in the stag it is situate either in the tail or the intestines; and
that hence it is, that those parts are so bitter that dogs will not
touch them. The gall, in fact, is nothing else but the worst parts of
the blood purged off, and for this reason it is that it is so bitter:
at all events, it is a well-known fact, that no animal has a liver
unless it has blood as well. The liver receives the blood from the
heart, to which it is united, and then disperses it in the veins.



CHAP. 75.—THE PROPERTIES OF THE GALL.


When the gall is black, it is productive of madness in man, and if it
is wholly expelled death will ensue. Hence it is, too, that the word
“bile” has been employed by us to characterize a harsh, embittered
disposition; so powerful are the effects of this secretion, when it
extends its influence to the mind. In addition to this, when it is
dispersed over the whole of the body, it deprives the eyes, even, of
their natural colour; and when ejected, will tarnish copper vessels
even, rendering everything black with which it comes in contact;
so that no one ought to be surprised that it is the gall which
constitutes the venom of serpents. Those animals of Pontus which feed
on wormwood have no gall: in the raven, the quail, and the pheasant,
the gall-bladder is united to the renal parts, and, on one side only,
to the intestines. In many animals, again, it is united only to the
intestines, the pigeon, the hawk, and the murena, for example. In some
few birds it is situate in the liver; but it is in serpents and fishes
that it is the largest in proportion. With the greater part of birds,
it extends all along throughout the intestines, as in the hawk and the
kite. In some other birds, also, it is situate in the breast as well:
the gall, too, of the sea-calf is celebrated for its application to
many purposes. From the gall of the bull a colour is extracted like
that of gold. The aruspices have consecrated the gall to Neptune and
the influence of water. The Emperor Augustus found a double gall in a
victim which he was sacrificing on the day of his victory at Actium.



CHAP. 76.—IN WHAT ANIMALS THE LIVER INCREASES AND DECREASES WITH THE
MOON. OBSERVATIONS OF THE ARUSPICES RELATIVE THERETO, AND REMARKABLE
PRODIGIES.


It is said, that in the small liver of the mouse the number of lobes
corresponds to the day of the moon, and that they are found to be just
as many in number as she is days old; in addition to which, it is said
that it increases at the winter solstice. In the rabbits of Bætica, the
liver is always found to have a double lobe. Ants will not touch one
lobe of the liver of the bramble-frog, in consequence of its poisonous
nature, it is generally thought. The liver is remarkable for its powers
of preservation, and sieges have afforded us remarkable instances of
its being kept so long as a hundred years.[287]



CHAP. 77.—THE DIAPHRAGM. THE NATURE OF LAUGHTER.


The entrails of serpents and lizards are of remarkable length. It is
related that—a most fortunate omen—Cæcina of Volaterræ beheld two
dragons arising from the entrails of the victim; and this will not be
at all incredible, if we are ready to believe that while King Pyrrhus
was sacrificing, the day upon which he died, the heads of the victims,
on being cut off, crawled along the ground and licked up their own
blood. In man, the entrails are separated from the lower part of the
viscera by a certain membrane, which is called the “præcordia,”[288]
because it is extended in front of the heart; the Greeks have given it
the name of “phrenes.” All the principal viscera have been enclosed by
Nature, in her prudent foresight, in their own peculiar membranes, just
like so many sheaths, in fact. With reference to the diaphragm, there
was a peculiar reason for this wise provision of Nature, its proximity
to the guts, and the chances that the food might possibly intercept the
respiration. It is to this organ that is attributed quick and ready
wit, and hence it is that it has no fleshy parts, but is composed of
fine sinews and membranes. This part is also the chief seat of gaiety
of mind, a fact which is more particularly proved by the titillation
of the arm-holes, to which the midriff extends; indeed, in no part
of the body is the skin more fine; for this reason it is, also, that
we experience such peculiar pleasure in scratching the parts in its
vicinity. Hence it is, that in battles and gladiatorial combats, many
persons have been known to be pierced through the midriff, and to die
in the act of laughing.[289]



CHAP. 78.—THE BELLY: ANIMALS WHICH HAVE NO BELLY. WHICH ARE THE ONLY
ANIMALS THAT VOMIT.


In those animals which have a stomach, below the diaphragm the belly
is situate. In other animals it is single, but in those which ruminate
it is double; in those, again, which are destitute of blood, there is
no belly, for the intestinal canal commences in some of them at the
mouth, and returns to that part, as is the case with the sæpia and the
polypus. In man it is connected with the extremity of the stomach, and
the same with the dog. These are the only creatures that have the belly
more narrow at the lower part; hence it is, too, that they are the only
ones that vomit, for on the belly being filled, the narrowness at its
extremity precludes the food from passing; a thing that cannot possibly
be the case with the animals in which the belly is more capacious at
the extremity, and so leaves a free passage for the food to the lower
parts of the body.



CHAP. 79.—THE SMALL GUTS, THE FRONT INTESTINES, THE ANUS, THE COLON.
THE CAUSES OF THE INSATIATE VORACITY OF CERTAIN ANIMALS.


After the belly we find in man and the sheep the “lactes,”[290] the
place of which in other animals is occupied by the “hillæ:”[291] it
is through these organs that the food passes. We then find the larger
intestines, which communicate with the anus, and which in man consist
of extremely sinuous folds. Those animals which have the longest
intestinal canal, are the most voracious; and those which have the
belly the most loaded with fat, are the least intelligent. There are
some birds, also, which have two receptacles; the one of which is the
crop, in which they stow away the food which they have just swallowed,
while the other is the belly, into which they discharge the food when
it is duly prepared and digested; this is the case with the domestic
fowl, the ring-dove, the pigeon, and the partridge. The other birds
are in general destitute of crop, but then they have a more capacious
gorge, the jackdaw, the raven, and the crow, for instance: some, again,
are constituted in neither manner, but have the belly close to the
gorge, those, for instance, which have the neck very long and narrow,
such as the porphyrio.[292]

In the solid-hoofed animals the belly is rough and hard, while in some
land animals it is provided with rough asperities like teeth,[293]
and in others, again, it has a reticulated surface like that of a
file. Those animals which have not the teeth on both sides, and do
not ruminate, digest the food in the belly, from whence it descends
to the lower intestines. There is an organ in all animals attached
in the middle to the navel, and in man similar in its lower part to
that of the swine, the name given thereto by the Greeks being “colon,”
a part of the body which is subject to excruciating pains.[294] In
dogs this gut is extremely contracted, for which reason it is that
they are unable to ease it, except by great efforts, and not without
considerable suffering. Those animals with which the food passes at
once from the belly through the straight intestine, are of insatiate
appetite, as, for instance, the hind-wolf,[295] and among birds the
diver. The elephant has four[296] bellies; the rest of its intestines
are similar to those of the swine, and the lungs are four times as
large as those of the ox. The belly in birds is fleshy, and formed of
a callous substance. In that of young swallows there are found little
white or pink pebbles, known by the name of “chelidonii,” and said to
be employed in magical incantations. In the second belly of the heifer
there is a black tufa found, round like a ball,[297] and of no weight
to speak of: this, it is generally thought, is singularly efficacious
in laborious deliveries, if it happens not to have touched the ground.



CHAP. 80.—THE OMENTUM: THE SPLEEN; ANIMALS WHICH ARE WITHOUT IT.


The belly and the intestines are covered with a caul known as the
“omentum,” consisting of a fatty, thin membrane; except in the case of
those animals which are oviparous. To this membrane is attached the
spleen, which lies on the left side, and opposite the liver: sometimes,
indeed, it changes place with the liver, but such a case is looked upon
as nothing less than a prodigy. Some persons imagine that a spleen of
extremely diminutive size exists in the oviparous animals, as also in
serpents; at all events, it is to be detected in the tortoise, the
crocodile, the lizard, and the frog; though it is equally certain that
it does not exist in the bird known as the “ægocephalos,”[298] nor yet
in those animals which are destitute of blood. The spleen sometimes
offers a peculiar impediment in running, for which reason the region
of the spleen is cauterized[299] in runners who are troubled with
pains there. It is said also, that if the spleen is removed[300] by an
incision, animals may survive. There are some persons who think that
with the spleen man loses the power of laughing, and that excessive
laughter is caused by the overgrowth of it. There is a territory of
Asia, known as Scepsis,[301] in which it is said that the spleen of the
cattle is remarkably small, and that from thence it is that remedies
for diseases of the spleen have been introduced.



CHAP. 81.—THE KIDNEYS: ANIMALS WHICH HAVE FOUR KIDNEYS. ANIMALS WHICH
HAVE NONE.


About Briletum and Tharne[302] the stags have four kidneys: while, on
the other hand, those animals which have wings and scales have[303]
none. The kidneys adhere to the upper part of the loins. Among all
animals, the kidney on the right side is more elevated than the other,
less fat, and drier. In both kidneys there is a certain streak of
fat running from the middle, with the sole exception of those of the
sea-calf. It is above the kidneys, also, that animals are fattest,
and the accumulation of fat about them is often the cause of death in
sheep. Small stones are sometimes found in the kidneys. All quadrupeds
that are viviparous have kidneys, but of those which are oviparous
the tortoise is the only one that has them; an animal which has all
the other viscera, but, like man, has the kidneys composed, to all
appearance, of several kidneys, similar to those of the ox.



CHAP. 82.—THE BREAST: THE RIBS.


Nature has placed the breast, or, in other words, certain bones, around
the diaphragm and the organs of life, but not around the belly, for the
expansion of which it was necessary that room should be left. Indeed,
there is no animal that has any bones around the belly. Man is the only
creature that has a broad breast; in all others it is of a carinated
shape, in birds more particularly, and most of all, the aquatic birds.
The ribs of man are only eight in number; swine have ten, the horned
animals thirteen, and serpents thirty.



CHAP. 83.—THE BLADDER: ANIMALS WHICH HAVE NO BLADDER.


Below the paunch, on the anterior side, lies the bladder, which
is never found in any oviparous animal, with the exception of the
tortoise, nor yet in any animal that has not lungs with blood, or
in any one that is destitute of feet. Between it and the paunch are
certain arteries, which extend to the pubes, and are known as the
“ilia.” In the bladder of the wolf there is found a small stone, which
is called “syrites;” and in the bladders of some persons calculi are
sometimes found, which produce most excruciating pains; small hairs,
like bristles, are also occasionally found in the bladder. This organ
consists of a membrane, which, when once wounded, does not[304]
cicatrize, just like those in which the brain and the heart are
enveloped: there are many kinds of membranes, in fact.



CHAP. 84.—THE WOMB: THE WOMB OF THE SOW: THE TEATS.


Women have all the same organs, except that adjoining to the bladder
there is one like a small sac,[305] from which circumstance it is
called the “uterus.” Another name for this part is “loci;”[306] but in
other animals it is known by the name of “vulva.” With the viper and
other animals which generate their young within themselves, the womb
is double; while with those which are oviparous, it is attached to the
diaphragm. In woman it has two concavities, one on either side: when
the matrix becomes displaced, it is productive of fatal effects, by
causing suffocation.[307] It is asserted that the cow, when pregnant,
carries her young only in the right concavity of the womb, and that
this is the case even when she produces twins. The womb of the sow is
considered better eating if she has slipped her young, than if she
has duly brought forth: in the former case it is known by the name
of “ejectitia,” in the latter it is called “porcaria.” The womb of
a sow that has farrowed only once is the most esteemed, and that of
those which have ceased farrowing, the least. After farrowing, unless
the animal is killed the same day, the womb is of a livid colour, and
lean. This part, however, is not esteemed in a young sow, except just
after the first farrowing: indeed, it is much more highly valued in
an animal of a more mature age, so long as it is not past breeding,
or has been killed two days before farrowing, or two days after, or
upon the day on which it has miscarried. The next best after that of a
sow that has miscarried, is that of one that has been killed the day
after farrowing: indeed, the paps of this last, if the young have not
begun to suck, are excellent eating, while those of an animal that has
miscarried are very inferior. The ancients called this part by the name
of “abdomen,” before it grew hard, and were not in the habit of killing
swine while in a state of pregnancy.



CHAP. 85.—ANIMALS WHICH HAVE SUET: ANIMALS WHICH DO NOT GROW FAT.


Those among the horned animals which have teeth in one jaw only, and
pastern bones on the feet, produce tallow or suet. Those, on the other
hand, which are cloven-footed, or have the feet divided into toes, and
are without horns, have simple fat only. This fat becomes hard, and
when quite cold turns brittle, and is always found at the extremity of
the flesh; while, on the other hand, the fat which lies between the
skin and the flesh forms a kind of liquid juice. Some animals naturally
do not become fat, such as the hare and the partridge, for instance.
All fat animals, male as well as female, are mostly barren; and those
which are remarkably fat become old the soonest. All animals have a
certain degree of fatness in the eyes. The fat in all animals is devoid
of sensation, having neither arteries nor veins. With the greater part
of animals, fatness is productive of insensibility; so much so, indeed,
that it has been said, that living swine have been gnawed even by
mice.[308] It has been even asserted that the fat was drawn off from
the body of a son of L. Apronius, a man of consular rank, and that he
was thus relieved of a burden which precluded him from moving.



CHAP. 86.—THE MARROW: ANIMALS WHICH HAVE NO MARROW.


The marrow seems also to be formed of a similar material; in the young
it is of a reddish colour, but it is white in the aged. It is only
found in those bones which are hollow, and not in the tibiæ of horses
or dogs; for which reason it is, that when the tibia is broken, the
bone will not reunite, a process which is effected[309] by the flow of
the marrow. The marrow is of a greasy nature in those animals which
have fat, and suetty in those with horns. It is full of nerves, and is
found only in the vertebral column[310] in those animals which have no
bones, fishes, for instance. The bear has no marrow; and the lion has a
little only in some few bones of the thighs and the brachia, which are
of such extraordinary hardness that sparks may be emitted therefrom, as
though from a flint-stone.



CHAP. 87.—BONES AND FISH-BONES: ANIMALS WHICH HAVE NEITHER. CARTILAGES.


The bones are hard, also, in those animals[311] which do not grow fat;
those of the ass are used by musicians for making flutes. Dolphins have
bones, and not ordinary fish-bones; for they are viviparous. Serpents,
on the other hand, have bones like those of fish. Among aquatic
animals, the mollusks have no bones, but the body is surrounded with
circles of flesh, as in the sæpia and the cuttle-fish, for instance;
insects, also, are said to be equally destitute of bones. Among aquatic
animals, those which are cartilaginous have marrow in the vertebral
column; the sea-calf has cartilages, and no bones. The ears also,
and the nostrils in all animals, when remarkably prominent, are made
flexible by a remarkable provision of Nature, in order that they may
not be broken. When cartilage is once broken, it will not unite; nor
will bone, when cut, grow again, except in beasts of burden, between
the hoof and the pastern.

Man increases in height till his twenty-first year, after which he
fills out; but it is more particularly when he first arrives at the
age of puberty that he seems to have untied a sort of knot in his
existence, and this especially when he has been overtaken by illness.



CHAP. 88.—THE NERVE: ANIMALS WHICH HAVE NONE.


The nerves[312] take their rise at the heart, and even surround it
in the ox; they have the same nature and principle as the marrow. In
all animals they are fastened to the lubricous surface of the bones,
and so serve to fasten those knots in the body which are known as
articulations or joints, sometimes lying between them, sometimes
surrounding them, and sometimes running from one to another; in
one place they are long and round, and in another broad, according
as the necessity of each case may demand. When cut, they will not
reunite, and if wounded, it is wonderful what excruciating pain they
cause; though, if completely cut asunder, they are productive of none
whatever. Some animals are destitute of nerves, fish, for instance, the
bodies of which are united by arteries, though even these are not to be
found in the mollusks. Wherever there are nerves found, it is the inner
ones that contract the limb, and the outer ones that extend it.

Among the nerves lie concealed the arteries, which are so many passages
for the spirit; and upon these float the veins, as conduits for the
blood. The pulsation of the arteries is more especially perceptible
on the surface of the limbs, and afford indications of nearly every
disease, being either stationary, quickened, or retarded, conformably
to certain measures and metrical laws, which depend on the age of
the patient, and which have been described with remarkable skill by
Herophilus, who has been looked upon as a prophet in the wondrous art
of medicine. These indications, however, have been hitherto neglected,
in consequence of their remarkable subtilty and minuteness, though, at
the same time, it is by the observation of the pulse, as being fast or
slow, that the health of the body, as regulating life, is ascertained.



CHAP. 89.—THE ARTERIES; THE VEINS: ANIMALS WITHOUT ARTERIES OR VEINS.
THE BLOOD AND THE SWEAT.


The arteries are destitute of sensation, for they are devoid of blood.
They do not, all of them, however, contain the vital spirit, and when
one of them has been cut, it is only that part of the body that is
reduced to a torpid state. Birds have neither veins nor arteries, which
is the case also with serpents, tortoises, and lizards; and they have
but a very small proportion of blood. The veins, which are dispersed
beneath the whole skin in filaments of extreme thinness, terminate
with such remarkable fineness, that the blood is able to penetrate no
further, or, indeed, anything else, except an extremely subtle humour
which oozes forth from the skin in innumerable small drops, and is
known to us as “sweat.” The knot, and place of union of the veins, is
the navel.



CHAP. 90. (38.)—ANIMALS, THE BLOOD OF WHICH COAGULATES WITH THE
GREATEST RAPIDITY: OTHER ANIMALS, THE BLOOD OF WHICH DOES NOT
COAGULATE. ANIMALS WHICH HAVE THE THICKEST BLOOD: THOSE THE BLOOD OF
WHICH IS THE THINNEST: ANIMALS WHICH HAVE NO BLOOD.


Those animals in which the blood is more abundant and of an unctuous
nature, are irascible; it is darker in males than in females, and in
the young than in the aged: the blood of the lower extremities is the
thickest. There is great vitality, too, in the blood, and when it
is discharged from the body, it carries the life with it: it is not
sensible, however, of touch. Those animals in which the blood is the
thickest are the most courageous, and those in which it is the thinnest
the most intelligent; while those, again, which have little or no
blood are the most timorous of all. The blood of the bull coagulates
and hardens the most speedily of all, and hence it is so particularly
deadly[313] when drunk. On the other hand, the blood of the wild boar,
the stag, the roe-buck, and oxen of all kinds, does not coagulate.
Blood is of the richest quality in the ass, and the poorest in man.
Those animals which have more than four feet have no blood. In animals
which are very fat, the blood is less abundant than in others, being
soaked up by the fat. Man is the only creature from which the blood
flows at the nostrils; some persons bleed at one nostril only, some
at both, while others again void blood by the lower[314] parts. Many
persons discharge blood from the mouth at stated periods, such, for
instance, as Macrinus Viscus, lately, a man of prætorian dignity, and
Volusius Saturninus,[315] the Prefect of the City, who every year
did the same, and yet lived to beyond ninety. The blood is the only
substance in the body that is sensible of any temporary increase, for a
larger quantity will come from the victims if they happen to have drunk
just before they are sacrificed.



CHAP. 91.—ANIMALS WHICH ARE WITHOUT BLOOD AT CERTAIN PERIODS OF THE
YEAR.


Those animals which conceal themselves[316] at certain periods of
the year, as already mentioned, have no blood at those times, with
the exception, indeed, of some very small drops about the heart. A
marvellous dispensation of Nature! and very similar to that witnessed
in man, where the blood is sensible of various modifications from
the slightest causes; for not only, similarly to the bile, does it
rush upwards to the face, but it serves also to indicate the various
tendencies of the mind, by depicting shame, anger, and fear, in many
ways, either by the paleness of the features or their unusual redness;
as, in fact, the redness of anger and the blush of modesty are quite
different things. It is a well-known fact, that when a man is in
fear, the blood takes to flight and disappears, and that many persons
have been pierced through the body without losing one drop of blood;
a thing, however, which is only the case with man. But as to those
animals which we have already mentioned as changing[317] colour, they
derive that colour from the reflection[318] of other objects; while, on
the other hand, man is the only one that has the elements which cause
these changes centred in himself. All diseases, as well as death, tend
to absorb the blood.



CHAP. 92. (39.)—WHETHER THE BLOOD IS THE PRINCIPLE OF LIFE.


There are some persons who are of opinion that the fineness of the wit
does not depend upon the thinness of the blood, but that animals are
more or less stupid in proportion to the skin or other coverings of
the body, as the oyster and the tortoise, for instance: that the hide
of the ox and the bristles of the hog, in fact, offer a resistance to
the fine and penetrating powers of the air, and leave no passage for
its transmission in a pure and liquid state. The same, they say, is
the case, too, with men, when the skin is very thick or callous, and
so excludes the air. Just as if, indeed, the crocodile was not equally
remarkable for the hardness of its skin and its extreme cunning.



CHAP. 93.—THE HIDE OF ANIMALS.


The hide, too, of the hippopotamus is so thick, that lances,[319]
even, are turned from it, and yet this animal has the intelligence
to administer certain medicaments to itself. The hide, too, of the
elephant makes bucklers that are quite impenetrable, and yet to it is
ascribed a degree of intelligence superior to that of any quadruped.
The skin itself is entirely devoid of sensation, and more particularly
that of the head; wherever it is found alone, and unaccompanied with
flesh, if wounded, it will not unite, as in the cheek and on the
eyelid,[320] for instance.



CHAP. 94.—THE HAIR AND THE COVERING OF THE SKIN.


Those animals which are viviparous, have hair; those which are
oviparous, have feathers, scales, or a shell, like the tortoise; or
else a purple skin, like the serpent. The lower part of all feathers is
hollow; if cut, they will not grow again, but if pulled out, they will
shoot afresh. Insects fly by the aid of a frail membrane; the wings
of the fish[321] called the “swallow” are moistened in the sea, while
those of the bat which frequents our houses are dry; the wings of this
last animal have certain articulations as well. The hairs that issue
from a thick skin are rough, while those on females are of a finer
quality. Those found on the horse’s mane are more abundant, which is
the case also with the shoulders of the lion. The dasypus has hair in
the inside of the mouth even and under the feet, two features which
Trogus has also attributed to the hare; from which the same author
concludes that hairy men are the most prone to lust. The most hairy
of all animals is the hare. Man is the only creature that has hair as
the mark of puberty; and a person who is devoid of this, whether male
or female, is sure to be sterile. The hair of man is partly born with
him, and in part produced after his birth. The last kind of hair will
not grow upon eunuchs, though that which has been born with them does
not fall off; which is the case also with women, in a great degree.
Still however, there have been women known to be afflicted with falling
off of the hair, just as some are to be seen with a fine down on the
face, after the cessation of the menstrual discharge. In some men the
hair that mostly shoots forth after birth will not grow spontaneously.
The hair of quadrupeds comes off every year, and grows again. That
of the head in man grows the fastest, and next to it the hair of the
beard. When cut, the hairs shoot, not from the place where they have
been cut, as is the case with grass, but at the root. The hair grows
quickly in certain diseases, phthisis more particularly; it grows also
with rapidity in old age, and on the body after death. In persons of
a libidinous tendency the hair that is produced at birth falls off
more speedily, while that which is afterwards produced grows with the
greatest rapidity. In quadrupeds, the hair grows thicker in old age;
but on those with wool, it becomes thinner. Those quadrupeds which have
thick hair on the back, have the belly quite smooth. From the hides
of oxen, and that of the bull more especially, glue is extracted by
boiling.



CHAP. 95.—THE PAPS: BIRDS THAT HAVE PAPS. REMARKABLE FACTS CONNECTED
WITH THE DUGS OF ANIMALS.


Man is the only male among animals that has nipples, all the rest
having mere marks only in place of them. Among female animals even,
the only ones that have mammæ on the breast are those which can
nurture their young. No oviparous animal has mammæ, and those only
have milk that are viviparous; the bat being the only winged animal
that has it. As for the stories that they tell, about the screech-owl
ejecting milk from its teats upon the lips of infants, I look upon it
as utterly fabulous: from ancient times the name “strix,”[322] I am
aware, has been employed in maledictions, but I do not think it is well
ascertained what bird is really meant by that name.

(40.) The female ass is troubled with pains in the teats after it has
foaled, and it is for that reason that at the end of six months it
weans its young; while the mare suckles its young for nearly the whole
year. The solid-hoofed animals do not bear more than two young ones
at a time: they all of them have two paps, and nowhere but between
the hind legs. Animals with cloven feet and with horns, such as the
cow, for instance, have four paps, similarly situate, sheep and goats
two. Those which produce a more numerous progeny, and those which
have toes on the feet, have a greater number of paps distributed in
a double row all along the belly, such as the sow, for instance; the
better sorts have twelve, the more common ones two less: the same is
the case also with the female of the dog. Other animals, again, have
four paps situate in the middle of the belly, as the female panther;
others, again, two only, as the lioness. The female elephant has two
only, situate between the shoulders, and those not in the breast, but
without it, and hidden in the arm-pits: none of the animals which
have toes have the paps between the hind legs. The sow presents the
first teat to the first-born in each farrow, the first teat being the
one that is situate nearest to the throat. Each pig, too, knows its
own teat, according to the order in which it was born, and draws its
nourishment from that and no other: if its own suckling, too, should
happen to be withdrawn from any one of them, the pap will immediately
dry up, and shrink back within the belly: if there should be only one
pig left of all the farrow, that pap alone which has been assigned for
its nutriment when born, will continue to hang down for the purpose of
giving suck. The she-bear has four mammæ, the dolphin only two, at the
bottom of the belly; they are not easily visible, and have a somewhat
oblique direction: this is the only animal which gives suck while in
motion. The balæna and sea-calf also suckle their young by teats.



CHAP. 96. (41.)—THE MILK: THE BIESTINGS. CHEESE; OF WHAT MILK CHEESE
CANNOT BE MADE. RENNET; THE VARIOUS KINDS OF ALIMENT IN MILK.


The milk that is secreted in a woman before her seventh month is
useless; but after that month, so long as the fœtus is healthy, the
milk is wholesome: many women, indeed, are so full of milk, that
it will flow not only from the mammæ, but exudes at the arm-pits
even.[323] Camels continue in milk until they are pregnant again.
Their milk, mixed in the proportion of one part to three of water,
is considered a very pleasant beverage. The cow has no milk before
it has calved, and that which immediately follows upon its bringing
forth is known as the “colostra:”[324] if water is not mixed with it,
it will coagulate, and assume the hardness of pumice. She-asses,
as soon as they are pregnant, have milk in their udders; when the
pasturage is rich, it is fatal to their young to taste the mother’s
milk the first two days after birth; the kind of malady by which they
are attacked is known by the name of “colostration.” Cheese cannot be
made from the milk of animals which have teeth on either jaw, from the
circumstance that their milk does not coagulate. The thinnest milk
of all is that of the camel, and next to it that of the mare. The
milk of the she-ass is the richest of all, so much so, indeed, that
it is often used instead of rennet. Asses’ milk is also thought to
be very efficacious in whitening the skin of females: at all events,
Poppæa,[325] the wife of Domitius Nero, used always to have with her
five hundred asses with foal, and used to bathe the whole of her body
in their milk, thinking that it also conferred additional suppleness on
the skin. All milk thickens by the action of fire, and becomes serous
when exposed to cold. The milk of the cow produces more cheese than
that of the goat: when equal in quantity, it will produce nearly twice
the weight. The milk of animals which have more than four mammæ does
not produce cheese; and that is the best which is made of the milk of
those that have but two. The rennet of the fawn, the hare, and the kid
is the most esteemed, but the best of all is that of the dasypus: this
last acts as a specific for diarrhœa, that animal being the only one
with teeth in both jaws, the rennet of which has that property. It is
a remarkable circumstance, that the barbarous nations which subsist
on milk have been for so many ages either ignorant of the merits of
cheese, or else have totally disregarded it; and yet they understand
how to thicken milk and form therefrom an acrid kind of liquid with a
pleasant flavour, as well as a rich butter: this last is the foam[326]
of milk, and is of a thicker consistency than the part which is known
as the “serum.”[327] We ought not to omit that butter has certain of
the properties of oil, and that it is used for an ointment among all
barbarous nations, and among ourselves as well, for infants.



CHAP. 97. (42.)—VARIOUS KINDS OF CHEESE.


The kinds of cheese that are most esteemed at Rome, where the various
good things of all nations are to be judged of by comparison, are those
which come from the provinces of Nemausus,[328] and more especially the
villages there of Lesura and Gabalis;[329] but its excellence is only
very short-lived, and it must be eaten while it is fresh. The pastures
of the Alps recommend themselves by two sorts of cheese; the Dalmatic
Alps send us the Docleatian[330] cheese, and the Centronian[331] Alps
the Vatusican. The kinds produced in the Apennines are more numerous;
from Liguria we have the cheese of Ceba,[332] which is mostly made
from the milk of sheep; from Umbria we have that of Æsina, and from
the frontiers of Etruria and Liguria those of Luna, remarkable for
their vast size, a single cheese weighing as much as a thousand pounds.
Nearer the City, again, we have the cheese of Vestinum, the best of
this kind being that which comes from the territory of Ceditium.[333]
Goats also produce a cheese which has been of late held in the highest
esteem, its flavour being heightened by smoking it. The cheese of this
kind which is made at Rome is considered preferable to any other; for
that which is made in Gaul has a strong taste, like that of medicine.
Of the cheeses that are made beyond sea, that of Bithynia[334] is
usually considered the first in quality. That salt exists in pasture
lands is pretty evident, from the fact that all cheese as it grows
old contracts a saltish flavour, even where it does not appear to any
great extent;[335] while at the same time it is equally well known
that cheese soaked in a mixture of thyme and vinegar will regain its
original fresh flavour. It is said that Zoroaster lived thirty years in
the wilderness upon cheese, prepared in such a peculiar manner, that he
was insensible to the advances of old age.



CHAP. 98. (43.)—DIFFERENCES OF THE MEMBERS OF MAN FROM THOSE OF OTHER
ANIMALS.


Of all the terrestrial animals, man is the only biped: he is also the
only one that has a throat, and shoulders, or “humeri,” parts in other
animals known by the name of “armi.” Man, too, is the only animal that
has the “ulna,” or elbow. Those animals which are provided with hands,
have flesh only on the interior of them, the outer part consisting of
sinews and skin.



CHAP. 99.—THE FINGERS, THE ARMS.


Some persons have six fingers on the hands. We read that C. Horatius,
a man of patrician rank, had two daughters, who for this reason
had the name of “Sedigitæ;” and we find mention made of Volcatius
Sedigitus,[336] as a famous poet. The fingers of man have three
joints, the thumb only two, it bending in an opposite direction to
all the other fingers. Viewed by itself, the movement of the thumb
has a sidelong direction, and it is much thicker than the rest of the
fingers. The little finger is equal in length to the thumb, and two
others are also equal in length, the middle finger being the longest of
all. Those quadrupeds which live by rapine have five toes on the fore
feet, and four on the hinder ones. The lion, the wolf, and the dog,
with some few others, have five claws on the hind feet, one of which
hangs down near the joint of the leg. The other animals, also, which
are of smaller size, have five toes. The two arms are not always equal
in length: it is a well-known fact, that, in the school of gladiators
belonging to Caius Cæsar,[337] the Thracian Studiosus had the right arm
longer than the left. Some animals also use their fore-paws to perform
the duties of hands, and employ them in conveying food to the mouth as
they sit, the squirrel, for instance.



CHAP. 100. (44.)—RESEMBLANCE OF THE APE TO MAN.


As to the various kinds of apes, they offer a perfect resemblance to
man in the face, the nostrils, the ears, and the eyelids; being the
only quadrupeds, in fact, that have eyelashes on the lower eyelid. They
have mammæ also on the breast, arms and legs, which bend in opposite
directions, and nails upon the hands and fingers, the middle finger
being the longest. They differ somewhat from man in the feet; which,
like the hands, are of remarkable length, and have a print similar to
that of the palm of our hand. They have a thumb also, and articulations
similar to those in man. The males differ from man in the sexual parts
only, while all the internal viscera exactly resemble those of man.



CHAP. 101. (45.)—THE NAILS.


It is generally supposed that the nails are the terminations of the
sinews. All animals which have fingers have nails as well. In the ape
they are long and overlapping,[338] like a tile, while in man they are
broad: they will grow even after death. In the beasts of prey they
are hooked, while in others, such as the dog, for instance, they are
straight, with the exception, indeed, of the one which is attached
to the leg in most of them. All the animals which have feet [and not
hoofs], have toes as well, except the elephant; he, also, would appear
to have toes, five in number, but rudely developed, undivided, and
hardly distinct from one another, bearing a nearer resemblance, in
fact, to hoofs than to claws. In the elephant the fore-feet are the
largest, and in the hind-feet there are short joints. This animal is
able, also, to bend the hams inward like a man, while in all the others
the joints of the hinder legs bend in a contrary direction to those of
the fore ones. Those animals which are viviparous bend the fore-leg
forward, while the joint of the hind-leg is directed backward.



CHAP. 102.—THE KNEES AND THE HAMS.


In man the knee and the elbow bend contrary ways; the same is the case,
too, with the bear and the ape, and it is for this reason that they
are not so swift of foot as other animals. Those quadrupeds which are
oviparous, such as the crocodile and the lizard, bend the knee of the
fore-leg backwards, and that of the hind-leg forwards; their thighs
are placed on them obliquely, in a similar manner to a man’s thumb;
which is the case also with the multipede insects, the hind-legs only
excepted of such as leap. Birds, like quadrupeds, have the joints of
the wings bending forwards, but those of the legs backwards.



CHAP. 103.—PARTS OF THE HUMAN BODY TO WHICH CERTAIN RELIGIOUS IDEAS ARE
ATTACHED.


In accordance with the usages of various nations, certain religious
ideas have been attached to the knees. It is the knees that suppliants
clasp, and it is to these that they extend their hands; it is the knees
that they worship like so many altars, as it were; perhaps, because in
them is centred the vital strength. For in the joint of either knee,
the right as well as the left, there is on the fore-side of each a
certain empty space, which bears a strong resemblance to a mouth, and
through which, like the throat, if it is once pierced, the vital powers
escape.[339] There are also certain religious ideas attached to other
parts of the body, as is testified in raising the back of the right
hand to the lips, and extending it as a token of good faith. It was
the custom of the ancient Greeks, when in the act of supplication, to
touch the chin. The seat of the memory lies in the lower part of the
ear, which we touch when we summon a witness to depose upon memory to
an arrest.[340] The seat, too, of Nemesis[341] lies behind the right
ear, a goddess which has never yet found a Latin name, no, not in the
Capitol even. It is to this part that we apply the finger next the
little finger, after touching the mouth with it, when we silently ask
pardon of the gods for having let slip an indiscreet word.



CHAP. 104.—VARICOSE VEINS.


Men only, in general, have varicose veins in the legs, women but very
rarely. We are informed by Oppius, that C. Marius, who was seven times
consul, was the only man ever known to be able to have them extracted
in a standing position.



CHAP. 105.—THE GAIT, THE FEET, THE LEGS.


All animals take a right-hand direction when they first begin to walk,
and lie down on the left side. While the other animals walk just as it
may happen, the lion only and the camel walk foot by foot, or in such a
way that the left foot never passes the right, but always comes behind
it. Men have the largest feet; in every kind of animal the female has
the smallest. Man only[342] has calves, and flesh upon the legs: we
find it stated by authors, however, that there was once an Egyptian who
had no calves on his legs. All men, too, with some few exceptions, have
a sole to the foot. It is from these exceptional cases that persons
have obtained the names of Plancus,[343] Plautus, Pansa, and Scaurus;
just as, from the malformation of the legs, we find persons called
Varus,[344] Vacia, and Vatinius, all which blemishes are to be seen
in quadrupeds also. Animals which have no horns have a solid hoof,
from which circumstance it is used by them as a weapon of offence, in
place of horns; such animals as these are also destitute of pastern
bones, but those which have cloven hoofs have them; while those, again,
which have toes have none, nor are they ever found in the fore-feet of
animals. The camel has pastern bones like those of the ox, but somewhat
smaller, the feet being cloven, with a slight line of division, and
having a fleshy sole, like that of the bear: hence it is, that in a
long journey, the animal becomes fatigued, and the foot cracks, if it
is not shod.



CHAP. 106. (46.)—HOOFS.


The horn of the hoof grows again in no animals except beasts of burden.
The swine in some places in Illyricum have solid hoofs. Nearly all
the horned animals are cloven-footed, no animal having solid hoofs
and two horns. The Indian ass is only a one-horned animal, and the
oryx is both one-horned and cloven-footed. The Indian ass[345] is the
only solid-hoofed animal that has pastern-bones. As to swine, they are
looked upon as a sort of mongrel race, with a mixture of both kinds,
and hence it is that their ankle-bones are so misshapen. Those authors
who have imagined that man has similar pastern-bones, are easily to
be confuted. The lynx is the only one among the animals that have the
feet divided into toes, that has anything bearing a resemblance to a
pastern-bone; while with the lion it is more crooked still. The great
pastern-bone is straight, and situate in the joints of the foot; it
projects outwards in a convex protuberance, and is held fast in its
vertebration by certain ligaments.



CHAP. 107. (47.)—THE FEET OF BIRDS.


Among birds, some have the feet divided into toes, while others, again,
are broad and flatfooted—in others, which partake of the intermediate
nature of both, the toes are divided, with a wide space between them.
All birds, however, have four toes—three in front, and one on the
heel; this last, however, is wanting in some that have long legs. The
iynx[346] is the only bird that has two toes on each side of the leg.
This bird also protrudes a long tongue similar to that of the serpent,
and it can turn the neck quite round and look backwards; it has great
talons, too, like those of the jackdaw. Some of the heavier birds
have spurs also upon the legs; but none of those have them which have
crooked talons as well. The long-footed birds, as they fly, extend
the legs towards the tail, while those that have short legs hold them
contracted close to the middle of the body. Those authors who deny
that there is any bird without feet, assert that those even which are
called apodes,[347] are not without them, as also the oce, and the
drepanis,[348] which last is a bird but very rarely seen. Serpents,
too, have been seen with feet like those of the goose.



CHAP. 108. (48.)—THE FEET OF ANIMALS, FROM THOSE HAVING TWO FEET TO
THOSE WITH A HUNDRED.—DWARFS.


Among insects, those which have hard eyes have the fore-feet long, in
order that from time to time they may rub the eyes with their feet, as
we frequently see done by flies. The insects which have long hind-feet
are able to leap, the locust, for instance. All these insects have six
feet: and some of the spiders have two very long feet in addition.
They have, all of them, three joints. We have already[349] stated that
marine insects have eight feet, such as the polypus, the sæpia, the
cuttle-fish, and the crab, animals which move their arms in a contrary
direction to their feet, which last they move around as well as
obliquely: they are the only animals the feet of which have a rounded
form. Other insects have two feet to regulate their movements; in the
crab, and in that only, these duties are performed by four. The land
animals which exceed this number of feet, as most of the worms,[350]
never have fewer than twelve feet, and some, indeed, as many as a
hundred. The number of feet is never uneven in any animal. Among the
solid-hoofed animals, the legs are of their proper length from the
moment of their birth, after which they may with more propriety be said
to extend themselves than to increase in growth: hence it is, that in
infancy they are able to scratch their ears with the hind feet, a thing
which, when they grow older, they are not able to do, because their
increase of growth affects only the superficies of the body. It is for
the same reason also, that they are only able to graze at first by
bending the knees, until such time as the neck has attained its proper
length.

(49.) There are dwarfs to be found among all animals, and among birds
even.



CHAP. 109.—THE SEXUAL PARTS.—HERMAPHRODITES.


We have already spoken sufficiently[351] at length of those animals,
the males of which have the sexual parts behind. In the wolf, the
fox, the weasel, and the ferret, these parts are bony; and it is the
genitals of the last-mentioned animal that supply the principal
remedies for calculus in the human bladder. It is said also that the
genitals of the bear are turned into a horny substance the moment it
dies. Among the peoples of the East the very best bow-strings are those
which are made of the member of the camel. These parts also, among
different nations, are made the object of certain usages[352] and
religious observances; and the Galli,[353] the priests of the Mother
of the gods, are in the habit of castrating themselves, without any
dangerous results. On the other hand, there is in some few women a
monstrous resemblance to the male conformation, while hermaphrodites
appear to partake of the nature of both. Instances of this last
conformation were seen in quadrupeds in Nero’s reign, and for the first
time, I imagine; for he ostentatiously paraded hermaphrodite horses
yoked to his car, which had been found in the territory of the Treviri,
in Gaul; as if, indeed, it was so remarkably fine a sight to behold the
ruler of the earth seated in a chariot drawn by monstrosities!



CHAP. 110.—THE TESTES—THE THREE CLASSES OF EUNUCHS.


In sheep and cattle the testes hang down to the legs, while in the
boar they are knit up close to the body. In the dolphin they are
very long, and are concealed in the lower part of the belly. In the
elephant, also, they are quite concealed. In oviparous animals they
adhere to the interior of the loins: these animals are the most speedy
in the venereal congress. Fishes and serpents have no testes, but in
place of them they have two veins, which run from the renal region to
the genitals. The bird known as the “buteo,”[354] has three testes.
Man is the only creature in which the testes are ever broken, either
accidentally or by some natural malady; those who are thus afflicted
form a third class of half men, in addition to hermaphrodites and
eunuchs. In all species of animals the male is more courageous than the
female, with the exception of the panther and the bear.



CHAP. 111. (50.)—THE TAILS OF ANIMALS.


Nearly all the animals, both viviparous as well as oviparous, with
the exception of man and the ape, have tails in proportion to the
necessities of the body. In animals with bristles the tail is bare, as
in the boar, for instance. In those that are shaggy, it is small, such
as the bear; while in those animals that have long hair, the tail is
long also, the horse, for instance. The tail of a lizard or serpent, if
cut off, will grow again. The tail governs the movements of the fish
like a rudder, and turning from side to side, to the right or to the
left, impels it onwards, acting in some degree like an oar. A double
tail is sometimes found in lizards. In oxen, the stalk of the tail is
of remarkable length, and is covered with rough hair at the extremity.
In the ass, too, it is longer than in the horse, but in beasts of
burden it is covered with bristly hairs. The tail of the lion, at the
extremity, is like that of the ox and the field-mouse; but this is not
the case with the panther. In the fox and the wolf it is covered with
long hair, as in sheep, in which it is longer also. In swine, the tail
is curled; among dogs, those that are mongrels carry it close beneath
the belly.



CHAP. 112. (51.)—THE DIFFERENT VOICES OF ANIMALS.


Aristotle[355] is of opinion that no animal has a voice which does
not respire, and that hence it is that there is no voice in insects,
but only a noise, through the circulation of the air in the interior,
and its resounding, by reason of its compression. Some insects,
again, he says, emit a sort of humming noise, such as the bee, for
instance; others a shrill, long-drawn note, like the grasshopper, the
two cavities beneath the thorax receiving the air, which, meeting a
moveable membrane within, emits a sound by the attrition.—Also that
flies, bees, and other insects of that nature, are only heard while
they are flying, and cease to be heard the moment they settle, and
that the sound which they emit proceeds from the friction and the air
within them, and not from any act of respiration. At all events, it is
generally believed that the locust emits a sound by rubbing together
the wings and thighs, and that among the aquatic animals the scallop
makes a certain noise as it flies.[356] Mollusks, however, and the
testaceous animals have no voice and emit no sounds. As for the other
fishes, although they are destitute of lungs and the tracheal artery,
they are not entirely without the power of emitting certain sounds: it
is only a mere joke to say that the noise which they make is produced
by grating their teeth together. The fish, too, that is found in the
river Acheloüs, and is known as the boar-fish,[357] makes a grunting
noise, as do some others which we have previously[358] mentioned. The
oviparous animals hiss: in the serpent this hissing is prolonged, in
the tortoise it is short and abrupt. Frogs make a peculiar noise of
their own, as already stated;[359] unless, indeed, this, too, is to
be looked upon as a matter of doubt; but their noise originates in
the mouth, and not in the thorax. Still, however, in reference to
this subject, the nature of the various localities exercises a very
considerable influence, for in Macedonia, it is said, the frogs are
dumb, and the same in reference to the wild boars there. Among birds,
the smaller ones chirp and twitter the most, and more especially
about the time of pairing. Others, again, exercise their voice while
fighting, the quail, for instance; others before they begin to fight,
such as the partridge; and others when they have gained the victory,
the dunghill cock, for instance. The males in these species have a
peculiar note of their own, while in others, the nightingale for
example, the male has the same note as the female.

Some birds sing all the year round, others only at certain times of the
year, as we have already mentioned when speaking of them individually.
The elephant produces a noise similar to that of sneezing, by the aid
of the mouth, and independently of the nostrils; but by means of the
nostrils it emits a sound similar to the hoarse braying of a trumpet.
It is only in the bovine race that the voice of the female is the
deepest, it being in all other kinds of animals more shrill than that
of the male; it is the same also with the male of the human race when
castrated. The infant at its birth is never heard to utter a cry before
it has entirely left the uterus: it begins to speak at the end of the
first year. A son of Crœsus,[360] however, spoke when only six months
old, and, while yet wielding the child’s rattle, afforded portentous
omens, for it was at the same period that his father’s empire fell.
Those children which begin to speak the soonest, begin to walk the
latest. The human voice acquires additional strength at the fourteenth
year; but in old age it becomes more shrill again, and there is no
living creature in which it is subject to more frequent changes.

In addition to the preceding, there are still some singular
circumstances that deserve to be mentioned with reference to the voice.
If saw-dust or sand is thrown down in the orchestra of a theatre, or if
the walls around are left in a rough state, or empty casks are placed
there, the voice is absorbed; while, on the other hand, if the wall
is quite straight, or if built in a concave form, the voice will move
along it, and will convey words spoken in the slightest whisper from
one end[361] to the other, if there is no inequality in the surface to
impede its progress. The voice, in man, contributes in a great degree
to form his physiognomy, for we form a knowledge of a man before we
see him by hearing his voice, just as well[362] as if we had seen him
with our eyes. There are as many kinds of voices, too, as there are
individuals in existence, and each man has his own peculiar voice, just
as much as his own peculiar physiognomy. Hence it is, that arises that
vast diversity of nations and languages throughout the whole earth:
in this, too, originate the many tunes, measures, and inflexions that
exist. But, before all other things, it is the voice that serves to
express our sentiments,[363] a power that distinguishes us from the
beasts; just as, in the same way, the various shades and differences in
language that exist among men have created an equally marked difference
between us and the brutes.



CHAP. 113. (52.)—SUPERFLUOUS LIMBS.


Supernumerary limbs, when they grow on animals, are of no use, which
is the case also with the sixth finger, when it grows on man. It
was thought proper in Egypt to rear a human monster, that had two
additional eyes in the back part of the head; it could not see with
them, however.



CHAP. 114.—SIGNS OF VITALITY AND OF THE MORAL DISPOSITION OF MAN, FROM
THE LIMBS.


I am greatly surprised that Aristotle has not only believed, but has
even committed it to writing, that there are in the human body certain
prognostics of the duration of life. Although I am quite convinced of
the utter futility of these remarks, and am of opinion that they ought
not to be published without hesitation, for fear lest each person might
be anxiously looking out for these prognostics in his own person, I
shall still make some slight mention of the subject, seeing that so
learned a man as Aristotle did not treat it with contempt. He has set
down the following as indications of a short life—few teeth, very long
fingers, a leaden colour, and numerous broken lines in the palm of the
hand. On the other hand, he looks upon the following as prognostics of
a long life—stooping in the shoulders, one or two long unbroken lines
in the hand, a greater number than two-and-thirty teeth, and large
ears. He does not, I imagine, require that all these symptoms should
unite in one person, but looks upon them as individually significant:
in my opinion, however, they are utterly frivolous, all of them,
although they obtain currency among the vulgar. Our own writer, Trogus,
has in a similar manner set down the physiognomy as indicative of the
moral disposition; one of the very gravest of the Roman authors, whose
own[364] words I will here subjoin:—

“Where the forehead is broad, it is significant of a dull and sluggish
understanding beneath; and where it is small, it indicates an unsteady
disposition. A rounded forehead denotes an irascible temper, it seeming
as though the swelling anger had left its traces there. Where the
eye-brows are extended in one straight line, they denote effeminacy
in the owner, and when they are bent downwards towards the nose, an
austere disposition. On the other hand, when the eye-brows are bent
towards the temples, they are indicative of a sarcastic disposition;
but when they lie very low, they denote malice and envy. Long eyes
are significant of a spiteful, malicious nature; and where the
corners of the eyes next the nose are fleshy, it is a sign also of a
wicked disposition. If the white of the eye is large, it bears tokens
of impudence, while those who are incessantly closing the eyelids
are inconstant. Largeness of the ears is a sign of loquacity and
foolishness.” Thus much of what Trogus says.



CHAP. 115. (53.)—RESPIRATION AND NUTRIMENT.


The breath of the lion is fetid, and that of the bear quite
pestilential; indeed, no beast will touch anything with which its
breath has come in contact, and substances which it has breathed upon
will become putrid sooner than others. It is in man only that Nature
has willed that the breath should become tainted in several ways,
either through faultiness in the victuals or the teeth, or else, as is
more generally the case, through extreme old age. Our breath in itself
was insensible to all pain, utterly devoid as it was of all powers
of touch and feeling, without which there can be no sensation; ever
renewed, it was always forthcoming, destined to be the last adjunct
that shall leave the body, and the only one to remain when all is
gone beside; it drew, in fine, its origin from heaven. In spite of
all this, however, certain penalties were discovered to be indicted
upon it, so that the very substance by the aid of which we live might
become a torment to us in life. This inconvenience is more particularly
experienced among the Parthians, from their youth upwards, on account
of the indiscriminate use of food among them; and, indeed, their very
excess in wine causes their breath to be fetid. The grandees, however,
of that nation have a remedy for bad breath in the pips of the Assyrian
citron,[365] which they mix with their food, and the aroma of which
is particularly agreeable. The breath of the elephant will attract
serpents from their holes, while that of the stag scorches them. We
have already made mention[366] of certain races of men who could by
suction extract from the body the venom of serpents; and swine will
even eat serpents,[367] which to other animals are poisonous. All those
creatures which we have spoken of as insects, can be killed by merely
sprinkling them with oil.[368] Vultures, which are put to flight by
unguents, are attracted by other odours: the beetle, too, is attracted
by the rose. The scorpion puts to death certain serpents. The Scythians
dip their arrows in the poison of serpents and human blood: against
this frightful composition there is no remedy, for with the slightest
touch it is productive of instant death.



CHAP. 116.—ANIMALS WHICH WHEN FED UPON POISON DO NOT DIE, AND THE FLESH
OF WHICH IS POISONOUS.


The animals which feed upon poison have been already[369] mentioned.
Some of them, which are harmless of themselves, become noxious if
fed upon venomous substances. The wild boar of Pamphylia and the
mountainous parts of Cilicia, after having devoured a salamander,
will become poisonous to those who eat its flesh; and yet the danger
is quite imperceptible by reason of any peculiarity in the smell and
taste. The salamander, too, will poison either water or wine, in which
it happens to be drowned; and what is more, if it has only drunk
thereof, the liquid becomes poisonous. The same is the case, too, with
the frog known to us as the bramble-frog. So numerous are the snares
that are laid in wait for life! Wasps greedily devour the flesh of the
serpent, a nutriment which renders their stings fatal; so vast is the
difference to be found between one kind of food and another. In the
country, too, of the Ichthyophagi,[370] as we learn from Theophrastus,
the oxen are fed upon fish, but only when alive.



CHAP. 117.—REASONS FOR INDIGESTION. REMEDIES FOR CRUDITY.


The most wholesome nutriment for man is plain food. An accumulation of
flavours is injurious, and still more so, if heightened by sauces. All
acrid elements are difficult of digestion, and the same is the case if
food is devoured greedily, or in too large quantities. Food is also
less easily digested in summer than in winter, and in old age than in
youth. The vomits which man has invented, by way of remedy for this
evil, render the body more cold, and are more particularly injurious to
the eyes and teeth.



CHAP. 118.—FROM WHAT CAUSES CORPULENCE ARISES; HOW IT MAY BE REDUCED.


Digestion during sleep is more productive of corpulence than strength.
Hence it is, that it is preferable for athletes to quicken digestion
by walking. Watching, at night more especially, promotes digestion of
the food.

(54.) The size of the body is increased by eating sweet and fatty
substances, as well as by drinking, while, on the other hand, it is
diminished by eating dry, acrid, or cold substances, and by abstaining
from drink. Some animals of Africa, as well as sheep, drink but once
every four days. Abstinence from food for seven days, even, is not of
necessity fatal to man; and it is a well-known fact, that many persons
have not died till after an abstinence of eleven days. Man is the only
animal that is ever attacked with an insatiate[371] craving for food.



CHAP. 119.—WHAT THINGS, BY MERELY TASTING OF THEM, ALLAY HUNGER AND
THIRST.


On the other hand, there are some substances which, tasted in small
quantities only, appease hunger and thirst, and keep up the strength,
such as butter, for instance, cheese made of mares’ milk, and
liquorice. But the most pernicious thing of all, and in every station
of life, is excess, and more especially excess in food; in fact, it
is the most prudent plan to retrench everything that may be possibly
productive of injury. Let us, however, now pass on to the other
branches of Nature.


SUMMARY.—Remarkable facts, narratives, and observations, two
thousand, two hundred, and seventy.


ROMAN AUTHORS QUOTED.—M. Varro,[372] Hyginus,[373] Scrofa,[374]
Saserna,[375] Celsus Cornelius,[376] Æmilius Macer,[377] Virgil,[378]
Columella,[379] Julius Aquila[380] who wrote on the Tuscan art of
Divination, Tarquitius[381] who wrote on the same subject, Umbricius
Melior[382] who wrote on the same subject, Cato the Censor,[383]
Domitius Calvinus,[384] Trogus,[385] Melissus,[386] Fabianus,[387]
Mucianus,[388] Nigidius,[389] Manilius,[390] Oppius.[391]


FOREIGN AUTHORS QUOTED.—Aristotle,[392] Democritus,[393]
Neoptolemus[394] who wrote the Meliturgica, Aristomachus[395] who wrote
on the same subject, Philistus[396] who wrote on the same subject,
Nicander,[397] Menecrates,[398] Dionysius[399] who translated Mago,
Empedocles,[400] Callimachus,[401] King Attalus,[402] Apollodorus[403]
who wrote on venomous animals, Hippocrates,[404] Herophilus,[405]
Erasistratus,[406] Asclepiades,[407] Themison,[408] Posidonius[409]
the Stoic, Menander[410] of Priene and Menander[411] of Heraclea,
Euphronius[412] of
 Athens, Theophrastus,[413] Hesiod,[414] King
Philometor.[415]



BOOK XII.

THE NATURAL HISTORY OF TREES.



CHAP. 1.—THE HONOURABLE PLACE OCCUPIED BY TREES IN THE SYSTEM OF NATURE.


Such, then, is the history, according to their various species and
their peculiar conformations, of all the animals within the compass
of our knowledge. It now remains for us to speak of the vegetable
productions of the earth, which are equally far from being destitute
of a vital spirit,[416] (for, indeed, nothing can live without it),
that we may then proceed to describe the minerals extracted from
it, and so none of the works of Nature may be passed by in silence.
Long, indeed, were these last bounties of hers concealed beneath the
ground, the trees and forests being regarded as the most valuable
benefits conferred by Nature upon mankind. It was from the forest that
man drew his first aliment, by the leaves of the trees was his cave
rendered more habitable, and by their bark was his clothing supplied;
even at this very day,[417] there are nations that live under similar
circumstances to these. Still more and more, then, must we be struck
with wonder and admiration, that from a primæval state such as this, we
should now be cleaving the mountains for their marbles, visiting the
Seres[418] to obtain our clothing, seeking the pearl in the depths of
the Red Sea, and the emerald in the very bowels of the earth. For our
adornment with these precious stones it is that we have devised those
wounds which we make in our ears; because, forsooth, it was deemed not
enough to carry them on our hands, our necks, and our hair, if we did
not insert them in our very flesh as well. It will be only proper,
then, to follow the order of human inventions, and to speak of the
trees before treating of other subjects; thus may we trace up to their
very origin the manners and usages of the present day.



CHAP. 2. (1.)—THE EARLY HISTORY OF TREES.


The trees formed the first temples of the gods, and even at the
present day, the country people, preserving in all their simplicity
their ancient rites, consecrate the finest among their trees to some
divinity;[419] indeed, we feel ourselves inspired to adoration, not
less by the sacred groves and their very stillness, than by the statues
of the gods, resplendent as they are with gold and ivory. Each kind of
tree remains immutably consecrated to its own peculiar divinity, the
beech[420] to Jupiter,[421] the laurel to Apollo, the olive to Minerva,
the myrtle to Venus, and the poplar to Hercules: besides which, it is
our belief that the Sylvans, the Fauns, and various kinds of goddess
Nymphs, have the tutelage of the woods, and we look upon those deities
as especially appointed to preside over them by the will of heaven. In
more recent times, it was the trees that by their juices, more soothing
even than corn, first mollified the natural asperity of man; and it is
from these that we now derive the oil of the olive that renders the
limbs so supple, the draught of wine that so efficiently recruits the
strength, and the numerous delicacies which spring up spontaneously
at the various seasons of the year, and load our tables with their
viands—tables to replenish which, we engage in combat with wild beasts,
and seek for the fishes which have fattened upon the dead corpse of the
shipwrecked mariner—indeed, it is only at the second[422] course, after
all, that the produce of the trees appears.

But, in addition to this, the trees have a thousand other uses, all
of which are indispensable to the full enjoyment of life. It is by
the aid of the tree that we plough the deep, and bring near to us far
distant lands; it is by the aid of the tree, too, that we construct our
edifices. The statues, even, of the deities were formed of the wood
of trees, in the days when no value had been set as yet on the dead
carcase[423] of a wild beast, and when, luxury not yet deriving its
sanction from the gods themselves, we had not to behold, resplendent
with the same ivory, the heads of the divinities[424] and the feet of
our tables. It is related that the Gauls, separated from us as they
were by the Alps, which then formed an almost insurmountable bulwark,
had, as their chief motive for invading Italy, its dried figs, its
grapes, its oil, and its wine, samples[425] of which had been brought
back to them by Helico, a citizen of the Helvetii, who had been staying
at Rome, to practise there as an artizan. We may offer some excuse,
then, for them, when we know that they came in quest of these various
productions, though at the price even of war.



CHAP. 3.—EXOTIC TREES. WHEN THE PLANE-TREE FIRST APPEARED IN ITALY, AND
WHENCE IT CAME.


But who is there that will not, with good reason, be surprised to learn
that a tree has been introduced among us from a foreign clime for
nothing but its shade? I mean the plane,[426] which was first brought
across the Ionian Sea to the Isle[427] of Diomedes, there to be planted
at his tomb, and was afterwards imported thence into Sicily, being
one of the very first exotic trees that were introduced into Italy.
At the present day, however, it has penetrated as far as the country
of the Morini, and occupies even a tributary[428] soil; in return for
which those nations have to pay a tax for the enjoyment of its shade.
Dionysius the Elder, one of the tyrants of Sicily, had plane-trees
conveyed to the city of Rhegium, where they were looked upon as the
great marvel of his palace, which was afterwards converted into a
gymnasium. These trees did not, however, in that locality, attain any
very great height. I find it also stated by some authors, that there
were some other instances, in those days even, of plane-trees being
found in Italy, and I find some mentioned by name as existing in
Spain.[429]



CHAP. 4.—THE NATURE OF THE PLANE-TREE.


This circumstance took place about the time of the capture of the
City of Rome; and to such high honour, in the course of time, did the
plane-tree attain, that it was nurtured by pouring wine upon it, it
being found that the roots were greatly strengthened by doing[430] so.
Thus have we taught the very trees, even, to be wine-bibbers!



CHAP. 5.—REMARKABLE FACTS CONNECTED WITH THE PLANE-TREE.


The first plane-trees that were spoken of in terms of high admiration
were those which adorned the walks of the Academy[431] at Athens—[in
one of which], the roots extended a distance of thirty-three cubits,
and spread far beyond its branches. At the present day, there is a
very famous plane in Lycia, situate in close proximity to a fountain
of the most refreshing coolness; standing near the road, with the
cavity in its interior, it forms a species of house eighty-one feet
in width. Its summit, too, presents the foliage of a grove, while
it shields itself with huge branches, each of which would equal an
ordinary tree in size, as it throws its lengthened shade across the
fields. In addition to this, that nothing may be wanting to its exact
resemblance to a grotto, there is a circle of seats within, formed of
stone, intermingled with pumice overgrown with moss. This tree was
looked upon as so worthy of remark, that Licinius Mucianus, who was
three times consul, and recently the legatus of that province, thought
it a circumstance deserving of transmission even to posterity, that
he, together with eighteen persons of his retinue, had sat down to a
banquet in the interior of it. Its leaves afforded material for their
couches in the greatest abundance, while he himself, sheltered from
every gust of wind, and trying in vain to hear the pattering of the
rain on the leaves, took his meal there, and enjoyed himself more than
he would have done amid the resplendence of marble, a multiplicity of
paintings, and beneath a cieling refulgent with gold.

Another curious instance, again, was that afforded in the reign of the
Emperor Caius.[432] That prince was so struck with admiration on seeing
a plane in the territory of Veliternum, which presented floor after
floor, like those of the several stories of a house, by means of broad
benches loosely laid from branch to branch, that he held a banquet
in it—himself adding[433] very materially to the shade it threw—the
triclinium being formed for the reception of fifteen guests and the
necessary attendants: to this singular dining-room he gave the name of
his “nest.”

At Gortyna, in the Isle of Crete, there is, in the vicinity of a
fountain there, a single plane-tree, which has been long celebrated
in the records of both the Greek and the Latin language: it never
loses[434] its leaves, and from an early period one of the fabulous
legends of Greece has been attached to it, to the effect that it was
beneath this tree that Jupiter lay with Europa; just as if there had
not been another tree of a similar nature in the island of Cyprus.
Slips of the tree at Gortyna—so fond is man by nature of novelty—were
at an early period planted at different places in Crete, and reproduced
the natural imperfections of the tree;[435] though, indeed, there is
no higher recommendation in the plane than the fact that in summer
it protects us from the rays of the sun, while in winter it admits
them. In later times, during the reign of the Emperor Claudius, a
Thessalian eunuch, the freedman of Marcellus Æserninus,[436] who,
however, from motives of ambition had enrolled himself in the number
of the freedmen of the emperor, and had acquired very considerable
wealth, introduced this plane into Italy, in order to beautify his
country-seat: so that he may not inappropriately be styled a second
Dionysius. These monstrosities of other lands are still to be seen in
Italy, independently of those which that country has herself devised.



CHAP. 6. (2.)—THE CHAMÆPLATANUS. WHO WAS THE FIRST TO CLIP GREEN SHRUBS.


For we find in Italy some plane-trees, which are known as
chamæplatani,[437] in consequence of their stunted growth; for we
have discovered the art of causing abortion in trees even, and hence,
even in the vegetable world we shall have occasion to make mention
of dwarfs, an unprepossessing subject in every case. This result is
obtained in trees, by a peculiar method adopted in planting and lopping
them. C. Matius,[438] a member of the Equestrian order, and a friend of
the late Emperor Augustus, invented the art of clipping arbours, within
the last eighty years.



CHAP. 7. (3.)—HOW THE CITRON IS PLANTED.


The cherry and the peach, and all those trees which have either Greek
or foreign names, are exotics: those, however, of this number, which
have begun to be naturalized among us, will be treated of when I come
to speak of the fruit-trees in general. For the present, I shall
only make mention of the really exotic trees, beginning with the one
that is applied to the most salutary uses. The citron tree, called
the Assyrian, and by some the Median apple, is an antidote against
poisons.[439] The leaf is similar to that of the arbute, except that it
has small prickles[440] running across it. As to the fruit, it is never
eaten,[441] but it is remarkable for its extremely powerful smell,
which is the case, also, with the leaves; indeed, the odour is so
strong, that it will penetrate clothes, when they are once impregnated
with it, and hence it is very useful in repelling the attacks of
noxious insects. The tree bears fruit at all seasons of the year; while
some is falling off, other fruit is ripening, and other, again, just
bursting into birth. Various nations have attempted to naturalize this
tree among them, for the sake of its medical properties, by planting
it in pots of clay, with holes drilled in them, for the purpose of
introducing the air to the roots; and I would here remark, once for
all, that it is as well to remember that the best plan is to pack
all slips of trees that have to be carried to any distance, as close
together as they can possibly be placed. It has been found, however,
that this tree will grow nowhere[442] except in Media or Persia. It
is this fruit, the pips of which, as we have already mentioned,[443]
the Parthian grandees employ in seasoning their ragouts, as being
peculiarly conducive to the sweetening of the breath. We find no other
tree very highly commended that is produced in Media.



CHAP. 8. (4.)—THE TREES OF INDIA.


In describing the country of the Seres, we have already made
mention[444] of the wool-bearing trees which it produces; and we have,
likewise, touched[445] upon the extraordinary magnitude of the trees of
India. Virgil[446] has spoken in glowing terms of the ebony-tree, one
of those which are peculiar to India, and he further informs us, that
it will grow in no other country. Herodotus, however, has preferred to
ascribe[447] it to Æthiopia; and states that the people of that country
were in the habit of paying to the kings of Persia, every third year,
by way of tribute,[448] one hundred billets of ebony-wood, together
with a certain quantity of gold and ivory. Nor ought we here to omit
the fact, inasmuch as the same author has stated to that effect, that
the Æthiopians were also in the habit of paying, by way of tribute,
twenty large elephants’ teeth. So high was the esteem in which ivory
was held in the year from the building of our city, 310: for it was
at that period[449] that this author was compiling his History at
Thurii, in Italy; which is all the more remarkable, from the implicit
confidence we place in him, when he says[450] that up to that time, no
native of Asia or Greece, to his knowledge at least, had ever beheld
the river Padus. The plan of Æthiopia, which, as we have already
mentioned,[451] was recently laid before the Emperor Nero, informs
us, that this tree is very uncommon in the country that lies between
Syene, the extreme boundary of the empire, and Meroë, a distance of
eight hundred and ninety-six miles; and that, in fact, the only kind of
tree that is to be found there, is the palm. It was, probably, for this
reason, that ebony held the third place in the tribute that was thus
imposed.



CHAP. 9.—WHEN EBONY WAS FIRST SEEN AT ROME. THE VARIOUS KINDS OF EBONY.


Pompeius Magnus displayed ebony on the occasion of his triumph over
Mithridates. Fabianus declares, that this wood will give out no
flame; it burns, however, with a very agreeable smell. There are two
kinds[452] of ebony; the rarest kind is the best, and is produced
from a tree that is singularly free from knots. The wood is black and
shining, and pleasing to the eye, without any adventitious aid from
art. The other kind of ebony is the produce of a shrub which resembles
the cytisus, and is to be found scattered over the whole of India.



CHAP. 10. (5.)—THE INDIAN THORN.


There is in India, also, a kind of thorn[453] very similar to ebony,
though it may be distinguished from it, by the aid of a lantern even;
for, on the application of flame, it will instantly run across the
tree. We will now proceed to describe those trees which were the
admiration of Alexander the Great in his victorious career, when that
part of the world was first revealed by his arms.



CHAP. 11.—THE INDIAN FIG.


The Indian fig[454] bears but a small fruit. Always growing
spontaneously, it spreads far and wide with its vast branches, the
ends of which bend downwards into the ground to such a degree, that
they take fresh root in the course of a year, and thus form a new
plantation around the parent stock, traced in a circular form, just
as though it had been the work of the ornamental gardener. Within the
bowers thus formed, the shepherds take up their abode in the summer,
the space occupied by them being, at once, overshadowed and protected
by the bulwark which the tree thus throws around; a most graceful
sight, whether we stand beneath and look upwards, or whether we view
its arcaded foliage from a distance. The higher branches, however,
shoot upwards to a very considerable height, and, by their number,
form quite a grove, springing aloft from the vast trunk of the parent
tree, which overspreads, very frequently, a space of sixty paces in
extent, while the shade that is thrown by it will cover as much as a
couple of stadia. The broad leaves of the tree have just the shape of
an Amazonian buckler; and hence it is that the fruit, from being quite
covered by the leaves, is greatly impeded in its growth. The fruit,
indeed, of this tree is but scanty, and never exceeds a bean in size;
being ripened, however, by the rays of the sun, as these penetrate the
leaves, the figs are remarkable for their singular lusciousness, and
are quite worthy of the marvellous tree by which they are produced.
These fig-trees are found, more particularly, in the vicinity of the
river Acesines.[455]



CHAP. 12. (6.)—THE PALA: THE FRUIT CALLED ARIENA.


There is another tree[456] in India, of still larger size, and even
more remarkable for the size and sweetness of its fruit, upon which the
sages[457] of India live. The leaf of this tree resembles, in shape,
the wing of a bird, being three cubits in length, and two in breadth.
It puts forth its fruit from the bark, a fruit remarkable for the
sweetness of its juice, a single one containing sufficient to satisfy
four persons. The name of this tree is “pala,” and of the fruit,
“ariena.” They are found in the greatest abundance in the country of
the Sydraci,[458] a territory which forms the extreme limit of the
expedition of Alexander.

There is another[459] tree, also, very similar to this, but bearing
a still sweeter fruit, though very apt to cause derangement of the
bowels. Alexander issued strict orders, forbidding anyone in the
expedition to touch this fruit.



CHAP. 13.—INDIAN TREES, THE NAMES OF WHICH ARE UNKNOWN. INDIAN TREES
WHICH BEAR FLAX.


The Macedonians[460] have made mention of various other kinds of
trees, the greater part of which, however, are without names. There
is one which resembles the terebinth[461] in every respect, except
the fruit, which is very similar to the almond, though less in size,
and remarkable for its extreme sweetness. This tree was met with in
Bactria, and some persons looked upon it as a variety of the terebinth,
rather than as bearing a strong resemblance to it. As to the tree from
which they manufacture a kind of linen[462] cloth, in leaf it resembles
the mulberry-tree, while the calix of the fruit is similar to the
dog-rose.[463] This tree is reared in the plains, and there is no sight
throughout the cultivated parts of the country that is more enchanting
than the plantations of it.



CHAP. 14. (7.)—THE PEPPER-TREE.—THE VARIOUS KINDS OF
PEPPER—BREGMA—ZINGIBERI, OR ZIMPIBERI.


The olive-tree[464] of India is unproductive, with the sole exception
of the wild olive. In every part we meet with trees that bear
pepper,[465] very similar in appearance to our junipers, although,
indeed, it has been alleged by some authors that they only grow on the
slopes of Caucasus which lie exposed to the sun. The seeds, however,
differ from those of the juniper, in being enclosed in small pods
similar to those which we see in the kidney-bean. These pods are picked
before they open, and when dried in the sun, make what we call “long
pepper.” But if allowed to ripen, they will open gradually, and when
arrived at maturity, discover the white pepper; if left exposed to
the heat of the sun, this becomes wrinkled, and changes its colour.
Even these productions, however, are subject to their own peculiar
infirmities, and are apt to become blasted by the inclemency of the
weather; in which case the seeds are found to be rotten, and mere
husks. These abortive seeds are known by the name of “bregma,” a word
which in the Indian language signifies “dead.” Of all the various kinds
of pepper, this is the most pungent, as well as the very lightest,
and is remarkable for the extreme paleness of its colour. That which
is black is of a more agreeable flavour; but the white pepper is of a
milder quality than either.

The root of this tree is not, as many persons have imagined, the same
as the substance known as zimpiberi, or, as some call it, zingiberi,
or ginger, although it is very like it in taste. For ginger, in fact,
grows in Arabia and in Troglodytica, in various cultivated spots, being
a small plant[466] with a white root. This plant is apt to decay very
speedily, although it is of intense pungency; the price at which it
sells is six denarii per pound. Long pepper is very easily adulterated
with Alexandrian mustard; its price is fifteen denarii per pound,
while that of white pepper is seven, and of black, four. It is quite
surprising that the use of pepper has come so much into fashion, seeing
that in other substances which we use, it is sometimes their sweetness,
and sometimes their appearance that has attracted our notice; whereas,
pepper has nothing in it that can plead as a recommendation to either
fruit or berry, its only desirable quality being a certain pungency;
and yet it is for this that we import it all the way from India! Who
was the first to make trial of it as an article of food? and who, I
wonder, was the man that was not content to prepare himself by hunger
only for the satisfying of a greedy appetite? Both pepper and ginger
grow wild in their respective countries, and yet here we buy them
by weight—just as if they were so much gold or silver. Italy,[467]
too, now possesses a species of pepper-tree, somewhat larger than the
myrtle, and not very unlike it. The bitterness of the grains is similar
to that which we may reasonably suppose to exist in the Indian pepper
when newly gathered; but it is wanting in that mature flavour which
the Indian grain acquires by exposure in the sun, and, consequently,
bears no resemblance to it, either in colour or the wrinkled appearance
of the seeds. Pepper is adulterated with juniper berries, which have
the property, to a marvellous degree, of assuming the pungency of
pepper. In reference to its weight, there are also several methods of
adulterating it.



CHAP. 15.—CARYOPHYLLON, LYCION, AND THE CHIRONIAN PYXACANTHUS.


There is, also, in India another grain which bears a considerable
resemblance to pepper, but is longer and more brittle; it is known by
the name of caryophyllon.[468] It is said that this grain is produced
in a sacred grove in India; with us it is imported for its aromatic
perfume. The same country produces, also, a thorny shrub, with
grains which bear a resemblance to pepper, and are of a remarkably
bitter taste. The leaves of this shrub are small, like those of the
cyprus;[469] the branches are three cubits in length, the bark pallid,
and the roots wide-spreading and woody, and of a colour resembling that
of boxwood. By boiling this root with the seed in a copper vessel, the
medicament is prepared which is known by the name of lycion.[470] This
thorny shrub grows, also, on Mount Pelion;[471] this last kind is much
used for the purpose of adulterating the medicament above mentioned.
The root of the asphodel, ox-gall, wormwood, sumach, and the amurca of
olive oil, are also employed for a similar purpose. The best lycion
for medicinal purposes, is that which has a froth on its surface; the
Indians send it to us in leather bottles, made of the skin of the camel
or the rhinoceros. The shrub itself is known by some persons in Greece
under the name of the Chironian pyxacanthus.[472]



CHAP. 16. (8.)—MACIR.


Macir,[473] too, is a vegetable substance that is brought from India,
being a red bark that grows upon a large root, and bears the name of
the tree that produces it; what the nature of this tree is, I have not
been able to ascertain. A decoction of this bark, mixed with honey, is
greatly employed in medicine, as a specific for dysentery.



CHAP. 17.—SUGAR.


Arabia, too, produces sugar;[474] but that of India is the most
esteemed. This substance is a kind of honey, which collects in reeds,
white, like gum, and brittle to the teeth. The larger pieces are about
the size of a filbert; it is only employed, however, in medicine.



CHAP. 18.—TREES OF ARIANA, GEDROSIA, AND HYRCANIA.


On the frontiers of India is a country called Ariana, which produces
a thorny shrub,[475] rendered precious by the tears which it distils.
It bears some resemblance to myrrh, but is very difficult of access,
by reason of the thorns with which it is armed. Here, too, a poisonous
shrub is found, with a root like the radish,[476] and leaves like those
of the laurel. By its powerful odour it attracts horses, and was very
nearly depriving Alexander of all his cavalry upon his first arrival
there, an accident which also happened in Gedrosia. A thorny shrub[477]
has been also spoken of as a native of the same country, with leaves
like those of the laurel, the juice of which, if sprinkled upon the
eyes, is productive of blindness in all animals. Another plant is
also mentioned, with a most remarkable odour, and full of diminutive
serpents,[478] the sting of which is sure to cause instant death.
Onesicritus states, that in the vallies of Hyrcania, there is a tree
resembling the fig, and known as the occhus,[479] from which a honey
distils for two hours every morning.



CHAP. 19. (9.)—TREES OF BACTRIANA, BDELLIUM, OR BROCHON, OTHERWISE
MALACHA, OR MALDACON, SCORDASTUM. ADULTERATIONS USED IN ALL SPICES AND
AROMATICS; THE VARIOUS TESTS OF THEM AND THEIR RESPECTIVE VALUES.


In the vicinity, too, of India, is Bactriana, in which region we find
bdellium,[480] that is so highly esteemed. This tree is of a black
colour, and about the size of the olive; it has leaves like those of
the robur, and bears a fruit similar to that of the wild fig, and
in nature resembling a kind of gum. This fruit is by some persons
called brochon, by others malacha, and by others, again, maldacon.
When of a black colour, and rolled up in cakes, it bears the name of
hadrobolon. This substance ought to be transparent and the colour of
wax, odoriferous, unctuous when subjected to friction, and bitter
to the taste, though without the slightest acidity. When used for
sacred purposes, it is steeped in wine, upon which it emits a still
more powerful odour. The tree is a native of both India and Arabia,
as well as Media and Babylon; some persons give to the bdellium that
is imported by way of Media, the name of peraticum.[481] This last is
remarkable for its brittleness, while, at the same time, it is harder
and more bitter than the other kinds; that of India, on the other
hand, is moister, and gummy. This last sort is adulterated by means
of almonds, while the various other kinds are falsified with the bark
of scordastum, that being the name of a tree[482] the gum of which
strongly resembles bdellium. These adulterations, however, are to be
detected—and let it suffice to mention it here, in relation to all
other perfumes as well—by the smell, the colour, the weight, the taste,
and the action of fire. The bdellium of Bactriana is shining and dry,
and covered with numerous white spots resembling the finger-nails;
besides which, it should be of a certain weight, heavier or lighter
than which it ought not to be. The price of bdellium, in its pure
state, is three denarii per pound.



CHAP. 20.—TREES OF PERSIS.


Adjoining the countries which we have previously mentioned is Persis,
lying along the shores of the Red Sea, which, when describing[483] it,
we have mentioned as the Persian Sea, the tides of which penetrate far
into the land. The trees in these regions are of a marvellous nature;
for, corroded by the action of the salt, and bearing a considerable
resemblance to vegetable substances that have been thrown up and
abandoned by the tide, they are seen to embrace the arid sands of
the sea-shore with their naked roots, just like so many polypi. When
the tide rises, buffeted by the waves, there they stand, fixed and
immoveable; nay, more, at high water they are completely covered; a
fact which proves to conviction, that they derive their nutriment from
the salt contained in the water. The size of these trees is quite
marvellous; in appearance they strongly resemble the arbute; the fruit,
which on the outside is very similar to the almond, has a spiral kernel
within.[484]



CHAP. 21. (10.)—TREES OF THE ISLANDS OF THE PERSIAN SEA. THE COTTON
TREE.


In the same gulf, there is the island of Tylos,[485] covered with a
forest[486] on the side which looks towards the East, where it is
washed also by the sea at high tides. Each of the trees is in size as
large as the fig; the blossoms are of an indescribable sweetness, and
the fruit is similar in shape to a lupine, but so rough and prickly,
that it is never touched by any animal. On a more elevated plateau
of the same island, we find trees that bear wool, but of a different
nature from those of the Seres;[487] as in these trees the leaves
produce nothing at all, and, indeed, might very readily be taken for
those of the vine, were it not that they are of smaller size. They
bear a kind of gourd, about the size of a quince;[488] which, when
arrived at maturity, bursts asunder and discloses a ball of down, from
which a costly kind of linen cloth is made.

(11.) This tree is known by the name of gossypinus:[489] the smaller
island of Tylos, which is ten miles distant from the larger one,
produces it in even greater abundance.



CHAP. 22.—THE TREE CALLED CYNA. TREES FROM WHICH FABRICS FOR CLOTHING
ARE MADE IN THE EAST.


Juba states, that about a certain shrub there grows a woolly down, from
which a fabric is manufactured, preferable even to those of India. He
adds, too, that certain trees of Arabia, from which vestments are made,
are called cynæ, and that they have a leaf similar to that of the palm.
Thus do their very trees afford clothing for the people of India. In
the islands of Tylos, there is also another tree, with a blossom like
the white violet[490] in appearance, though four times as large, but it
is destitute of smell, a very remarkable fact in these climates.



CHAP. 23.—A COUNTRY WHERE THE TREES NEVER LOSE THEIR LEAVES.


There is also another tree similar to the preceding one, but with a
thicker foliage, and a blossom like the rose. This flower shuts[491] at
night, and, beginning to open towards sun-rise, appears in full blow
by mid-day; the natives are in the habit of saying that in this way
it goes to sleep. The same island bears also the palm, the olive, the
vine, and the fig, with various other kinds of fruit. None of the trees
in this island lose their leaves;[492] it is abundantly watered by cool
streams, and receives the benefit of rain.



CHAP. 24.—THE VARIOUS USEFUL PRODUCTS OF TREES.


Arabia, which is in the vicinity of these islands, requires that we
should make some distinction in its vegetable products, seeing that
here the various parts of trees which are employed for useful purposes
are the root, the branches, the bark, the juices, the gum, the wood,
the shoots, the blossoms, the leaves, and the fruit.



CHAP. 25. (12.)—COSTUS.


A root and a leaf, however, are the productions which are held in the
very highest estimation in India. The root is that of the costus;[493]
it has a burning taste in the mouth, and a most exquisite odour; in
other respects, the branches are good for nothing. In the island of
Patale,[494] situate at the very mouth of the river Indus, there
are two kinds of costus found, the black and the white; the last is
considered the best. The price of it is five denarii per pound.



CHAP. 26.—NARD. THE TWELVE VARIETIES OF THE PLANT.


Of the leaf, which is that of the nard,[495] it is only right to
speak somewhat more at length, as it holds the principal place among
our unguents. The nard is a shrub with a heavy, thick root, but
short, black, brittle, and yet unctuous as well; it has a musty
smell, too, very much like that of the cyperus, with a sharp, acrid
taste, the leaves being small, and growing in tufts. The heads of the
nard spread out into ears; hence it is that nard is so famous for
its two-fold production, the spike or ear, and the leaf. There is
another kind, again, that grows on the banks of the Ganges, but is
altogether condemned, as being good for nothing; it bears the name of
ozænitis,[496] and emits a fetid odour. Nard is adulterated with a sort
of plant called pseudo-nard,[497] which is found growing everywhere,
and is known by its thick, broad leaf, and its sickly colour, which
inclines to white. It is sophisticated, also, by being mixed with the
root of the genuine nard, which adds very considerably to its weight.
Gum is also used for the same purpose, antimony, and cyperus; or, at
least, the outer coat of the cyperus. Its genuineness is tested by its
lightness, the redness of its colour, its sweet smell, and the taste
more particularly, which parches the mouth, and leaves a pleasant
flavour behind it; the price of spikenard is one hundred denarii per
pound.

Leaf[498] nard varies in price according to the size; for that which
is known by the name of hadrosphærum, consisting of the larger leaves,
sells at forty denarii per pound; when the leaves are smaller, it is
called mesosphærum, and is sold at sixty. But that which is considered
the most valuable of all, is known as microsphærum, and consists of
the very smallest of the leaves; it sells at seventy-five denarii per
pound. All these varieties of nard have an agreeable odour, but it is
most powerful when fresh. If the nard is old when gathered, that which
is of a black colour is considered the best.

In our part of the world, the Syrian[499] nard is held in the next
highest esteem next to this; then the Gallic;[500] and in the
third place, that of Crete,[501] which by some persons is called
“agrion,” and by others “phu.” This last has exactly the leaf of the
olusatrum,[502] with a stalk a cubit in length, knotted, of a whitish
colour, inclining to purple, and a root that runs sideways; it is
covered, too, with long hair, and strongly resembles the foot of a
bird. Field nard is known by the name of baccar.[503] We shall have
further occasion to mention it when we come to speak of the flowers.
All these kinds of nard, however, are to be reckoned as herbs, with
the exception of Indian nard. Of these, the Gallic kind is pulled up
along with the root, and washed in wine; after which it is dried in
the shade, and wrapped up in paper, in small parcels. It is not very
different from the Indian nard, but is lighter than that of Syria;
the price at which it sells is three denarii per pound. The only way
of testing the leaves of all these varieties of nard, is to see that
they are not brittle and parched, instead of being dried naturally
and gradually. Together with the nard that grows in Gaul, there
always[504] springs up a herb, which is known by the name of hirculus,
or the “little goat,” on account of its offensive smell, it being very
similar to that of the goat. This herb, too, is very much used in the
adulteration of nard, though it differs from it in the fact that it has
no stem, and its leaves are smaller; the root, too, is not bitter, and
is entirely destitute of smell.



CHAP. 27. (13.)—ASARUM, OR FOAL-FOOT.


The herb asarum,[505] too, has the properties of nard, and, indeed,
by some persons is known as wild nard. It has a leaf, however, more
like that of the ivy, only that it is rounder and softer. The flower is
purple, the root very similar to that of the Gallic nard, and the seed
is like a grape. It is of a warm and vinous flavour, and blossoms twice
a year, growing upon hill sides that are densely shaded. The best kind
is that found in Pontus, and the next best that of Phrygia; that of
Illyricum being only of third-rate quality. The root is dug up when it
is just beginning to put forth its leaves, and then dried in the sun.
It very soon turns mouldy, and loses its properties. There has, also,
been lately found a certain herb in some parts of Greece, the leaves of
which do not differ in the slightest degree from those of the Indian
nard.



CHAP. 28.—AMOMUM.—AMOMIS.


The clustered amomum[506] is very extensively used; it grows upon a
kind of wild vine that is found in India, though some persons have
been of opinion that it is borne by a shrub, resembling the myrtle in
appearance, and about the same height as the palm. This plant, also,
is plucked along with the root, and is carefully pressed together with
the hands; for it very soon becomes brittle. That kind is held in the
highest esteem, the leaves of which bear a strong resemblance to those
of the pomegranate, being free from wrinkles, and of a red colour.
The second quality is that which is of a pallid hue. That which has a
green, grassy appearance, is not so good, and the white is the worst of
all; it assumes this appearance when old. The price of clustered amomum
is sixty denarii per pound, but in dust it sells at only forty-nine.
Amomum is produced, also, in that part of Armenia which is known as
Otene; as, also, in Media and Pontus. It is adulterated with the leaves
of the pomegranate and a solution of gum, which is employed in order
to make the leaves adhere and form clusters, like those of the grape.

There is another substance, also, which is known by the name of
amomis;[507] it is not so full of veins as amomum, harder, and not so
odoriferous; from which it would appear, either that it is altogether a
different plant, or else that it is amomum gathered in an unripe state.



CHAP. 29.—CARDAMOMUM.


Similar to these substances, both in name as well as the shrub which
produces it, is the cardamomum,[508] the seeds of which are of an
oblong shape. It is gathered in the same manner both in India and
Arabia. There are four different kinds of cardamomum. That which is of
a very green colour, unctuous, with sharp angles, and very difficult
to break, is the most highly esteemed of all. The next best is of a
reddish white tint, while that of third-rate quality is shorter and
blacker, the worst of all being mottled and friable, and emitting but
little smell; which, in its genuine[509] state ought to be very similar
to costum. Cardamomum grows also in Media. The price of the best is
three denarii per pound.



CHAP. 30.—THE COUNTRY OF FRANKINCENSE.


Next in affinity to cardamomum would have been cinnamomum,[510] and
this we should have now proceeded to speak of, were it not more
convenient first to make mention of the treasures of Arabia, and the
reasons for which that country has received the names of “Happy” and
“Blest.” The chief productions of Arabia are frankincense and myrrh,
which last it bears in common with the country of the Troglodytæ.
(14.) There is no country in the world that produces frankincense
except Arabia,[511] and, indeed, not the whole of that. Almost in the
very centre of that region, are the Atramitæ,[512] a community of the
Sabæi, the capital of whose kingdom is Sabota, a place situate on
a lofty mountain. At a distance of eight stations from this is the
incense-bearing region, known by the name of Saba. The Greeks say that
the word signifies a “secret mystery.” This district looks towards
the north-east, and is rendered inaccessible by rocks on every side,
while it is bounded on the right by the sea, from which it is shut
out by cliffs of tremendous height. The soil of this territory is
said to be of a milky white, a little inclining to red. The forests
extend twenty schœni in length, and half that distance in breadth. The
length of the schœnus, according to the estimate of Eratosthenes, is
forty stadia, or, in other words, five miles; some persons, however,
have estimated the schœnus at no more than thirty-two stadia. In this
district some lofty hills take their rise, and the trees, which spring
up spontaneously, run downwards along the declivities to the plains. It
is generally agreed that the soil is argillaceous, and that the springs
which there take their rise are but few in number, and of a nitrous
quality. Adjoining are the Minæi, the people of another community,
through whose country is the sole transit for the frankincense, along a
single narrow road. The Minæi were the first people who carried on any
traffic in frankincense, which they still do to a greater extent than
any other persons, and hence it is that it has received the appellation
of “Minæan.” It is the Sabæi alone, and no other people among the
Arabians, that behold the incense-tree; and, indeed, not all of them,
for it is said that there are not more than three thousand families
which have a right to claim that privilege, by virtue of hereditary
succession; and that for this reason those persons are called sacred,
and are not allowed, while pruning the trees or gathering the harvest,
to receive any pollution, either by intercourse with women, or coming
in contact with the dead; by these religious observances it is that
the price of the commodity is so considerably enhanced. Some persons,
however, say, that the right of gathering incense in the forests
belongs to all these people in common, while others again state, that
they take their turns year by year.



CHAP. 31.—THE TREES THAT BEAR FRANKINCENSE.


Nor is it by any means agreed what is the appearance of the
incense-tree. We have sent several expeditions against Arabia, and
the Roman arms have penetrated into the greater part of that country;
indeed, Caius Cæsar,[513] the son of Augustus, even earned considerable
renown there; and yet this tree has been described by no Latin writer,
at least that I know of. The descriptions given of it by the Greek
writers vary very considerably: some of them say that it has exactly
the leaf of the pear-tree, only somewhat smaller, and of a grass-green
colour. Others, again, say, that it has a rather reddish leaf, like
that of the mastich, and others, that it is a kind of terebinth,[514]
and that King Antigonus, to whom a branch of it was brought, was of
that opinion. King Juba, in the work which he wrote and dedicated to
Caius Cæsar, the son of Augustus, who was inflamed by the wide-spread
renown of Arabia, states, that the tree has a spiral stem, and that
the branches bear a considerable resemblance to those of the Pontic
maple, while it secretes a sort of juice very similar to that of the
almond-tree. Such, he says, is the appearance of the tree as seen in
Carmania and Egypt, where it was introduced and planted under the
auspices of the Ptolemies when reigning there. It is well known that
it has a bark not unlike that of the laurel, and, indeed, some persons
have asserted that their leaves are similar. At all events, such was
the case with the tree as it grew at Sardes: for the kings of Asia also
took considerable care to have it planted there. The ambassadors who
in my time have come to Rome from Arabia, have made all these matters
more uncertain, even, than they were before; a thing at which we may
justly be surprised, seeing that some sprigs even of the incense-tree
have been brought among us, from which we have some reason to conclude
that the parent tree is round and tapering, and that it puts forth its
shoots from a trunk that is entirely free from knots.



CHAP. 32.—VARIOUS KINDS OF FRANKINCENSE.


In former times, when they had fewer opportunities of selling it, they
used to gather the frankincense only once a year; but at the present
day, as there is a much greater demand for it, there is a second crop
as well. The first, and what we may call the natural, vintage, takes
place about the rising of the Dog-star, a period when the heat is most
intense; on which occasion they cut the tree where the bark appears
to be the fullest of juice, and extremely thin, from being distended
to the greatest extent. The incision thus made is gradually extended,
but nothing is removed; the consequence of which is, that an unctuous
foam oozes forth, which gradually coagulates and thickens. When the
nature of the locality requires it, this juice is received upon mats
of palm-leaves, though in some places the space around the tree is
made hard by being well rammed down for the purpose. The frankincense
that is gathered after the former method, is in the purest state,
though that which falls on the ground is the heaviest in weight: that
which adheres to the tree is pared off with an iron instrument, which
accounts for its being found mingled with pieces of bark.

The forest is allotted in certain portions, and such is the mutual
probity of the owners, that it is quite safe from all depredation;
indeed, there is no one left to watch the trees after the incisions
are made, and yet no one is ever known to plunder his neighbour. But,
by Hercules! at Alexandria, where the incense is dressed for sale, the
workshops can never be guarded with sufficient care; a seal is even
placed upon the workmen’s aprons, and a mask put upon the head, or
else a net with very close meshes, while the people are stripped naked
before they are allowed to leave work. So true it is that punishments
afford less security among us than is to be found by these Arabians
amid their woods and forests! The incense which has accumulated during
the summer is gathered in the autumn: it is the purest of all, and
is of a white colour. The second gathering takes place in spring,
incisions being made in the bark for that purpose during the winter:
this, however, is of a red colour, and not to be compared with the
other incense. The first, or superior kind of incense, is known as
carfiathum,[515] the latter is called dathiathum. It is thought, also,
that the incense which is gathered from the tree while young is the
whitest, though the produce of the old trees has the most powerful
smell; some persons, too, have an impression that the best incense is
found in the islands, but Juba asserts that no incense at all is grown
there.

That incense which has hung suspended in globular drops is known to us
as “male” frankincense, although it is mostly the case that we do not
use the term “male” except in contradistinction to the word “female:”
it has been attributed, however, to religious scruples, that the name
of the other sex was not employed as a denomination for this substance.
Some persons, again, are of opinion that the male frankincense has been
so called from its resemblance[516] to the testes of the male. The
incense, however, that is the most esteemed of all is that which is
mammose, or breast-shaped, and is produced when one drop has stopped
short, and another, following close upon it, has adhered, and united
with it. I find it stated that one of these lumps used to make quite a
handful, at a time when men displayed less eagerness to gather it, and
it was allowed more time to accumulate. The Greeks call such lumps as
these by the name of stagonia[517] and atomus,[518] while the smaller
pieces are called orobia.[519] The fragments which are broken off by
shaking the tree are known to us as manna.[520] Even at the present
day, however, there are drops found which weigh one-third of a mina,
or, in other words, twenty-eight denarii. Alexander the Great, when
a boy, was on one occasion loading the altars with frankincense with
the greatest prodigality, upon which his tutor Leonides[521] remarked
to him that it would be time to worship the gods in such a lavish
manner as that, when he had conquered the countries that produced the
frankincense. After Alexander had conquered Arabia, he despatched
to Leonides a ship freighted with frankincense, and sent him word,
requesting that he would now worship the gods without stint or limit.

The incense, after being collected, is carried on camels’ backs
to Sabota,[522] at which place a single gate is left open for its
admission. To deviate from the high road while conveying it, the laws
have made a capital offence. At this place the priests take by measure,
and not by weight, a tenth part in honour of their god, whom they call
Sabis;[523] indeed, it is not allowable to dispose of it before this
has been done: out of this tenth the public expenses are defrayed,
for the divinity generously entertains all those strangers who have
made a certain number of days’ journey in coming thither. The incense
can only be exported through the country of the Gebanitæ, and for
this reason it is that a certain tax is paid to their king as well.
Thomna,[524] which is their capital, is distant from Gaza, a city of
Judæa, on the shores of our sea, 4436[525] miles, the distance being
divided into sixty-five days’ journey by camel. There are certain
portions also of the frankincense which are given to the priests and
the king’s secretaries: and in addition to these, the keepers of it,
as well as the soldiers who guard it, the gate-keepers, and various
other employes, have their share as well. And then besides, all along
the route, there is at one place water to pay for, at another fodder,
lodging at the stations, and various taxes and imposts besides; the
consequence of which is, that the expense for each camel before it
arrives at the shores of our[526] sea is six hundred and eighty-eight
denarii; after all this, too, there are certain payments still to be
made to the farmers of the revenue of our empire. Hence it is that a
pound of the best frankincense sells at six denarii, the second quality
five, and the third three. Among us, it is adulterated with drops of
white resin, a substance which bears a strong resemblance to it: but
the fraud may be easily detected by the methods which have been already
mentioned.[527] It is tested by the following qualities; its whiteness,
size, brittleness, and the readiness with which it takes fire when
placed on heated coals; in addition to which, it should not give to the
pressure of the teeth, but from its natural brittleness crumble all to
pieces.



CHAP. 33. (15.)—MYRRH.


According to some authors, myrrh[528] is the produce of a tree that
grows in the same forests as the incense-tree, though most say that
they grow in different places: but the fact is that myrrh grows in many
parts of Arabia, as will be seen when we come to speak of the several
varieties of it. A sort that is highly esteemed is brought from the
islands[529] also, and the Sabæi even cross the sea to procure it in
the country of the Troglodytæ. It is grown also by being transplanted,
and when thus cultivated is greatly preferred to that which is grown in
the forests. The plant is greatly improved by raking and baring the
roots; indeed, the cooler the roots are kept, the better it is.



CHAP. 34.—THE TREES WHICH PRODUCE MYRRH.


The tree grows to the height of five cubits, and has thorns upon
it: the trunk is hard and spiral, and thicker than that of the
incense-tree, and much more so at the root than at the upper part of
the tree. Some authors have said that the bark is smooth like that of
the arbute, others, that it is rough and covered with thorns: it has
the leaf of the olive, but more wavy, with sharp points at the edges:
Juba says, however, that it resembles the leaf of the olusatrum. Some
again say that it resembles the juniper,[530] only that it is rougher
and bristling with thorns, and that the leaves are of a rounder shape,
though they have exactly the taste of the juniper. There have been some
writers who have incorrectly asserted that both myrrh and frankincense
are the product of the same tree.



CHAP. 35.—THE NATURE AND VARIOUS KINDS OF MYRRH.


Incisions are made in the myrrh-tree also twice a year, and at the same
season as in the incense-tree; but in the case of the myrrh-tree they
are all made the way up from the root as far as the branches which are
able to bear it. The tree spontaneously exudes, before the incision
is made, a liquid which bears the name of stacte,[531] and to which
there is no myrrh that is superior. Second only in quality to this is
the cultivated myrrh: of the wild or forest kind, the best is that
which is gathered in summer. They give no tithes of myrrh to the god,
because it is the produce of other countries as well; but the growers
pay the fourth part of it to the king of the Gebanitæ. Myrrh is bought
up indiscriminately by the common people, and then packed into bags;
but our perfumers separate it without any difficulty, the principal
tests of its goodness being its unctuousness and its aromatic smell.
(16.) There are several[532] kinds of myrrh; the first among the wild
myrrhs is the Troglodytic; and the next are the Minæan, which includes
the Atramitic, and that of Ausaritis, in the kingdom of the Gebanitæ.
A third kind is the Dianitic,[533] and a fourth is the mixed myrrh,
or “all-sorts;”[534] a fifth, again, is the Sambracenian, which is
brought from a city in the kingdom of the Sabæi, near the sea; and a
sixth is known by the name of Dusaritic. There is a white myrrh also,
which is produced in only one spot, and is carried for sale to the city
of Messalum. The Troglodytic myrrh is tested by its unctuousness, and
its peculiarly dry appearance: it has also a dirty, rough look with
it, but is more acrid than the other kinds. The Sambracenian myrrh has
none of these faults, and is more sightly in appearance than any of
them, though it is far from being so powerful. In general, however, the
proof of its goodness consists in its being separated in little pieces
of uneven shape, formed by the concretion of a whitish juice, which
dries up little by little. When broken it ought to exhibit white marks
like the finger-nails, and to be slightly bitter to the taste. That
of second quality is of a mottled appearance within; while of worse
quality is that which is of a black colour within; the very worst of
all is that which is black on the outside as well.

The price of myrrh varies according to the number of purchasers.
Stacte is sold at prices which vary from three denarii to forty per
pound, while the very highest price of the cultivated myrrh is eleven
denarii. Erythræan myrrh, the same, it is pretended, as Arabian myrrh,
is sixteen denarii per pound, Troglodytic also, is sixteen denarii;
and that known as odoraria, or odoriferous myrrh, sells at fourteen.
Myrrh is adulterated with pieces of mastich, and other gums; it is also
drugged with the juice of wild cucumber, in order to produce a certain
bitterness, and with litharge for the purpose of increasing its weight.
Other sophistications may be discovered on tasting it, and the gum will
adhere to the teeth. But the cleverest mode of adulterating it is with
Indian myrrh,[535] a substance which is gathered from a certain prickly
shrub which grows there. This is the only thing that India produces of
worse quality than the corresponding produce of other countries: they
may, however, be very easily distinguished, that of India being so very
much inferior.



CHAP. 36. (17.)—MASTICH.


The transition, therefore,[536] is very easy to mastich, which grows
upon another prickly shrub of India and Arabia, known by the name of
laina. Of mastich as well there are two different kinds; for in Asia
and Greece there is also found a herb which puts forth leaves from the
root, and bears a thistly head, resembling an apple, and full of seeds.
Upon an incision being made in the upper part of this plant drops
distil from it, which can hardly be distinguished from the genuine
mastich. There is, again, a third sort,[537] found in Pontus, but more
like bitumen than anything else. The most esteemed, however, of all
these, is the white mastich of Chios, the price of which is twenty
denarii per pound, while the black mastich sells at twelve. It is said
that the mastich of Chios exudes from the lentisk in the form of a sort
of gum: like frankincense, it is adulterated with resin.



CHAP. 37.—LADANUM AND STOBOLON.


Arabia, too, still boasts of her ladanum.[538] Many writers have
stated that this substance is the fortuitous result of an accidental
injury inflicted upon a certain odoriferous plant, under the following
circumstances: the goat, they say, which is in general an animal that
is extremely mischievous to foliage, is particularly fond of the shrubs
that are odoriferous, as if, indeed, it were really sensible of the
value that is set upon them. Hence it is that as the animal crops the
sprouting shoots of the branches which are swollen with a liquid juice
of remarkable sweetness, these juices drop and become mingled together,
and are then wiped up by the shaggy hairs of its unlucky beard. Being
there mingled with the dust, these juices form knots and tufts, and
are then dried by the sun; and hence the circumstance is accounted for
that in the ladanum which is imported by us we find goats’ hairs. This,
however, we are told, occurs nowhere but among the Nabatæi,[539] a
people of Arabia, who border upon Syria. The more recent writers call
this substance by the name of stobolon, and state that in the forests
of Arabia the trees are broken by the goats while browzing, and that
the juices in consequence adhere to their shaggy hair; but the genuine
ladanum, they assure us, comes from the island of Cyprus. I make
mention of this in order that every kind of odoriferous plant may be
taken some notice of, even though incidentally and not in the order of
their respective localities. They say also that this Cyprian ladanum
is collected in the same manner as the other, and that it forms a kind
of greasy substance or œsypum,[540] which adheres to the beards and
shaggy legs of the goats; but that it is produced from the flowers of
the ground-ivy, which they have nibbled when in quest of their morning
food, a time at which the whole island is covered with dew. After this,
they say, when the fogs are dispersed by the sun, the dust adheres to
their wet coats, and the ladanum is formed, which is afterwards taken
off of them with a comb.

There are some authors who give to the plant of Cyprus, from which it
is made, the name of leda; and hence it is that we find it also called
ledanum. They say, also, that a viscous substance settles upon this
plant, and, that, by the aid of strings wound around it, its leaves
are rolled into balls, from which a kind of cake is made. Hence it is,
that in Cyprus, as well as in Arabia, there are two kinds of ladanum;
the one natural, and mingled with earth, and the other artificial: the
former is friable, while the latter is of a viscous nature.

It is stated, also, that this substance is the produce of a shrub
originally found in Carmania, and propagated by plants, by order of
the Ptolemies, in the parts beyond Egypt; while other authorities are
found, which say that it grows on the incense tree, and is gathered
like gum, from incisions made in the bark, after which it is collected
in bags of goat-skin. That of the most approved quality, sells at the
rate of forty asses per pound. Ladanum is adulterated with myrtle
berries, and filth taken from the fleeces of other animals besides the
goat. If genuine, it ought to have a wild and acrid smell, in some
measure redolent of the desert places where it is produced: it is dry
and parched in appearance, but becomes soft the moment it is touched.
When ignited, it gives a brilliant flame, and emits a powerful but
pleasant odour; if mixed with myrtle berries, its spurious quality is
immediately discovered by their crackling in the fire. In addition to
this, the genuine ladanum has more grits, or stony particles, adhering
to it, than dust.



CHAP. 38.—ENHÆMON.


In Arabia, too, the olive-tree distils a sort of tear, with which
the Indians make a medicament, known by the Greeks as enhæmon;[541]
it is said to be of wonderful efficacy in contracting and healing
wounds and sores. These trees,[542] situate on the coasts there, are
covered by the sea at high water, without the berries suffering the
slightest injury, although it is a well-known fact, that the salt
collects upon the leaves. All these trees are peculiar to Arabia,
but it has some few besides, in common with other countries, of which
we shall make mention elsewhere, the kinds growing in Arabia being of
inferior quality. The people of that country have a wonderful regard
for the perfumes of foreign parts, and import them from places at a
considerable distance; so soon are men sated with what they have of
their own, and so covetous are they of what belongs to others.



CHAP. 39.—THE TREE CALLED BRATUS.


Hence it is, that they import from the country of the Elymæi[543] the
wood of a tree called bratus,[544] which is similar in appearance to
a spreading cypress. Its branches are of a whitish colour, and the
wood, while burning, emits a pleasant odour; it is highly spoken of by
Claudius Cæsar, in his History,[545] for its marvellous properties. He
states that the Parthians sprinkle the leaves of it in their drink,
that its smell closely resembles that of the cedar, and that the smoke
of it is efficacious in counteracting the effects of smoke emitted
by other wood. This tree grows in the countries that lie beyond the
Pasitigris,[546] in the territory of the city of Sittaca, upon Mount
Zagrus.



CHAP. 40.—THE TREE CALLED STOBRUM.


The Arabians import from Carmania also the wood of a tree called
stobrum,[547] which they employ in fumigations, by steeping it in
palm wine, and then setting fire to it. The odour first ascends to
the ceiling, and then descends in volumes to the floor; it is very
agreeable, but is apt to cause an oppression of the head, though
unattended with pain; it is used for promoting sleep in persons when
ill. For these branches of commerce, they have opened the city of
Carræ,[548] which serves as an entrepot, and from which place they
were formerly in the habit of proceeding to Gabba, at a distance of
twenty days’ journey, and thence to Palæstina, in Syria. But at a
later period, as Juba informs us, they began to take the road, for
the purposes of this traffic, to Charax[549] and the kingdom of the
Parthians. For my own part, it would appear to me that they were in the
habit of importing these commodities among the Persians, even before
they began to convey them to Syria or Egypt; at least Herodotus bears
testimony to that effect, when he states that the Arabians paid a
yearly tribute of one thousand talents, in frankincense, to the kings
of Persia.

From Syria they bring back storax,[550] which, burnt upon the hearth,
by its powerful smell dispels that loathing of their own perfumes with
which these people are affected. For in general there are no kinds of
wood in use among them, except those which are odoriferous; indeed, the
Sabæi are in the habit of cooking their food with incense wood, while
others, again, employ that of the myrrh tree; and hence, the smoke and
smells that pervade their cities and villages are no other than the
very same which, with us, proceed from the altars. For the purpose of
qualifying this powerful smell, they burn storax in goat-skins, and
so fumigate their dwellings. So true it is, that there is no pleasure
to be found, but what the continual enjoyment of it begets loathing.
They also burn this substance to drive away the serpents, which are
extremely numerous in the forests which bear the odoriferous trees.



CHAP. 41. (18.)—WHY ARABIA WAS CALLED “HAPPY.”


Arabia produces neither cinnamon nor cassia; and this is the country
styled “Happy” Arabia! False and ungrateful does she prove herself
in the adoption of this surname, which she would imply to have been
received from the gods above; whereas, in reality, she is indebted
for it far more to the gods below.[551] It is the luxury which is
displayed by man, even in the paraphernalia of death, that has rendered
Arabia thus “happy;” and which prompts him to burn with the dead what
was originally understood to have been produced for the service of the
gods. Those who are likely to be the best acquainted with the matter,
assert that this country does not produce, in a whole year, so large a
quantity of perfumes as was burnt by the Emperor Nero at the funeral
obsequies of his wife Poppæa. And then let us only take into account
the vast number of funerals that are celebrated throughout the whole
world each year, and the heaps of odours that are piled up in honour
of the bodies of the dead; the vast quantities, too, that are offered
to the gods in single grains; and yet, when men were in the habit of
offering up to them the salted cake, they did not show themselves any
the less propitious; nay, rather, as the facts themselves prove, they
were even more favourable to us than they are now. But it is the sea of
Arabia that has even a still greater right to be called “happy,” for it
is this that furnishes us with pearls. At the very lowest computation,
India, the Seres, and the Arabian Peninsula, withdraw from our empire
one hundred millions of sesterces every year—so dearly do we pay for
our luxury and our women. How large a portion, too, I should like to
know, of all these perfumes, really comes to the gods of heaven, and
the deities of the shades below?



CHAP. 42. (19.)—CINNAMOMUM.[552] XYLOCINNAMUM.


Fabulous antiquity, and Herodotus[553] more particularly, have related
that cinnamomum and cassia are found in the nests of certain birds, and
principally that of the phœnix, in the districts where Father Liber was
brought up; and that these substances either fall from the inaccessible
rocks and trees in which the nests are built, in consequence of the
weight of the pieces of flesh which the birds carry up, or else are
brought down by the aid of arrows loaded with lead. It is said, also,
that cassia grows around certain marshes, but is protected by a
frightful kind of bat armed with claws, and by winged serpents as well.
All these tales, however, have been evidently invented for the purpose
of enhancing the prices of these commodities. Another story, too, bears
them company, to the effect that under the rays of the noon-day sun,
the entire peninsula exhales a certain indescribable perfume composed
of its numerous odours; that the breezes, as they blow from it, are
impregnated with these odours, and, indeed, were the first to announce
the vicinity of Arabia to the fleets of Alexander the Great, while
still far out at sea. All this, however, is false; for cinnamomum,
or cinnamum, which is the same thing, grows in the country of the
Æthiopians,[554] who are united by intermarriages with the Troglodytæ.
These last, after buying it of their neighbours, carry it over vast
tracts of sea, upon rafts, which are neither steered by rudder, nor
drawn or impelled by oars or sails. Nor yet are they aided by any of
the resources of art, man alone, and his daring boldness, standing
in place of all these; in addition to which, they choose the winter
season, about the time of the equinox, for their voyage, for then a
south easterly wind is blowing; these winds guide them in a straight
course from gulf to gulf, and after they have doubled the promontory
of Arabia, the north east wind carries them to a port of the Gebanitæ,
known by the name of Ocilia.[555] Hence it is that they steer for this
port in preference; and they say that it is almost five years before
the merchants are able to effect their return, while many perish on the
voyage. In return for their wares, they bring back articles of glass
and copper, cloths, buckles, bracelets, and necklaces; hence it is that
this traffic depends more particularly upon the capricious tastes and
inclinations of the female sex.

The cinnamon shrub[556] is only two cubits in height, at the most, the
lowest being no more than a palm in height. It is about four fingers
in breadth, and hardly has it risen six fingers from the ground,
before it begins to put forth shoots and suckers. It has then all the
appearance of being dry and withered, and while it is green it has no
odour at all. The leaf is like that of wild marjoram, and it thrives
best in dry localities, being not so prolific in rainy weather; it
requires, also, to be kept constantly clipped. Though it grows on level
ground, it thrives best among tangled brakes and brambles, and hence
it is extremely difficult to be gathered. It is never gathered unless
with the permission of the god, by whom some suppose Jupiter to be
meant; the Æthiopians, however, call him Assabinus.[557] They offer the
entrails of forty-four oxen, goats, and rams, when they implore his
permission to do so, but after all, they are not allowed to work at it
before sunrise or after sunset. A priest divides the branches with a
spear, and sets aside one portion of them for the god; after which, the
dealer stores away the rest in lumps. There is another account given,
which states that a division is made between the gatherers and the
sun, and that it is divided into three portions, after which lots are
twice drawn, and the share which falls to the sun is left there, and
forthwith ignites spontaneously.

The thinnest parts in the sticks, for about a palm in length, are
looked upon as producing the finest cinnamon; the part that comes next,
though not quite so long, is the next best, and so on downwards. The
worst of all is that which is nearest the roots, from the circumstance
that in that part there is the least bark, the portion that is the most
esteemed: hence it is that the upper part of the tree is preferred,
there being the greatest proportion of bark there. As for the wood, it
is held in no esteem at all, on account of the acrid taste which it
has, like that of wild marjoram; it is known as xylocinnamum.[558] The
price of cinnamomum is ten denarii per pound. Some writers make mention
of two kinds of cinnamon, the white and the black: the white was the
one that was formerly preferred, but now, on the contrary, the black is
held in the highest estimation, and the mottled, even, is preferred to
the white. The most certain test, however, of the goodness of cinnamon
is its not being rough, and the fact that the pieces when rubbed
together do not readily crumble to powder. That which is soft is more
particularly rejected, which is the case, also, when the outer bark too
readily falls off.

The right of regulating the sale of the cinnamon belongs solely
to the king of the Gebanitæ, who opens the market for it by public
proclamation. The price of it was formerly as much as a thousand
denarii per pound; which was afterwards increased to half as much
again, in consequence, it is said, of the forests having been set
on fire by the barbarians, from motives of resentment; whether this
took place through any injustice exercised by those in power, or only
by accident, has not been hitherto exactly ascertained. Indeed, we
find it stated by some authors, that the south winds that prevail in
these parts are sometimes so hot as to set the forests on fire. The
Emperor Vespasianus Augustus was the first to dedicate in the temples
of the Capitol and the goddess Peace chaplets of cinnamon inserted in
embossed[559] gold. I, myself, once saw in the temple of the Palatium,
which his wife Augusta[560] dedicated to her husband the late emperor
Augustus, a root of cinnamon of great weight, placed in a patera of
gold: from it drops used to distil every year, which congealed in hard
grains. It remained there until the temple was accidentally destroyed
by fire.



CHAP. 43.—CASSIA.


Cassia[561] is a shrub also, which grows not far from the plains where
cinnamon is produced, but in the mountainous localities; the branches
of it are, however, considerably thicker, than those of cinnamon. It
is covered with a thin skin rather than a bark, and, contrary to what
is the case with cinnamon, it is looked upon as the most valuable when
the bark falls off and crumbles into small pieces. The shrub is three
cubits in height, and the colours which it assumes are threefold:
when it first shoots from the ground, for the length of a foot, it is
white; after it has attained that height, it is red for half a foot,
and beyond that it is black. This last is the part that is held in the
highest esteem, and next to it the portion that comes next, the white
part being the least valued of all. They cut the ends of the branches
to the length of two fingers, and then sew them in the fresh skins
of cattle that have been killed expressly for the purpose; the object
being that the skins may putrefy, and the maggots generated thereby
may eat away the woody parts, and so excavate[562] the bark; which
is so intensely bitter, that it is quite safe from their attacks.
That which is the freshest is the most highly esteemed; it has a very
delicate smell, and is so extremely hot to the taste, that it may be
said to burn the tongue, rather than gradually warm the mouth. It is
of a purple colour, and though of considerable volume, weighs but very
little in comparison; the outer coat forms into short tubes which are
by no means easily broken: this choice kind of cassia, the barbarians
call by the name of lada. There is another sort, again, which is
called balsamodes,[563] because it has a smell like that of balsam,
but it is bitter; for which reason it is more employed for medicinal
purposes, just as the black cassia is used for unguents. There is no
substance known that is subject to greater variations in price: the
best qualities sell at fifty denarii per pound, others, again, at five.

(20.) To these varieties the dealers have added another, which they
call daphnoides,[564] and give it the surname of isocinnamon;[565]
the price at which it sells is three hundred denarii per pound. It is
adulterated with storax, and, in consequence of the resemblance of
the bark, with very small sprigs of laurel. Cassia is also planted in
our[566] part of the world, and, indeed, at the extreme verge of the
Empire, on the banks of the river Rhenus, where it flourishes when
planted in the vicinity of hives of bees. It has not, however, that
scorched colour which is produced by the excessive heat of the sun; nor
has it, for the same reason, a similar smell to that which comes from
the south.



CHAP. 44.—CANCAMUM AND TARUM.


From the confines of the country which produces cinnamon and cassia,
cancamum[567] and tarum[568] are imported; but these substances are
brought by way of the Nabatæan Troglodytæ, a colony of the Nabatæi.



CHAP. 45. (21.)—SERICHATUM AND GABALIUM.


Thither, too, are carried serichatum[569] and gabalium, aromatics
which the Arabians rear for their own consumption, and which are only
known by name in our part of the world, though they grow in the same
country as cinnamon and cassia. Still, however, serichatum does reach
us occasionally, and is employed by some persons in the manufacture of
unguents. It is purchased at the rate of six denarii per pound.



CHAP. 46.—MYROBALANUM.


In the country of the Troglodytæ, the Thebais, and the parts of Arabia
which separate Judæa from Egypt, myrobalanum[570] is commonly found; it
is provided by Nature for unguents, as from its very name would appear.
From its name, also, it is evident that it is the nut of a tree, with
a leaf similar to that of the heliotropium, which we shall have to
mention when speaking of the herbs. The fruit of this tree is about the
size of a filbert. The kind that grows in Arabia is known as Syriaca,
and is white, while, on the other hand, that which grows in the Thebais
is black: the former is preferred for the quality of the oil extracted
from it, though that which is produced in the Thebais yields it in
larger quantities. Among these various kinds, that which is sent from
the country of the Troglodytæ is the worst of all. There are some
persons who prefer that of Æthiopia[571] to all of these, the nut of
which is black, and not oleaginous; it has only a very small kernel,
but the liquid which is extracted from it is more odoriferous than
that of the other kinds; it grows, too, in a champaign, open country.
It is said that the Egyptian nut is even more oleaginous, being of a
reddish colour with a thicker shell, and that the plant, although it
grows in wet, marshy spots, is shorter and drier than the other kinds.
The Arabian nut, again, is said to be of a green colour and of smaller
size, but harder and more compact, from the circumstance that it grows
in mountainous districts. The best of all, however, is that of Petra,
which comes from a city mentioned[572] on a previous occasion; it has
a black shell, but the kernel is white. The perfumers, however, only
extract the juices from the shells; but medical men pound the kernels,
pouring warm water on them, little by little, as they do it.



CHAP. 47. (22.)—PHŒNICOBALANUS.


The fruit of the palm in Egypt, which is known by the name of
adipsos,[573] is put to a similar use in unguents, and is held next
in esteem after the myrobalanum. It is of a green colour, has exactly
the smell of a quince, and has no stone or nut within. It is gathered
a little before it begins to ripen. That which is left ungathered is
known as phœnicobalanus;[574] it turns black, and has a tendency to
inebriate the person who eats of it. The price of myrobalanum is two
denarii per pound. The shop-keepers give this name also to the dregs of
the unguent that is made with it.



CHAP. 48.—THE SWEET-SCENTED CALAMUS;[575] THE SWEET-SCENTED RUSH.


Scented calamus also, which grows in Arabia, is common to both India
and Syria, that which grows in the last country being superior to
all the rest. At a distance of one hundred and fifty stadia from the
Mediterranean, between Mount Libanus and another mountain of no note
(and not, as some have supposed, Antilibanus), there is a valley of
moderate size, situate in the vicinity of a lake, the marshy swamps of
which are dried up every summer. At a distance of thirty stadia from
this lake grow the sweet-scented calamus and rush. We shall here make
some further mention of this rush as well, although we have set apart
another Book for plants of that description, seeing that it is our
object here to describe all the different materials used for unguents.
These plants differ in appearance in no respect from others of their
kind; but the calamus, which has the more agreeable smell of the two,
attracts by its odour at a considerable distance, and is softer to the
touch than the other. The best is the kind which is not so brittle, but
breaks into long flakes, and not short, like a radish. In the hollow
stalk there is a substance like a cobweb, which is generally known by
the name of the “flower:” those plants which contain the most of it are
esteemed the best. The other tests of its goodness are its being of a
black colour—those which are white not being esteemed; besides which,
to be of the very best quality it should be short, thick, and pliant
when broken. The price of the scented calamus is eleven, and of the
rush fifteen denarii per pound. It is said that the sweet-scented rush
is to be met with also in Campania.



CHAP. 49.—HAMMONIACUM.


We have now departed from the lands which look towards the ocean to
enter upon those which have an aspect towards our seas. (23.) Africa,
which lies below Æthiopia, distils a tear-like gum in its sands, called
hammoniacum,[576] the name of which has passed to the oracle of Hammon,
situate near the tree which produces it. This substance, which is also
called metopion,[577] bears a strong resemblance to a resin or a gum.
There are two kinds of ammoniacum; that to which the name is given of
thrauston, and which bears a resemblance to male frankincense, being
the kind that is the most esteemed, and that which is known as phyrama,
being of an unctuous and resinous nature. This substance is adulterated
by means of sand, which has all the appearance of having adhered to
it during its growth: hence it is greatly preferred when the pieces
are extremely small, and in the purest state possible. The price of
hammoniacum of the best quality is forty asses per pound.



CHAP. 50.—SPHAGNOS.


Below these countries, and in the province of Cyrenaica, the perfume
called sphagnos[578] is found in the highest state of perfection: there
are some who call it by the name of bryon. The sphagnos of Cyprus
holds the second rank, and that of Phœnicia the third. It is said
that this plant is produced in Egypt also, and in Gaul as well, and I
see no reason to doubt that such is the fact, for this name is given
to certain white shaggy tufts upon trees, such as we often see upon
the quercus: those, however, of which we are speaking, emit a most
exquisite odour. The most esteemed of all are the whitest, and those
situate at the greatest height upon the tree. Those of second quality
are red, while those which are black are not of the slightest value.
The sphagnos, too, that is produced on islands and among rocks,[579] is
held in no esteem, as well as all those varieties which have the odour
of the palm-tree, and not that which is so peculiarly their own.



CHAP. 51.—CYPROS.


The cyprus[580] is a tree of Egypt, with the leaves of the
ziziphus,[581] and seeds like coriander,[582] white and odoriferous.
These seeds are boiled in olive oil, and then subjected to pressure;
the product is known to us as cypros. The price of it is five denarii
per pound. The best is that produced on the banks of the Nile, near
Canopus, that of second quality coming from Ascalon in Judæa, and the
third in estimation for the sweetness of its odour, from the island
of Cyprus. Some people will have it that this is the same as the tree
which in Italy we call ligustrum.[583]



CHAP. 52.—ASPALATHOS, OR ERYSISCEPTRUM.


In the same country,[584] too, grows aspalathos,[585] a white, thorny
shrub, the size of a moderate tree, and with flowers like the rose, the
root of which is in great request for unguents. It is said that every
shrub over which the rainbow is extended is possessed of the sweet
odour that belongs to the aspalathos, but that if the aspalathos is one
of them, its scent is something quite indescribable. Some persons call
this plant erysisceptrum,[586] and others, again, sceptrum. The proof
of its genuineness is its red or fiery colour; it is also compact to
the touch, and has the smell of castoreum:[587] it is sold at the rate
of five denarii per pound.



CHAP. 53.—MARON.


In Egypt, too, grows marum,[588] though of inferior quality to that of
Lydia, which last has larger leaves, covered with spots. Those of the
other are shorter and smaller, and give out a powerful scent.



CHAP. 54. (25.)—BALSAMUM; OPOBALSAMUM; AND XYLOBALSAMUM.


But to all other odours that of balsamum[589] is considered preferable,
a plant that has been only bestowed by Nature upon the land of Judæa.
In former times it was cultivated in two gardens only, both of which
belonged to the kings of that country: one of them was no more than
twenty jugera in extent, and the other somewhat smaller. The emperors
Vespasianus and Titus had this shrub exhibited at Rome; indeed, it
is worthy of signal remark, that since the time of Pompeius Magnus,
we have been in the habit of carrying trees even in our triumphal
processions. At the present day this tree pays us homage and tribute
along with its native land, but it has been found to be of altogether a
different nature to that which our own as well as foreign writers had
attributed to it: for, in fact, it bears a much stronger resemblance to
the vine than to the myrtle. This recent acquisition by conquest has
learned, like the vine, to be reproduced by mallet[590]-shoots, and it
covers declivities just like the vine, which supports its own weight
without the aid of stays. When it puts forth branches it is pruned in
a similar manner, and it thrives by being well raked at the roots,
growing with remarkable rapidity, and bearing fruit at the end of three
years. The leaf bears a very considerable resemblance to that of rue,
and it is an evergreen. The Jews vented their rage upon this shrub just
as they were in the habit of doing against their own lives and persons,
while, on the other hand, the Romans protected it; indeed, combats have
taken place before now in defence of a shrub. At the present day the
reproduction of it has become a duty of the fiscal authorities, and the
plants were never known to be more numerous or of larger growth; they
never exceed the height, however, of a couple of cubits.

There are three different kinds of balsamum. The first has a thin and
hair-like foliage, and is known by the name of eutheriston.[591] The
second is of a rugged appearance, bending downwards, full of branches,
and more odoriferous than the first; the name of this is trachy. The
third kind is the eumeces, so called, because it is taller than the
others; it has a smooth, even, bark. It is the second in quality,
the eutheriston being inferior to the trachy. The seed of this plant
has a flavour strongly resembling that of wine; it is of a reddish
colour, and not without a certain amount of unctuousness; the grains
of inferior quality are lighter in weight and of a greener hue: the
branches of the shrub are thicker than those of the myrtle. Incisions
are made in it either with glass, or else a sharp stone, or knives made
of bone: it being highly injurious to touch the vital parts with iron,
for in such case it will immediately wither away and die. On the other
hand, it will allow of all the superfluous branches being pruned away
with an instrument of iron even. The hand of the person who makes the
incision is generally balanced by an artificial guide, in order that he
may not accidentally inflict a wound in the wood beyond the bark.

A juice distils from the wound, which is known to us as opobalsamum;
it is of extraordinary sweetness,[592] but only exudes in tiny drops,
which are then collected in wool, and deposited in small horns. When
taken from out of these, the substance is placed in new earthen
vessels; it bears a strong resemblance to a thick oil, and is of
a white colour when fresh. It soon, however, turns red, and as it
hardens loses its transparency. When Alexander the Great waged war in
those parts, it was looked upon as a fair summer day’s work to fill a
single concha[593] with this liquid; the entire produce of the larger
garden being six congii, and of the smaller one a single congius; the
price, too, at which it was sold was double its weight in silver. At
the present day the produce of a single tree, even, is larger; the
incisions are made three times every summer, after which the tree is
pruned.

The cuttings, too, form an article of merchandize: the fifth year after
the conquest of Judæa, these cuttings, with the suckers, were sold
for the price of eight hundred thousand sesterces. These cuttings are
called xylobalsamum,[594] and are boiled down for mixing with unguents,
and in the manufactories have been substituted for the juices of the
shrub. The bark is also in great request for medicinal purposes, but it
is the tears that are so particularly valuable; the seed holding the
second rank in estimation, the bark the third, and the wood being the
least esteemed of all. Of the wood, that kind which resembles boxwood
is considered the best: it has also the strongest smell. The best seed
is that which is the largest in size and the heaviest in weight; it has
a biting or rather burning taste in the mouth. Balsamum is adulterated
with hypericon[595] from Petra, but the fraud is easily detected, from
the fact that the grains of the latter are larger, comparatively empty,
and longer than those of balsamum; they are destitute also of any
pungency of smell, and have a flavour like that of pepper.

As to the tears of balsamum, the test of their goodness is their
being unctuous to the touch, small, of a somewhat reddish colour, and
odoriferous when subjected to friction. That of second-rate quality is
white; the green and coarse is inferior, and the black is the worst of
all; for, like olive-oil, it is apt to turn rancid when old. Of all the
incisions, the produce is considered the best of those from which the
liquid has flowed before the formation of the seed. In addition to what
has been already stated, it is often adulterated with the juice of the
seed, and it is with considerable difficulty that the fraud is detected
by a slight bitterness in the taste, which ought to be delicate and
without the slightest mixture of acidity, the only pungency being that
of the smell. It is adulterated also with oil of roses, of cyprus,
of mastich, of balanus, of turpentine, and of myrtle, as also with
resin, galbanum, and Cyprian wax, just as occasion may serve. But the
very worst adulteration of all, is that which is effected with gum, a
substance which is dry when emptied into the hand, and falls to the
bottom when placed in water; both of which are characteristics of
the genuine commodity. Balsamum, in a genuine state, should be quite
hard, but when it is mixed with gum a brittle pellicle forms upon it.
The fraud can also be detected by the taste, and when placed upon hot
coals it may easily be seen if there has been any adulteration with
wax and resin; the flame too, in this case, burns with a blacker smoke
than when the balsamum is pure. When mixed with honey its qualities
are immediately changed, for it will attract flies even in the hand.
In addition to these various tests, a drop of pure balsamum, if placed
in luke-warm water will settle to the bottom of the vessel, whereas,
if it is adulterated, it will float upon the surface like oil, and
if it has been drugged with metopion or hammoniacum, a white circle
will form around it. But the best test of all is, that it will cause
milk to curdle, and leave no stain upon cloth. In no commodity are
there practised more palpable frauds than in this, for a sextarius
of balsamum which is sold by the fiscal authorities at three hundred
denarii, is sold again for a thousand, so vast is the profit to be
derived from increasing this liquid by sophistication. The price of
xylobalsamum is six denarii per pound.



CHAP. 55.—STORAX.


That part of Syria joining up to Judæa, and lying above Phœnicia,
produces storax, which is found in the vicinity of Gabala and
Marathus,[596] as also of Casius, a mountain of Seleucia. The tree[597]
bears the same name, and has a strong resemblance to, the quince. The
tear has a harsh taste, with a pleasant smell; in the interior it has
all the appearance of a reed, and is filled with a liquid juice. About
the rising of the Dog-star, certain small winged worms hover about
this substance and eat it away, for which reason it is often found
in a rotten state, with worm-holes full of dust. The storax next in
estimation after that already mentioned, comes from Pisidia, Sidon,
Cyprus, and Cilicia; that of Crete being considered the very worst of
all. That which comes from Mount Amanus, in Syria, is highly esteemed
for medicinal purposes, and even more so by the perfumers. From
whatever country it comes, that which is of a red colour is preferred,
and it should be both unctuous as well as viscous to the touch; the
worst kind is that which crumbles like bran, and is covered all over
with a whitish mould. This substance is adulterated with the resin of
cedar or with gum, and sometimes with honey or bitter almonds; all
which sophistications may, however, be detected by the taste. The price
of storax of the best quality is seventeen denarii per pound. It comes
also from Pamphylia, but this last is more arid, and not so full of
juice.



CHAP. 56.—GALBANUM.


Syria produces galbanum too, which grows upon the same mountain of
Amanus: it exudes from a kind of giant-fennel[598] of the same name
as the resin, though sometimes it is known as stagonitis. The kind
that is the most esteemed is cartilaginous, clear like hammoniacum,
and free from all ligneous substances. Still, however, it is sometimes
adulterated with beans, or with sacopenium.[599] If ignited in a
pure state, it has the property of driving away serpents[600] by its
smoke. It is sold at five denarii per pound, and is only employed for
medicinal purposes.



CHAP. 57. (26.)—PANAX.


Syria, too, furnishes panax,[601] an ingredient used in unguents.
This plant grows also at Psophis in Arcadia, about the sources of the
Erymanthus, in Africa also, and in Macedonia. This is a peculiar kind
of giant-fennel, which stands five cubits in height: it first throws
out four leaves, and then six, which lie close to the ground, round,
and of very considerable size; those, however, which grow towards the
top resemble the leaves of the olive. It bears its seed in certain
tufts, which hang down, just as in the fennel. The juice is obtained
by incisions made in the stalk at harvest-time, and in the root in
autumn. When in a coagulated state, it is esteemed according to its
whiteness. The next in value is that of a pallid colour, while the
black is held in no esteem. The price of that of the best quality is
two denarii per pound.



CHAP. 58.—SPONDYLIUM.


The difference between this kind of giant-fennel and that known as
spondylium,[602] consists only in the leaf, which is smaller, and
divided like that of the plane-tree. It grows in shady places only. The
seed bears the same name as the plant, and has a strong resemblance to
that of hart-wort: it is only employed in medicine.



CHAP. 59.—MALOBATHRUM.


Syria produces the malobathrum[603] also, a tree which bears a folded
leaf, with just the colour of a leaf when dried. From this plant an
oil is extracted for unguents. Egypt produces it in still greater
abundance; but that which is the most esteemed of all comes from India,
where it is said to grow in the marshes like the lentil. It has a more
powerful odour than saffron, and has a black, rough appearance, with
a sort of brackish taste. The white is the least approved of all, and
it very soon turns musty when old. In taste it ought to be similar to
nard, when placed under the tongue. When made luke-warm in wine, the
odour which it emits is superior to any other. The prices at which this
drug ranges are something quite marvellous, being from one denarius to
four hundred per pound; as for the leaf, it generally sells at sixty
denarii per pound.



CHAP. 60. (27.)—OMPHACIUM.


Omphacium[604] is also a kind of oil, which is obtained from two
trees, the olive and the vine, by two different methods. It is
produced from the former by pressing the olive while it is still in
the white state. That is of an inferior quality which is made from
the druppa—such being the name that is given to the olive before it
is ripe and fit for food, but already beginning to change its colour.
The difference between them is, that the latter kind is green, the
former white. The omphacium that is made from the vine is extracted
from either the psythian[605] or the Aminean grape, when the grapes are
about the size of a chick-pea, just before the rising of the Dog-star.
The grape is gathered when the first bloom is appearing upon it, and
the verjuice is extracted, after which the residue[606] is left to dry
in the sun, due precautions being taken against the dews of the night.
The verjuice, after being collected, is put into earthen vessels, and
then, after that, stored in jars of Cyprian copper.[607] The best kind
is that which is of a reddish colour, acrid, and dry to the taste. The
price at which it sells is six denarii per pound. Omphacium is also
made another way—the unripe grape is pounded in a mortar, after which
it is dried in the sun, and then divided into lozenges.



CHAP. 61. (28.)—BRYON, ŒNANTHE, AND MASSARIS.


Bryon[608] also bears an affinity to these substances, being the
clusters of berries produced by the white poplar. The best kinds grow
in the vicinity of Cnidos, or in Caria, in spots that are destitute of
water, or else in dry and rugged localities. A bryon of second-rate
quality is produced from the cedar of Lycia.[609] Œnanthe, too, bears
an affinity to these substances, being the clusters of the wild vine:
it is gathered when it is in flower, or, in other words, when it has
the finest smell: after which it is dried in the shade upon a linen
sheet spread beneath it, and then stored away in casks. The best sort
is that which comes from Parapotamia;[610] the next best kinds are
those made at Antiochia and Laodicea in Syria; and that of third-rate
quality, comes from the mountainous parts of Media; this last, however,
is preferable for medicinal purposes. Some persons give the preference
over all to that grown in the island of Cyprus. As to that which comes
from Africa, it is solely used for medicinal purposes, being known by
the name of massaris.[611] Whatever country it may happen to be, the
white wild vine produces an œnanthe of superior quality to the black.



CHAP. 62.—ELATE OR SPATHE.


There is another tree[612] also, that contributes to the manufacture of
unguents, by some persons known under the name of elate, but which we
call abies; others again call it a palm, and others give it the name of
spathe. That of Hammonium is the most esteemed, and that of Egypt next,
after which comes the Syrian tree. It is only odoriferous, however, in
places that are destitute of water. The tears of it are of an unctuous
nature, and are employed as an ingredient in unguents, to modify the
harshness of the oil.



CHAP. 63.—CINNAMON OR COMACUM.


In Syria, too, is produced that kind of cinnamon which is also known as
comacum.[613] This is a juice which is extracted from a nut, and very
different from the extract of the real cinnamomum, though it somewhat
resembles it in its agreeable smell. The price at which it sells is
forty asses per pound.


SUMMARY.—Remarkable facts, narratives, and observations, nine
hundred and seventy-four.


ROMAN AUTHORS QUOTED.—M. Varro,[614] Mucianus,[615] Virgil,[616]
Fabianus,[617] Sebosus,[618] Pomponius Mela,[619] Flavius,[620]
Procilius,[621] Hyginus,[622] Trogus,[623] Claudius Cæsar,[624]
Cornelius Nepos,[625] Sextus Niger[626] who wrote a Greek treatise
on Medicine, Cassius Hemina,[627] L. Piso,[628] Tuditanus,[629]
Antias.[630]


FOREIGN AUTHORS QUOTED.—Theophrastus,[631] Herodotus,[632]
Callisthenes,[633] Isigonus,[634] Clitarchus,[635] Anaximenes,[636]
Duris,[637] Nearchus,[638] Onesicritus,[639] Polycritus,[640]
Olympiodorus,[641] Diognetus,[642] Nicobulus,[643] Anticlides,[644]
Chares[645] of Mitylene, Menæchmus,[646] Dorotheus[647] of Athens,
Lycus,[648] Antæus,[649] Ephippus,[650] Dion,[651] Demodes,[652]
Ptolemy Lagus,[653] Marsyas[654] of Macedon, Zoilus[655] of Macedon,
Democritus,[656] Amphilochus,[657] Aristomachus,[658] Alexander
Polyhistor,[659] Juba,[660] Apollodorus[661] who wrote on Perfumes,
Heraclides[662] the physician, Archidemus[663] the physician,
Dionysius[664] the physician, Democlides[665] the physician,
Euphron[666] the physician, Mnesides[667] the physician, Diagoras[668]
the physician, Iollas[669] the physician, Heraclides[670] of Tarentum,
Xenocrates[671] of Ephesus, Eratosthenes.[672]



BOOK XIII.

THE NATURAL HISTORY OF EXOTIC TREES, AND AN ACCOUNT OF UNGUENTS.



CHAP. 1. (1.)—UNGUENTS—AT WHAT PERIOD THEY WERE FIRST INTRODUCED.


Thus far we have been speaking of the trees which are valuable for the
odours they produce, and each of which is a subject for our wonder in
itself. Luxury, however, has thought fit to mingle all of these, and
to make a single odour of the whole; hence it is that unguents have
been invented.[673] Who was the first to make unguents is a fact not
recorded. In the times of the Trojan war[674] they did not exist, nor
did they use incense when sacrificing to the gods; indeed, people knew
of no other smell, or rather stench,[675] I may say, than that of the
cedar and the citrus,[676] shrubs of their own growth, as it arose in
volumes of smoke from the sacrifices; still, however, even then, the
extract of roses was known, for we find it mentioned as conferring
additional value on olive-oil.

We ought, by good rights, to ascribe the first use of unguents to
the Persians, for they quite soak themselves in it, and so, by an
adventitious recommendation, counteract the bad odours which are
produced by dirt. The first instance of the use of unguents that I have
been able to meet with is that of the chest[677] of perfumes which fell
into the hands of Alexander, with the rest of the property of King
Darius, at the taking of his camp.[678] Since those times this luxury
has been adopted by our own countrymen as well, among the most prized
and, indeed, the most elegant of all the enjoyments of life, and has
begun even to be admitted in the list of honours paid to the dead;
for which reason we shall have to enlarge further on that subject.
Those perfumes which are not the produce of shrubs[679] will only be
mentioned for the present by name: the nature of them will, however, be
stated in their appropriate places.



CHAP. 2.—THE VARIOUS KINDS OF UNGUENTS—TWELVE PRINCIPAL COMPOSITIONS.


The names of unguents are due, some of them, to the original place of
their composition, others, again, to the extracts which form their
bases, others to the trees from which they are derived, and others to
the peculiar circumstance under which they were first made: and it is
as well, first of all, to know that in this respect the fashion has
often changed, and that the high repute of peculiar kinds has been but
transitory. In ancient times, the perfumes the most esteemed of all
were those of the island of Delos,[680] and at a later period those of
Mendes.[681] This degree of esteem is founded, not only on the mode of
mixing them and the relative proportions, but according to the degree
of favour or disfavour in which the various places which produce the
ingredients are held, and the comparative excellence or degeneracy of
the ingredients themselves. The perfume of iris,[682] from Corinth,
was long held in the highest esteem, till that of Cyzicus came into
fashion. It was the same, too, with the perfume of roses,[683] from
Phaselis,[684] the repute of which was afterwards eclipsed by those
of Neapolis, Capua, and Præneste. Oil of saffron,[685] from Soli in
Cilicia, was for a long time held in repute beyond any other, and then
that from Rhodes; after which perfume of œnanthe,[686] from Cyprus,
came into fashion, and then that of Egypt was preferred. At a later
period that of Adramytteum came into vogue, and then was supplanted by
unguent of marjoram,[687] from Cos, which in its turn was superseded
by quince blossom[688] unguent from the same place. As to perfume of
cyprus,[689] that from the island of Cyprus was at first preferred, and
then that of Egypt; when all on a sudden the unguents of Mendes and
metopium[690] rose into esteem. In later times Phœnicia eclipsed Egypt
in the manufacture of these last two, but left to that country the
repute of producing the best unguent of cyprus.

Athens has perseveringly maintained the repute of her
panathenaicon.[691] There was formerly a famous unguent, known as
“pardalium,”[692] and made at Tarsus; at the present day its very
composition and the mode of mixing it are quite unknown there: they
have left off, too, making unguent of narcissus[693] from the flowers
of that plant.

There are two elements which enter into the composition of unguents,
the juices and the solid parts. The former generally consist of various
kinds of oils, the latter of odoriferous substances. These last are
known as hedysmata, while the oils are called stymmata.[694] There
is a third element, which occupies a place between the two, but
has been much neglected, the colouring matter, namely. To produce a
colour, however, cinnabar[695] and alkanet[696] are often employed.
If salt[697] is sprinkled in the oil, it will aid it in retaining its
properties; but if alkanet has been employed, salt is never used. Resin
and gum are added to fix the odour in the solid perfumes; indeed it
is apt to die away and disappear with the greatest rapidity if these
substances are not employed.

The unguent which is the most readily prepared of all, and indeed, in
all probability, the very first that was ever made, is that composed of
bryon[698] and oil of balanus,[699] substances of which we have made
mention already. In later times the Mendesian unguent was invented,
a more complicated mixture, as resin and myrrh were added to oil of
balanus, and at the present day they even add metopion[700] as well,
an Egyptian oil extracted from bitter almonds; to which have been
added omphacium,[701] cardamum,[702] sweet rush,[703] honey,[704]
wine, myrrh, seed of balsamum,[705] galbanum,[706] and resin of
terebinth,[707] as so many ingredients. Among the most common unguents
at the present day, and for that reason supposed to be the most
ancient, is that composed of oil of myrtle,[708] calamus, cypress,[709]
cyprus, mastich,[710] and pomegranate-rind.[711] I am of opinion,
however, that the unguents which have been the most universally
adopted, are those which are compounded of the rose, a flower that
grows everywhere; and hence for a long time the composition of oil
of roses was of the most simple nature, though more recently there
have been added omphacium, rose blossoms, cinnabar, calamus, honey,
sweet-rush, flour of salt or else alkanet,[712] and wine. The same is
the case, too, with oil of saffron, to which have been lately added
cinnabar, alkanet, and wine; and with oil of sampsuchum,[713] with
which omphacium and calamus have been compounded. The best comes from
Cyprus and Mitylene, where sampsuchum abounds in large quantities.

The commoner kinds of oil, too, are mixed with those of myrrh and
laurel, to which are added sampsuchum, lilies, fenugreek, myrrh,
cassia,[714] nard,[715] sweet-rush, and cinnamon.[716] There is an oil,
too, made of the common quince and the sparrow quince, called melinum,
as we shall have occasion to mention hereafter;[717] it is used as an
ingredient in unguents, mixed with omphacium, oil of cyprus, oil of
sesamum,[718] balsamum,[719] sweet-rush, cassia, and abrotonum.[720]
Susinum[721] is the most fluid of them all: it is made of lilies, oil
of balanus, calamus, honey, cinnamon, saffron,[722] and myrrh; while
the unguent of cyprus[723] is compounded of cyprus, omphacium and
cardamum, calamus, aspalathus,[724] and abrotonum. There are some
persons who, when making unguent of cyprus, employ myrrh also, and
panax:[725] the best is that made at Sidon, and the next best that
of Egypt: care must be taken not to add oil of sesamum: it will keep
as long as four years, and its odour is strengthened by the addition
of cinnamon. Telinum[726] is made of fresh olive-oil, cypirus,[727]
calamus, melilote,[728] fenugreek, honey, marum,[729] and sweet
marjoram. This last was the perfume most in vogue in the time of the
Comic poet Menander: a considerable time after that known as “megalium”
took its place, being so called as holding the very highest rank;[730]
it was composed of oil of balanus, balsamum, calamus, sweet-rush,
xylobalsamum,[731] cassia, and resin. One peculiar property of this
unguent is, that it requires to be constantly stirred while boiling,
until it has lost all smell: when it becomes cold, it recovers its
odour.[732]

There are some single essences also which, individually, afford
unguents of very high character: the first rank is due to
malobathrum,[733] and the next to the iris of Illyricum and the sweet
marjoram of Cyzicus, both of them herbs. There are perfumers who
sometimes add some few other ingredients to these: those who use the
most, employ for the purpose honey, flour of salt, omphacium, leaves
of agnus,[734] and panax, all of them foreign ingredients.[735] The
price of unguent[736] of cinnamon is quite enormous; to cinnamon
there is added oil of balanus, xylobalsamum, calamus, sweet-rush,
seeds of balsamum, myrrh, and perfumed honey: it is the thickest in
consistency of all the unguents; the price at which it sells ranges
from thirty-five to three hundred denarii per pound. Unguent[737]
of nard,[738] or foliatum, is composed of omphacium or else oil of
balanus, sweet-rush, costus,[739] nard, amomum,[740] myrrh, and
balsamum.

While speaking on this subject, it will be as well to bear in mind that
there are nine different kinds of plants of a similar kind, of which
we have already made mention[741] as being employed for the purpose
of imitating Indian nard; so abundant are the materials that are
afforded for adulteration. All these perfumes are rendered still more
pungent by the addition of costus and amomum, which have a particularly
powerful effect on the olfactory organs; while myrrh gives them greater
consistency and additional sweetness, and saffron makes them better
adapted for medicinal purposes. They are most pungent, however, when
mixed with amomum alone, which will often produce head-ache even.
There are some persons who content themselves with sprinkling the more
precious ingredients upon the others after boiling them down, for the
purpose of economy; but the strength of the unguent is not so great as
when the ingredients have been boiled together. Myrrh used by itself,
and without the mixture of oil, forms an unguent, but it is stacte[742]
only that must be used, for otherwise it will be productive of too
great bitterness. Unguent of cyprus turns other unguents green, while
lily unguent[743] makes them more unctuous: the unguent of Mendes turns
them black, rose unguent makes them white, and that of myrrh of a
pallid hue.

Such are the particulars of the ancient inventions, and the various
falsifications of the shops in later times; we will now pass on to make
mention of what is the very height of refinement in these articles of
luxury, indeed, I may say, the beau ideal[744] of them all.

(2.) This is what is called the “regal” unguent, from the fact that
it is composed in these proportions for the kings of the Parthians. It
consists of myrobalanus,[745] costus, amomum, cinnamon, comacum,[746]
cardamum, spikenard, marum, myrrh, cassia, storax,[747] ladanum,[748]
opobalsamum, Syrian calamus[749] and Syrian sweet-rush,[750] œnanthe,
malobathrum, serichatum,[751] cyprus, aspralathus, panax, saffron,
cypirus, sweet marjoram, lotus,[752] honey, and wine. Not one of
the ingredients in this compound is produced either in Italy, that
conqueror of the world, or, indeed, in all Europe, with the exception
of the iris, which grows in Illyricum, and the nard, which is to be
found in Gaul: as to the wine, the rose, the leaves of myrtle, and the
olive-oil, they are possessed by pretty nearly all countries in common.



CHAP. 3.—DIAPASMA, MAGMA; THE MODE OF TESTING UNGUENTS.


Those unguents which are known by the name of “diapasma,”[753] are
composed of dried perfumes. The lees[754] of unguents are known by
the name of “magma.[755]” In all these preparations the most powerful
perfume is the one that is added the last of all. Unguents keep best in
boxes of alabaster,[756] and perfumes[757] when mixed with oil, which
conduces all the more to their durability the thicker it is, such as
the oil of almonds, for instance. Unguents, too, improve with age; but
the sun is apt to spoil them, for which reason they are usually stowed
away in a shady place in vessels of lead. When their goodness is being
tested, they are placed on the back of the hand, lest the heat of the
palm, which is more fleshy, should have a bad effect upon them.



CHAP. 4. (3.)—THE EXCESSES TO WHICH LUXURY HAS RUN IN UNGUENTS.


These perfumes form the objects of a luxury which may be looked upon
as being the most superfluous of any, for pearls and jewels, after
all, do pass to a man’s representative,[758] and garments have some
durability; but unguents lose their odour in an instant, and die away
the very hour they are used. The very highest recommendation of them
is, that when a female passes by, the odour which proceeds from her may
possibly attract the attention of those even who till then are intent
upon something else. In price they exceed so large a sum even as four
hundred denarii per pound: so vast is the amount that is paid for a
luxury made not for our own enjoyment, but for that of others; for the
person who carries the perfume about him is not the one, after all,
that smells it.

And yet, even here, there are some points of difference that deserve
to be remarked. We read in the works of Cicero,[759] that those
unguents which smell of the earth are preferable to those which smell
of saffron; being a proof, that even in a matter which most strikingly
bespeaks our state of extreme corruptness, it is thought as well to
temper the vice by a little show of austerity.[760] There are some
persons too who look more particularly for consistency[761] in their
unguents, to which they accordingly give the name of “spissum”;[762]
thus showing that they love not only to be sprinkled, but even to
be plastered over, with unguents. We have known the very soles[763]
even of the feet to be sprinkled with perfumes; a refinement which
was taught, it is said, by M. Otho[764] to the Emperor Nero. How, I
should like to know, could a perfume be at all perceptible, or, indeed,
productive of any kind of pleasure, when placed on that part of the
body? We have heard also of a private person giving orders for the
walls of the bath-room to be sprinkled with unguents, while the Emperor
Caius[765] had the same thing done to his sitting-bath:[766] that this,
too, might not be looked upon as the peculiar privilege of a prince, it
was afterwards done by one of the slaves that belonged to Nero.

But the most wonderful thing of all is, that this kind of luxurious
gratification should have made its way into the camp even: at all
events, the eagles and the standards, dusty as they are, and bristling
with their sharpened points, are anointed on festive[767] days. I
only wish it could, by any possibility, be stated who it was that
first taught us this practice. It was, no doubt, under the corrupting
influence of such temptations as these, that our eagles achieved the
conquest[768] of the world: thus do we seek to obtain their patronage
and sanction for our vices, and make them our precedent for using
unguents even beneath the casque.[769]



CHAP. 5.—WHEN UNGUENTS WERE FIRST USED BY THE ROMANS.


I cannot exactly say at what period the use of unguents first found
its way to Rome. It is a well-known fact, that when King Antiochus and
Asia[770] were subdued, an edict was published in the year of the City
565, in the censorship of P. Licinius Crassus and L. Julius Cæsar,
forbidding any one to sell exotics;[771] for by that name unguents were
then called. But, in the name of Hercules! at the present day, there
are some persons who even go so far as to put them in their drink, and
the bitterness produced thereby is prized to a high degree, in order
that by their lavishness on these odours they may thus gratify the
senses of two parts[772] of the body at the same moment.[773] It is a
well-known historical fact, that L. Plotius,[774] the brother of L.
Plancus, who was twice consul and censor, after being proscribed by
the Triumvirs, was betrayed in his place of concealment at Salernum by
the smell of his unguents, a disgrace which more than outweighed all
the guilt[775] attending his proscription. For who is there that can
be of opinion that such men as this do not richly deserve to come to a
violent end?



CHAP. 6.—THE PALM-TREE.


In other respects, Egypt is the country that is the best suited of all
for the production of unguents; and next to it, Campania,[776] from its
abundance of roses.

(4.) Judæa, too, is greatly renowned for its perfumes, and even still
more so for its palm-trees,[777] the nature of which I shall take this
opportunity of enlarging upon. There are some found in Europe also.
They are not uncommon in Italy, but are quite barren there.[778] The
palms on the coast of Spain bear fruit, but it is sour.[779] The fruit
of those of Africa is sweet, but quickly becomes vapid and loses its
flavour; which, however is not the case with the fruit of those that
grow in the East.[780] From these trees a wine is made, and bread by
some nations,[781] and they afford an aliment for numerous quadrupeds.
It will be with very fair reason then, that we shall confine our
description to the palm-tree of foreign countries. There are none in
Italy that grow spontaneously,[782] nor, in fact, in any other part of
the world, with the exception of the warm countries: indeed, it is only
in the very hottest climates that this tree will bear fruit.



CHAP. 7.—THE NATURE OF THE PALM-TREE.


The palm-tree grows in a light and sandy soil, and for the most part of
a nitrous quality. It loves the vicinity of flowing water; and as it
is its nature to imbibe the whole of the year, there are some who are
of opinion that in a year of drought it will receive injury from being
manured even, if the manure is not first mixed with running water:
this, at least, is the idea entertained by some of the Assyrians.

The varieties of the palm are numerous. First of all, there are those
which do not exceed the size of a shrub; they are mostly barren, though
sometimes they are known to produce fruit; the branches are short, and
the tree is well covered with leaves all round. In many places this
tree is used as a kind of rough-cast,[783] as it were, to protect the
walls of houses against damp. The palms of greater height form whole
forests, the trunk of the tree being protected all round by pointed
leaves, which are arranged in the form of a comb; these, it must be
understood, are wild palms, though sometimes, by some wayward fancy or
other, they are known to make their appearance among the cultivated
varieties. The other kinds are tall, round, and tapering; and being
furnished with dense and projecting knobs or circles in the bark,
arranged in regular gradation, they are found easy of ascent by the
people in the East; in order to do which, the climber fastens a loop of
osier round his body and the trunk, and by this contrivance ascends the
tree with astonishing[784] rapidity. All the foliage is at the summit,
and the fruit as well; this last being situate, not among the leaves,
as is the case with other trees, but hanging in clusters from shoots
of its own among the branches, and partaking of the nature both of the
grape and the apple. The leaves terminate in a sharp edge, like that of
a knife, while the sides are deeply indented—a peculiarity which first
gave the idea of a troop of soldiers presenting face on two sides at
once; at the present day they are split asunder[785] to form ropes and
wythes for fastening, as well as light umbrellas[786] for covering the
head.

The more diligent[787] enquirers into the operations of Nature state
that all trees, or rather all plants, and other productions of the
earth, belong to either one sex or the other; a fact which it may be
sufficient to notice on the present occasion, and one which manifests
itself in no tree more than in the palm. The male tree blossoms at
the shoots; the female buds without blossoming, the bud being very
similar to an ear of corn. In both trees the flesh of the fruit shows
first, and after that the woody part inside of it, or, in other words,
the seed: and that this is really the case, is proved by the fact,
that we often find small fruit on the same shoot without any seed in
it at all. This seed is of an oblong shape, and not rounded like the
olive-stone. It is also divided down the back by a deep indentation,
and in most specimens of this fruit there is exactly in the middle a
sort of navel, as it were, from which the root of the tree first takes
its growth.[788] In planting this seed it is laid on its anterior
surface, two being placed side by side, while as many more are placed
above; for when planted singly, the tree that springs up is but weak
and sickly, whereas the four seeds all unite and form one strong tree.
The seed is divided from the flesh of the fruit by several coats of a
whitish colour, some of which are attached to the body of it; it lies
but loosely in the inside of the fruit, adhering only to the summit by
a single thread.[789]

The flesh of this fruit takes a year to ripen, though in some places,
Cyprus[790] for instance, even if it should not reach maturity, it
is very agreeable, for the sweetness of its flavour: the leaf of the
tree too, in that island, is broader than elsewhere, and the fruit
rounder than usual: the body of the fruit however, is never eaten,
but is always spit[791] out again, after the juice has been extracted.
In Arabia, the palm fruit is said to have a sickly sweet taste,
although Juba says that he prefers the date found among the Arabian
Scenitæ,[792] and to which they give the name of “dablan,” before those
of any other country for flavour. In addition to the above particulars,
it is asserted that in a forest of natural growth the female[793] trees
will become barren if they are deprived of the males, and that many
female trees may be seen surrounding a single male with downcast heads
and a foliage that seems to be bowing caressingly towards it; while the
male tree, on the other hand, with leaves all bristling and erect, by
its exhalations, and even the very sight of it and the dust[794] from
off it, fecundates the others: if the male tree, too, should happen to
be cut down, the female trees, thus reduced to a state of widowhood,
will at once become barren and unproductive. So well, indeed, is this
sexual union between them understood, that it has been imagined even
that fecundation may be ensured through the agency of man, by means of
the blossoms and the down[795] gathered from off the male trees, and,
indeed, sometimes by only sprinkling the dust from off them on the
female trees.



CHAP. 8.—HOW THE PALM-TREE IS PLANTED.


Palm-trees are also propagated by planting;[796] the trunk is first
divided with certain fissures two cubits in length which communicate
with the pith of the tree, and is then buried in the earth. A slip
also torn away from the root will produce a sucker with vitality, and
the same may be obtained from the more tender among the branches. In
Assyria, the tree itself is sometimes laid level, and then covered
over in a moist soil; upon which it will throw out roots all over, but
it will grow only to be a number of shrubs, and never a tree: hence it
is that they plant nurseries, and transplant the young trees when a
year old, and again when two years old, as they thrive all the better
for being transplanted; this is done in the spring season in other
countries, but in Assyria about the rising of the Dog-star. In those
parts they do not touch the young trees with the knife, but merely tie
up the foliage that they may shoot upwards, and so attain considerable
height. When they are strong they prune them, in order to increase
their thickness, but in so doing leave the branches for about half a
foot; indeed, if they were cut off at any other place, the operation
would kill the parent tree. We have already[797] mentioned that they
thrive particularly well in a saltish soil; hence, when the soil is not
of that nature, it is the custom to scatter salt, not exactly about the
roots, but at a little distance off. There are palm-trees in Syria and
in Egypt which divide into two trunks, and some in Crete into three and
as many as five even.[798] Some of these trees bear immediately at the
end of three years, and in Cyprus, Syria, and Egypt, when they are four
years old; others again at the end of five years: at which period the
tree is about the height of a man. So long as the tree is quite young
the fruit has no seed within, from which circumstance it has received
the nickname of the “eunuch.”[799]



CHAP. 9.—THE DIFFERENT VARIETIES OF PALM-TREES, AND THEIR
CHARACTERISTICS.


There are numerous varieties of the palm-tree. In Assyria, and
throughout the whole of Persis, the barren kinds are made use of for
carpenters’ work, and the various appliances of luxury. There are
whole forests also of palm-trees adapted for cutting,[800] and which,
after they are cut, shoot again from the root; the pith of them
towards the top, which is usually called the brain[801] of the tree,
is sweet to the taste, and the tree will live even after it has been
extracted, which is the case with no other kind. The name of this tree
is “chamæreps;”[802] it has a broader and softer leaf than the others,
which is extremely useful for various kinds of wickerwork;[803] these
trees are very numerous in Crete, and even more so in Sicily. The wood
of the palm-tree, when ignited, burns both brightly and slowly.[804] In
some of those that bear fruit,[805] the seed of the fruit is shorter
than in others, while in some, again, it is longer; in some it is
softer than in others, and in some harder; in some it is osseous and
crescent-shaped; polished with a tooth, superstition employs the stone
as an antidote against charms and fascination. This stone is enclosed
in several coats, more or less in number; sometimes they are of a thick
texture, and sometimes very thin.

Hence it is that we find nine and forty different kinds of palm-trees,
if any one will be at the trouble of enumerating all their various
barbarous names, and the different wines that are extracted from them.
The most famous of all, are those which, for the sake of distinction,
have received the name of “royal” palms, because they were preserved
solely by the kings of Persia; these used to grow nowhere but at
Babylon, and there only in the garden of Bagoüs,[806] that being the
Persian for an eunuch, several of whom have even reigned over that
country! This garden was always carefully retained within[807] the
precincts of the royal court.

In the southern parts of the world, the dates known as “syagri,”[808]
hold the highest rank, and next after them those that are called
“margarides.” These last are short, white, and round, and bear a
stronger resemblance to grapes than to dates; for which reason it is
that they have received their name, in consequence of their close
resemblance to “margaritæ,” or pearls. It is said that there is only
one tree that bears them, and that in the locality known as Chora.[809]
The same is the case also with the tree that bears the syagri. We
have heard a wonderful story too, relative to this last tree, to the
effect that it dies and comes to life again in a similar manner to the
phœnix, which, it is generally thought, has borrowed its name from the
palm-tree, in consequence of this peculiarity; at the moment that I
am writing this, that tree is still bearing fruit. As for the fruit
itself, it is large, hard, and of a rough appearance, and differing
in taste from all other kinds, having a sort of wild flavour peculiar
to itself, and not unlike that of the flesh of the wild boar; it is
evidently this circumstance from which it has derived its name of
“syagrus.”

In the fourth rank are the dates called “sandalides,” from their
resemblance to a sandal in shape. It is stated, that on the confines
of Æthiopia there are but five of these trees at the most, no less
remarkable for the singular lusciousness of their fruit, than for their
extreme rarity. Next to these, the dates known as “caryotæ”[810] are
the most esteemed, affording not only plenty of nutriment, but a great
abundance of juice; it is from these that the principal wines[811]
are made in the East; these wines are apt to affect the head, a
circumstance from which the fruit derives its name. But if these trees
are remarkable for their abundance and fruitfulness, it is in Judæa
that they enjoy the greatest repute; not, indeed, throughout the whole
of that territory, but more particularly at Hiericus,[812] although
those that grow at Archelais, Phaselis, and Livias, vallies in the
same territory, are highly esteemed. The more remarkable quality of
these is a rich, unctuous juice; they are of a milky consistency,
and have a sort of vinous flavour, with a remarkable sweetness, like
that of honey. The Nicolaän[813] dates are of a similar kind, but
somewhat drier; they are of remarkable size, so much so, indeed, that
four of them, placed end to end, will make a cubit in length. A less
fine kind, but of sister quality to the caryotæ for flavour, are
the “adelphides,”[814] hence so called; these come next to them in
sweetness, but still are by no means their equals. A third kind, again,
are the patetæ, which abound in juice to excess, so much so, indeed,
that the fruit bursts, in its excess of liquor, even upon the parent
tree, and presents all the appearance of having been trodden[815] under
foot.

There are numerous kinds of dates also, of a drier nature, which are
long and slender, and sometimes of a curved shape. Those of this sort
which we consecrate to the worship of the gods are called “chydæi”[816]
by the Jews, a nation remarkable for the contempt which they manifest
of the divinities. Those found all over Thebais and Arabia are dry
and small, with a shrivelled body: being parched up and scorched by
the constant heat, they are covered with what more nearly resembles a
shell[817] than a skin. In Æthiopia the date is quite brittle even,
so great is the driness of the climate; hence the people are able to
knead it into a kind of bread, just like so much flour.[818] It grows
upon a shrub, with branches a cubit in length: it has a broad leaf, and
the fruit is round, and larger than an apple. The name of this date is
“coïx.”[819] It comes to maturity in three years, and there is always
fruit to be found upon the shrub, in various stages of maturity. The
date of Thebais is at once packed in casks, with all its natural heat
and freshness; for without this precaution, it quickly becomes vapid;
it is of a poor, sickly taste, too, if it is not exposed, before it is
eaten, to the heat of an oven.

The other kinds of dates appear to be of an ordinary nature, and are
generally known as “tragemata;”[820] but in some parts of Phœnicia and
Cilicia, they are commonly called “balani,” a name which has been also
borrowed by us. There are numerous kinds of them, which differ from one
another in being round or oblong; as also in colour, for some of them
are black, and others red—indeed it is said that they present no fewer
varieties of colour than the fig: the white ones, however, are the most
esteemed. They differ also in size, according to the number which it
requires to make a cubit in length; some, indeed, are no larger than a
bean. Those are the best adapted for keeping which are produced in salt
and sandy soils, Judæa, and Cyrenaïca in Africa, for instance: those,
however, of Egypt, Cyprus, Syria, and Seleucia in Assyria, will not
keep: hence it is that they are much used for fattening swine and other
animals. It is a sign that the fruit is either spoilt or old, when the
white protuberance disappears, by which it has adhered to the cluster.
Some of the soldiers of Alexander’s army were choked by eating green
dates;[821] and a similar effect is produced in the country of the
Gedrosi, by the natural quality of the fruit; while in other places,
again, the same results arise from eating them to excess. Indeed,
when in a fresh state, they are so remarkably luscious, that there
would be no end to eating them, were it not for fear of the dangerous
consequences that would be sure to ensue.



CHAP. 10. (5.)—THE TREES OF SYRIA: THE PISTACIA, THE COTTANA, THE
DAMASCENA, AND THE MYXA.


In addition to the palm, Syria has several trees that are peculiar to
itself. Among the nut-trees there is the pistacia,[822] well known
among us. It is said that, taken either in food or drink, the kernel of
this nut is a specific against the bite of serpents. Among figs, too,
there are those known as “caricæ,”[823] together with some smaller ones
of a similar kind, the name of which is “cottana.” There is a plum,
too, which grows upon Mount Damascus,[824] as also that known as the
“myxa;”[825] these last two are, however, now naturalized in Italy. In
Egypt, too, they make a kind of wine from the myxa.



CHAP. 11.—THE CEDAR. TREES WHICH HAVE ON THEM THE FRUIT OF THREE YEARS
AT ONCE.


Phœnicia, too, produces a small cedar, which bears a strong resemblance
to the juniper.[826] Of this tree there are two varieties; the one
found in Lycia, the other in Phœnicia.[827] The difference is in the
leaf: the one in which it is hard, sharp, and prickly, being known as
the oxycedros,[828] a branchy tree and rugged with knots. The other
kind is more esteemed for its powerful odour. The small cedar produces
a fruit the size of a grain of myrrh, and of a sweetish taste. There
are two kinds of the larger cedar[829] also; the one that blossoms
bears no fruit, while, on the other hand, the one that bears fruit has
no blossom, and the fruit, as it falls, is being continually replaced
by fresh. The seed of this tree is similar to that of the cypress. Some
persons give this tree the name of “cedrelates.” The resin produced
from it is very highly praised, and the wood of it lasts for ever,
for which reason it is that they have long been in the habit of using
it for making the statues of the gods. In a temple at Rome there is
a statue of Apollo Sosianus[830] in cedar, originally brought from
Seleucia. There is a tree similar to the cedar, found also in Arcadia;
and there is a shrub that grows in Phrygia, known as the “cedrus.”



CHAP. 12. (6.)—THE TEREBINTH.[831]


Syria, too, produces the terebinth, the male tree of which bears no
fruit, and the female consists of two different varieties;[832] one
of these bears a red fruit, the size of a lentil, while the other
is pale, and ripens at the same period as the grape. This fruit is
not larger than a bean, is of a very agreeable smell, and sticky and
resinous to the touch. About Ida in Troas, and in Macedonia, this tree
is short and shrubby, but at Damascus, in Syria, it is found of very
considerable size. Its wood is remarkably flexible, and continues sound
to a very advanced age: it is black and shining. The blossoms appear
in clusters, like those of the olive-tree, but are of a red colour;
the leaves are dense, and closely packed. It produces follicules, too,
from which issue certain insects like gnats, as also a kind of resinous
liquid[833] which oozes from the bark.



CHAP. 13.—THE SUMACH-TREE.


The male sumach-tree[834] of Syria is productive, but the female is
barren. The leaf resembles that of the elm, though it is a little
longer, and has a downy surface. The footstalks of the leaves lie
always alternately in opposite directions, and the branches are short
and slender. This tree is used in the preparation of white skins.[835]
The seed, which strongly resembles a lentil in appearance, turns red
with the grape; it is known by the name of “ros,” and forms a necessary
ingredient in various medicaments.[836]



CHAP. 14. (7.)—THE TREES OF EGYPT. THE FIG-TREE OF ALEXANDRIA.


Egypt, too, has many trees which are not to be found elsewhere, and the
kind of fig more particularly, which for this reason has been called
the Egyptian fig.[837] In leaf this tree resembles the mulberry-tree,
as also in size and general appearance. It bears fruit, not upon
branches, but upon the trunk itself: the fig is remarkable for its
extreme sweetness, and has no seeds[838] in it. This tree is also
remarkable for its fruitfulness, which, however, can only be ensured by
making incisions[839] in the fruit with hooks of iron, for otherwise
it will not come to maturity. But when this has been done, it may be
gathered within four days, immediately upon which another shoots up
in its place. Hence it is that in the year it produces seven abundant
crops, and throughout all the summer there is an abundance of milky
juice in the fruit. Even if the incisions are not made, the fruit will
shoot afresh four times during the summer, the new fruit supplanting
the old, and forcing it off before it has ripened. The wood, which is
of a very peculiar nature, is reckoned among the most useful known.
When cut down it is immediately plunged into standing water, such being
the means employed for drying[840] it. At first it sinks to the bottom,
after which it begins to float, and in a certain length of time the
additional moisture sucks it dry, which has the effect of penetrating
and soaking all[841] other kinds of wood. It is a sign that it is fit
for use[842] when it begins to float.



CHAP. 15.—THE FIG-TREE OF CYPRUS.


The fig-tree that grows in Crete, and is known there as the Cyprian
fig,[843] bears some resemblance to the preceding one; for it bears
fruit upon the trunk of the tree, and upon the branches as well, when
they have attained a certain degree of thickness. This tree, however,
sends forth buds without any leaves,[844] but similar in appearance to
a root. The trunk of the tree is similar to that of the poplar, and
the leaves to those of the elm. It produces four crops in the year,
and germinates the same number of times, but its green[845] fruit will
not ripen unless an incision is made in it to let out the milky juice.
The sweetness of the fruit and the appearance of the inside are in all
respects similar to those of the fig, and in size it is about as large
as a sorb-apple.



CHAP. 16. (8.)—THE CAROB-TREE.


Similar to this is the carob-tree, by the Ionians known as the
“ceraunia,”[846] which in a similar manner bears fruit from the trunk,
this fruit being known by the name of “siliqua,” or “pod.” For this
reason, committing a manifest error, some persons[847] have called it
the Egyptian fig; it being the fact that this tree does not grow in
Egypt, but in Syria and Ionia, in the vicinity, too, of Cnidos, and
in the island of Rhodes. It is always covered with leaves, and bears
a white flower with a very powerful odour. It sends forth shoots at
the lower part, and is consequently quite yellow on the surface, as
the young suckers deprive the trunk of the requisite moisture. When
the fruit of the preceding year is gathered, about the rising of the
Dog-star, fresh fruit immediately makes its appearance; after which the
tree blossoms while the constellation of Arcturus[848] is above the
horizon, and the winter imparts nourishment to the fruit.



CHAP. 17. (9.)—THE PERSIAN TREE. IN WHAT TREES THE FRUITS GERMINATE THE
ONE BELOW THE OTHER.


Egypt, too, produces another tree of a peculiar description, the
Persian[849] tree, similar in appearance to the pear-tree, but
retaining its leaves during the winter. This tree produces without
intermission, for if the fruit is pulled to-day, fresh fruit will
make its appearance to-morrow: the time for ripening is while the
Etesian[850] winds prevail. The fruit of this tree is more oblong than
a pear, but is enclosed in a shell and a rind of a grassy colour, like
the almond; but what is found within, instead of being a nut as in the
almond, is a plum, differing from the almond[851] in being shorter and
quite soft. This fruit, although particularly inviting for its luscious
sweetness, is productive of no injurious effects. The wood, for its
goodness, solidity, and blackness, is in no respect inferior to that
of the lotus: people have been in the habit of making statues of it.
The wood of the tree which we have mentioned as the “balanus,”[852]
although very durable, is not so highly esteemed as this, as it is
knotted and twisted in the greater part: hence it is only employed for
the purposes of ship-building.



CHAP. 18.—THE CUCUS.


On the other hand, the wood of the cucus[853] is held in very high
esteem. It is similar in nature to the palm, as its leaves are
similarly used for the purposes of texture: it differs from it,
however, in spreading out its arms in large branches. The fruit, which
is of a size large enough to fill the hand, is of a tawny colour, and
recommends itself by its juice, which is a mixture of sweet and rough.
The seed in the inside is large and of remarkable hardness, and turners
use it for making curtain rings.[854] The kernel is sweet, while fresh;
but when dried it becomes hard to a most remarkable degree, so much so,
that it can only be eaten after being soaked in water for several days.
The wood is beautifully mottled with circling veins,[855] for which
reason it is particularly esteemed among the Persians.



CHAP. 19.—THE EGYPTIAN THORN.


No less esteemed, too, in the same country, is a certain kind of
thorn,[856] though only the black variety, its wood being imperishable,
in water even, a quality which renders it particularly valuable for
making the sides of ships: on the other hand, the white kinds will
rot very rapidly. It has sharp, prickly thorns on the leaves even,
and bears its seeds in pods; they are employed for the same purposes
as galls in the preparation of leather. The flower, too, has a pretty
effect when made into garlands, and is extremely useful in medicinal
preparations. A gum, also, distils from this tree; but the principal
merit that it possesses is, that when it is cut down, it will grow
again within three years. It grows in the vicinity of Thebes, where we
also find the quercus, the Persian tree, and the olive: the spot that
produces it is a piece of woodland, distant three hundred stadia from
the Nile, and watered by springs of its own.

(10.) Here we find, too, the Egyptian[857] plum-tree, not much unlike
the thorn last mentioned, with a fruit similar to the medlar, and which
ripens in the winter. This tree never loses its leaves. The seed in
the fruit is of considerable size, but the flesh of it, by reason of
its quality, and the great abundance in which it grows, affords quite
a harvest to the inhabitants of those parts; after cleaning it, they
subject it to pressure, and then make it up into cakes for keeping.
There was formerly[858] a woodland district in the vicinity of Memphis,
with trees of such enormous size, that three men could not span one
with their arms: one of these trees is remarkable, not for its fruit,
or any particular use that it is, but for the singular phænomenon that
it presents. In appearance it strongly resembles a thorn,[859] and
it has leaves which have all the appearance of wings, and which fall
immediately the branch is touched by any one, and then immediately
shoot again.



CHAP. 20. (11.)—NINE KINDS OF GUM. THE SARCOCOLLA.


It is universally agreed, that the best gum is that produced from the
Egyptian thorn;[860] it is of variegated appearance, of azure colour,
clean, free from all admixture of bark, and adheres to the teeth; the
price at which it sells is three denarii per pound. That produced from
the bitter almond-tree and the cherry[861] is of an inferior kind,
and that which is gathered from the plum-tree is the worst of all. The
vine, too, produces a gum,[862] which is of the greatest utility in
healing the sores of children; while that which is sometimes found on
the olive-tree[863] is used for the tooth-ache. Gum is also found on
the elm[864] upon Mount Corycus in Cilicia, and upon the juniper,[865]
but it is good for nothing; indeed, the gum of the elm found there is
apt to breed gnats. From the sarcocolla[866] also—such is the name of
a certain tree—a gum exudes that is remarkably useful to painters[867]
and medical men; it is similar to incense dust in appearance, and for
those purposes the white kind is preferable to the red. The price of it
is the same as that mentioned above.[868]



CHAP. 21.—THE PAPYRUS: THE USE OF PAPER; WHEN IT WAS FIRST INVENTED.


We have not as yet taken any notice of the marsh plants, nor yet of
the shrubs that grow upon the banks of rivers: before quitting Egypt,
however, we must make some mention of the nature of the papyrus, seeing
that all the usages of civilized life depend in such a remarkable
degree upon the employment of paper—at all events, the remembrance
of past events. M. Varro informs us that paper owes its discovery to
the victorious[869] career of Alexander the Great, at the time when
Alexandria in Egypt was founded by him; before which period paper
had not been used, the leaves of the palm having been employed for
writing at an early period, and after that the bark of certain trees.
In succeeding ages, public documents were inscribed on sheets of lead,
while private memoranda were impressed upon linen cloths, or else
engraved on tablets of wax; indeed, we find it stated in Homer,[870]
that tablets were employed for this purpose even before the time of
the Trojan war. It is generally supposed, too, that the country which
that poet speaks of as Egypt, was not the same that is at present
understood by that name, for the Sebennytic and the Saitic[871] Nomes,
in which all the papyrus is produced, have been added since his time by
the alluvion of the Nile; indeed, he himself has stated[872] that the
main-land was a day and a night’s sail from the island of Pharos[873],
which island at the present day is united by a bridge to the city
of Alexandria. In later times, a rivalry having sprung up between
King Ptolemy and King Eumenes,[874] in reference to their respective
libraries, Ptolemy prohibited the export of papyrus; upon which,
as Varro relates, parchment was invented for a similar purpose at
Pergamus. After this, the use of that commodity, by which immortality
is ensured to man, became universally known.



CHAP. 22.—THE MODE OF MAKING PAPER.


Papyrus grows either in the marshes of Egypt, or in the sluggish waters
of the river Nile, when they have overflowed and are lying stagnant,
in pools that do not exceed a couple of cubits in depth. The root lies
obliquely,[875] and is about the thickness of one’s arm; the section
of the stalk is triangular, and it tapers gracefully upwards towards
the extremity, being not more than ten cubits at most in height. Very
much like a thyrsus[876] in shape, it has a head on the top, which
has no seed[877] in it, and, indeed, is of no use whatever, except as
a flower employed to crown the statues of the gods. The natives use
the roots by way of wood, not only for firing, but for various other
domestic purposes as well. From the papyrus itself they construct
boats[878] also, and of the outer coat they make sails and mats, as
well as cloths, besides coverlets and ropes; they chew it also, both
raw and boiled, though they swallow the juice only.

The papyrus grows in Syria also, on the borders of the same lake around
which grows the sweet-scented calamus;[879] and King Antiochus used
to employ the productions of that country solely as cordage for naval
purposes; for the use of spartum[880] had not then become commonly
known. More recently it has been understood that a papyrus grows in
the river Euphrates, in the vicinity of Babylon, from which a similar
kind of paper may easily be produced: still, however, up to the present
time the Parthians have preferred to impress[881] their characters upon
cloths.



CHAP. 23. (12)—THE NINE DIFFERENT KINDS OF PAPER.


Paper is made from the papyrus, by splitting it with a needle into
very thin leaves, due care being taken that they should be as broad
as possible. That of the first quality is taken from the centre of
the plant, and so in regular succession, according to the order of
division. “Hieratica”[882] was the name that was anciently given
to it, from the circumstance that it was entirely reserved for the
religious books. In later times, through a spirit of adulation, it
received the name of “Augusta,” just as that of second quality was
called “Liviana,” from his wife, Livia; the consequence of which was,
that the name “hieratica” came to designate that of only third-rate
quality. The paper of the next quality was called “amphitheatrica,”
from the locality[883] of its manufacture. The skilful manufactory that
was established by Fannius[884] at Rome, was in the habit of receiving
this last kind, and there, by a very careful process of insertion, it
was rendered much finer; so much so, that from being a common sort,
he made it a paper of first-rate quality, and gave his own[885] name
to it: while that which was not subjected to this additional process
retained its original name of “amphitheatrica.” Next to this is
the Saitic paper, so called from the city of that name,[886] where
it is manufactured in very large quantities, though of cuttings of
inferior[887] quality. The Tæniotic paper, so called from a place in
the vicinity,[888] is manufactured from the materials that lie nearer
to the outside skin; it is sold, not according to its quality, but by
weight only. As to the paper that is known as “emporetica,”[889] it
is quite useless for writing upon, and is only employed for wrapping
up other paper, and as a covering for various articles of merchandize,
whence its name, as being used by dealers. After this comes the bark of
the papyrus, the outer skin of which bears a strong resemblance to the
bulrush, and is solely used for making ropes, and then only for those
which have to go into the water.[890]

All these various kinds of paper are made upon a table, moistened with
Nile water; a liquid which, when in a muddy state, has the peculiar
qualities of glue.[891] This table being first inclined,[892] the
leaves of papyrus are laid upon it lengthwise, as long, indeed, as the
papyrus will admit of, the jagged edges being cut off at either end;
after which a cross layer is placed over it, the same way, in fact,
that hurdles are made. When this is done, the leaves are pressed close
together, and then dried in the sun; after which they are united to one
another, the best sheets being always taken first, and the inferior
ones added afterwards. There are never more than twenty of these sheets
to a roll.[893]



CHAP. 24.—THE MODE OF TESTING THE GOODNESS OF PAPER.


There is a great difference in the breadth of the various kinds of
paper. That of best quality[894] is thirteen fingers wide, while the
hieratica is two fingers less. The Fanniana is ten fingers wide, and
that known as “amphitheatrica,” one less. The Saitic is of still
smaller breadth, indeed it is not so wide as the mallet with which the
paper is beaten; and the emporetica is particularly narrow, being not
more than six fingers in breadth.

In addition to the above particulars, paper is esteemed according
to its fineness, its stoutness, its whiteness, and its smoothness.
Claudius Cæsar effected a change in that which till then had been
looked upon as being of the first quality: for the Augustan paper had
been found to be so remarkably fine, as to offer no resistance to the
pressure of the pen; in addition to which, as it allowed the writing
upon it to run through, it was continually causing apprehensions of
its being blotted and blurred by the writing on the other side; the
remarkable transparency, too, of the paper was very unsightly to the
eye. To obviate these inconveniences, a groundwork of paper was made
with leaves of the second quality, over which was laid a woof, as it
were, formed of leaves of the first. He increased the width also of
paper; the width [of the common sort] being made a foot, and that of
the size known as “macrocollum,”[895] a cubit; though one inconvenience
was soon detected in it, for, upon a single leaf[896] being torn in
the press, more pages were apt to be spoilt than before.[897] In
consequence of the advantages above-mentioned, the Claudian has come to
be preferred to all other kinds of paper, though the Augustan is still
used for the purposes of epistolary correspondence. The Livian, which
had nothing in common with that of first quality, but was entirely of a
secondary rank, still holds its former place.



CHAP. 25.—THE PECULIAR DEFECTS IN PAPER.


The roughness and inequalities in paper are smoothed down with a
tooth[898] or shell; but the writing in such places is very apt to
fade. When it is thus polished the paper does not take the ink so
readily, but is of a more lustrous and shining surface. The water
of the Nile that has been originally employed in its manufacture,
being sometimes used without due precaution, will unfit the paper for
taking writing: this fault, however, may be detected by a blow with
the mallet, or even by the smell,[899] when the carelessness has been
extreme. These spots, too, may be detected by the eye; but the streaks
that run down the middle of the leaves where they have been pasted
together, though they render the paper spongy and of a soaking nature,
can hardly ever be detected before the ink runs, while the pen is
forming the letters; so many are the openings for fraud to be put in
practice. The consequence is, that another labour has been added to the
due preparation of paper.



CHAP. 26.—THE PASTE USED IN THE PREPARATION OF PAPER.


The common paper paste is made of the finest flour of wheat mixed with
boiling water, and some small drops of vinegar sprinkled in it: for the
ordinary workman’s paste, or gum, if employed for this purpose, will
render the paper brittle. Those, however, who take the greatest pains,
boil the crumb of leavened bread, and then strain off the water: by the
adoption of this method the paper has the fewest seams caused by the
paste that lies between, and is softer than the nap of linen even. All
kinds of paste that are used for this purpose, ought not to be older
or newer than one day. The paper is then thinned out with a mallet,
after which a new layer of paste is placed upon it; then the creases
which have formed are again pressed out, and it then undergoes the same
process with the mallet as before. It is thus that we have memorials
preserved in the ancient handwriting of Tiberius and Caius Gracchus,
which I have seen in the possession of Pomponius Secundus,[900] the
poet, a very illustrious citizen, almost two hundred years since those
characters were penned. As for the handwriting of Cicero, Augustus, and
Virgil, we frequently see them at the present day.



CHAP. 27. (13.)—THE BOOKS OF NUMA.


There are some facts of considerable importance which make against the
opinion expressed by M. Varro, relative to the invention of paper.
Cassius Hemina, a writer of very great antiquity, has stated in the
Fourth Book of his Annals, that Cneius Terentius, the scribe, while
engaged in digging on his land in the Janiculum, came to a coffer,
in which Numa had been buried, the former king of Rome, and that in
this coffer were also found some books[901] of his. This took place
in the consulship of Publius Cornelius Cethegus, the son of Lucius,
and of M. Bæbius Tamphilus, the son of Quintus, the interval between
whose consulship and the reign of Numa was five hundred and thirty-five
years. These books were made of paper, and, a thing that is more
remarkable still, is the fact that they lasted so many years buried in
the ground. In order, therefore, to establish a fact of such singular
importance, I shall here quote the words of Hemina himself—“Some
persons expressed wonder how these books could have possibly lasted so
long a time—this was the explanation that Terentius gave: ‘In nearly
the middle of the coffer there lay a square stone, bound on every side
with cords enveloped in wax;[902] upon this stone the books had been
placed, and it was through this precaution, he thought, that they
had not rotted. The books, too, were carefully covered with citrus
leaves,[903] and it was through this, in his belief, that they had
been protected from the attacks of worms.’ In these books were written
certain doctrines relative to the Pythagorean philosophy; they were
burnt by Q. Petilius, the prætor, because they treated of philosophical
subjects.”[904]

Piso, who had formerly been censor, relates the same facts in the
First Book of his Commentaries, but he states in addition, that there
were seven books on Pontifical Rights, and seven on the Pythagorean
philosophy.[905] Tuditanus, in his Fourteenth Book, says that they
contained the decrees of Numa: Varro, in the Seventh Book of his
“Antiquities of Mankind,”[906] states that they were twelve in number;
and Antias, in his Second Book, says that there were twelve written
in Latin, on pontifical matters, and as many in Greek, containing
philosophical precepts. The same author states also in his Third Book
why it was thought proper to burn them.

It is a fact acknowledged by all writers, that the Sibyl[907] brought
three books to Tarquinius Superbus, of which two were burnt by herself,
while the third perished by fire with the Capitol[908] in the days
of Sylla. In addition to these facts, Mucianus, who was three times
consul, has stated that he had recently read, while governor of Lycia,
a letter written upon paper, and preserved in a certain temple there,
which had been written from Troy, by Sarpedon; a thing that surprises
me the more, if it really was the fact that even in the time of Homer
the country that we call Egypt was not in existence.[909] And why too,
if paper was then in use, was it the custom, as it is very well known
it was, to write upon leaden tablets and linen cloths? Why, too, has
Homer[910] stated that in Lycia tablets[911] were given to Bellerophon
to carry, and not a paper letter?

Papyrus, for making paper, is apt to fail occasionally; such a thing
happened in the time of the Emperor Tiberius, when there was so great
a scarcity[912] of paper that members of the senate were appointed
to regulate the distribution of it: had not this been done, all the
ordinary relations of life would have been completely disarranged.



CHAP. 28. (14.)—THE TREES OF ÆTHIOPIA.


Æthiopia, which borders upon Egypt, has in general no remarkable trees,
with the exception of the wool-bearing[913] ones, of which we have had
occasion to speak[914] in our description of the trees of India and
Arabia. However, the produce of the tree of Æthiopia bears a much
stronger resemblance to wool, and the follicule is much larger, being
very similar in appearance to a pomegranate; as for the trees, they are
otherwise similar in every respect. Besides this tree, there are some
palms, of which we have spoken already.[915] In describing the islands
along the coast of Æthiopia, we have already made mention[916] of their
trees and their odoriferous forests.



CHAP. 29. (15.)—THE TREES OF MOUNT ATLAS. THE CITRUS, AND THE TABLES
MADE OF THE WOOD THEREOF.


Mount Atlas is said to possess a forest of trees of a peculiar
character,[917] of which we have already spoken.[918] In the vicinity
of this mountain is Mauretania, a country which abounds in the
citrus,[919] a tree which gave rise to the mania[920] for fine tables,
an extravagance with which the women reproach the men, when they
complain of their vast outlay upon pearls. There is preserved to the
present day a table which belonged to M. Cicero,[921] and for which,
notwithstanding his comparatively moderate means, and what is even
more surprising still, at that day too, he gave no less than one[922]
million sesterces: we find mention made also of one belonging to Gallus
Asinius, which cost one million one hundred thousand sesterces. Two
tables were also sold by auction which had belonged to King Juba; the
price fetched by one was one million two hundred thousand sesterces,
and that of the other something less. There has been lately destroyed
by fire, a table which came down from the family of the Cethegi, and
which had been sold for the sum of one million four hundred thousand
sesterces, the price of a considerable domain, if any one, indeed,
could be found who would give so large a sum for an estate.

The largest table that has ever yet been known was one that belonged
to Ptolemæus, king of Mauretania; it was made of two semicircumferences
joined together down the middle, being four feet and a half in
diameter, and a quarter of a foot in thickness: the most wonderful
fact, however, connected with it, was the surprising skill with which
the joining had been concealed,[923] and which rendered it more
valuable than if it had been by nature a single piece of wood. The
largest table that is made of a single piece of wood, is the one that
takes its name[924] from Nomius, a freedman of Tiberius Cæsar. The
diameter of it is four feet, short by three quarters of an inch, and
it is half a foot in thickness, less the same fraction. While speaking
upon this subject, I ought not to omit to mention that the Emperor
Tiberius had a table that exceeded four feet in diameter by two inches
and a quarter, and was an inch and a half in thickness: this, however,
was only covered with a veneer of citrus-wood, while that which
belonged to his freedman Nomius was so costly, the whole material of
which it was composed being knotted[925] wood.

These knots are properly a disease or excrescence of the root, and
those used for this purpose are more particularly esteemed which have
lain entirely concealed under ground; they are much more rare than
those that grow above ground, and that are to be found on the branches
also. Thus, to speak correctly, that which we buy at so vast a price is
in reality a defect in the tree: of the size and root of it a notion
may be easily formed from the circular sections of its trunk. The tree
resembles the wild female cypress[926] in its foliage, smell, and the
appearance of the trunk. A spot called Mount Ancorarius, in Nearer
Mauretania, used formerly to furnish the most esteemed citrus-wood, but
at the present day the supply is quite exhausted.



CHAP. 30.—THE POINTS THAT ARE DESIRABLE OR OTHERWISE IN THESE TABLES.


The principal merit of these tables is to have veins[927] arranged in
waving lines, or else forming spirals like so many little whirlpools.
In the former arrangement the lines run in an oblong direction, for
which reason these are called “tiger”[928] tables; while in the
latter the marks are circling and spiral, and hence they are styled
“panther”[929] tables. There are some tables also with wavy, undulating
marks, and which are more particularly esteemed if these resemble the
eyes on a peacock’s tail. Next in esteem to these last, as well as
those previously mentioned, is the veined wood,[930] covered, as it
were, with dense masses of grain, for which reason these tables have
received the name of “apiatæ.”[931] But the colour of the wood is the
quality that is held in the highest esteem of all: that of wine mixed
with honey[932] being the most prized, the veins being peculiarly
refulgent. Next to the colour, it is the size that is prized; at the
present day whole trunks are greatly admired, and sometimes several are
united in a single table.

The peculiar defects in these kinds of tables are woodiness,[933]
such being the name given to the table when the wood is dull,
common-looking, indistinct, or else has mere simple marks upon it,
resembling the leaves of the plane-tree; also, when it resembles the
veins of the holm-oak or the colour of that tree; and, a fault to
which it is peculiarly liable from the effect of heat or wind, when
it has flaws in it or hair-like lines resembling flaws; when it has a
black mark, too, running through it resembling a murena in appearance,
various streaks that look like crow scratches, or knots like poppy
heads, with a colour all over nearly approaching to black, or blotches
of a sickly hue. The barbarous tribes bury this wood in the ground
while green, first giving it a coating of wax. When it comes into the
workmen’s hands, they put it for seven days beneath a heap of corn, and
then take it out for as many more: it is quite surprising how greatly
it loses in weight by this process. Shipwrecks have recently taught us
also that this wood is dried by the action of sea-water, and that it
thereby acquires a hardness[934] and a degree of density which render
it proof against corruption: no other method is equally sure to produce
these results. These tables are kept best, and shine with the greatest
lustre, when rubbed with the dry hand, more particularly just after
bathing. As if this wood had been created for the behoof of wine, it
receives no injury from it.

(16.) As this tree is one among the elements of more civilized life,
I think that it is as well on the present occasion to dwell a little
further upon it. It was known to Homer even, and in the Greek it is
known by the name of “thyon,”[935] or sometimes “thya.” He says that
the wood of this tree was among the unguents that were burnt for
their pleasant odour by Circe,[936] whom he would represent as being
a goddess; a circumstance which shows the great mistake committed by
those who suppose that perfumes are meant under that name,[937] seeing
that in the very same line he says that cedar and larch were burnt
along with this wood, a thing that clearly proves that it is only of
different trees that he is speaking. Theophrastus, an author who wrote
in the age succeeding that of Alexander the Great, and about the year
of the City of Rome 440, has awarded a very high rank to this tree,
stating that it is related that the raftering of the ancient temples
used to be made of this wood, and that the timber, when employed
in roofs, will last for ever, so to say, being proof against all
decay,—quite incorruptible, in fact. He also says that there is nothing
more full of wavy veins[938] than the root of this tree, and that there
is no workmanship in existence more precious than that made of this
material. The finest kind of citrus grows, he says, in the vicinity of
the Temple of Jupiter Hammon; he states also that it is produced in the
lower part of Cyrenaica. He has made no mention, however, of the tables
that are made of it; indeed, we have no more ancient accounts of them
than those of the time of Cicero, from which it would appear that they
are a comparatively recent invention.



CHAP. 31.—THE CITRON-TREE.


There is another tree also which has the same name of “citrus,”[939]
and bears a fruit that is held by some persons in particular dislike
for its smell and remarkable bitterness; while, on the other hand,
there are some who esteem it very highly. This tree is used as an
ornament to houses; it requires, however, no further description.



CHAP. 32. (17.)—THE LOTUS.


Africa, too, at least that part of it which looks towards our shores,
produces a remarkable tree, the lotus,[940] by some known as the
“celtis,” which has also been naturalized in Italy,[941] though it
has been somewhat modified by the change of soil. The finest quality
of lotus is that found in the vicinity of the Syrtes and among the
Nasamones. It is the same size as the pear-tree, although Cornelius
Nepos states to the effect that it is but short. The leaves have
numerous incisions, just as with those of the holm-oak. There are many
varieties of the lotus, which are characterized more particularly by
the difference in their respective fruits. The fruit is of about the
size of a bean, and its colour is that of saffron, though before it
is ripe it is continually changing its tints, like the grape. It has
branches thickly set with leaves, like the myrtle, and not, as with
us in Italy, like the cherry. In the country to which this tree is
indigenous, the fruit of it is so remarkably sweet and luscious, that
it has even given its name to a whole territory, and to a nation[942]
who, by their singular hospitality, have even seduced strangers who
have come among them, to lose all remembrance of their native country.
It is said also, that those who eat this fruit are subject to no
maladies of the stomach. The fruit which has no stone in the inside
is the best: this stone in the other kind seems to be of an osseous
nature. A wine is also extracted from this fruit very similar to
honied wine; according to Nepos, however, it will not last above ten
days; he states also that the berries are chopped up with alica,[943]
and then put away in casks for the table. Indeed, we read that armies
have been fed upon this food when marching to and fro through the
territory of Africa. The wood is of a black colour, and is held in high
esteem for making flutes; from the root also they manufacture handles
for knives, and various other small articles.

Such is the nature of the tree that is so called in Africa; the same
name being also given to a certain[944] herb, and to a stalk[945] that
grows in Egypt belonging to the marsh plants. This last plant springs
up when the waters of the Nile have retired after its overflow: its
stalk is similar to that of the bean, and its leaves are numerous and
grow in thick clusters, but are shorter and more slender than those
of the bean. The fruit grows on the head of the plant, and is similar
in appearance to a poppy in its indentations[946] and all its other
characteristics; within there are small grains, similar to those of
millet.[947] The inhabitants lay these heads in large heaps, and there
let them rot, after which they separate the grain from the residue by
washing, and then dry it; when this is done they pound it, and then
use it as flour for making a kind of bread. What is stated in addition
to these particulars, is a very singular[948] fact; it is said that
when the sun sets, these poppy-heads shut and cover themselves in the
leaves, and at sun-rise they open again; an alternation which continues
until the fruit is perfectly ripe, and the flower, which is white,
falls off.

(18.) Even more than this, of the lotus of the Euphrates,[949] it is
said that the head and flower of the plant, at nightfall, sink into the
water, and there remain till midnight, so deep in the water, that on
thrusting in one’s arm, the head cannot be reached: after midnight it
commences to return upwards, and gradually becomes more and more erect
till sunrise, when it emerges entirely from the water and opens its
flower; after which it still continues to rise, until at last it is to
be seen raised quite aloft, high above the level of the water. This
lotus has a root about the size of a quince, enveloped in a black skin,
similar to that with which the chesnut is covered. The substance that
lies within this skin is white, and forms very pleasant food, but is
better cooked, either in water or upon hot ashes, then in a raw state.
Swine fatten upon nothing better than the peelings of this root.



CHAP. 33. (19.)—THE TREES OF CYRENAICA. THE PALIURUS.


The region of Cyrenaica places before the lotus its paliurus,[950]
which is more like a shrub in character, and bears a fruit of a redder
colour. This fruit contains a nut, the kernel of which is eaten by
itself, and is of a very agreeable flavour. The taste of it is improved
by wine, and, in fact, the juices are thought to be an improvement to
wine. The interior of Africa, as far as the Garamantes and the deserts,
is covered with palms, remarkable for their extraordinary size and
the lusciousness of their fruit. The most celebrated are those in the
vicinity of the Temple of Jupiter Hammon.



CHAP. 34.—NINE VARIETIES OF THE PUNIC APPLE. BALAUSTIUM.


But the vicinity of Carthage is claimed more particularly as its own
by the fruit the name of which is the “Punic apple;”[951] though by
some it is called “granatum.”[952] This fruit has been distinguished
into a variety of kinds; the name of “apyrenum”[953] being given to
the one which has no[954] woody seeds inside, but is naturally whiter
than the others, the pips being of a more agreeable flavour, and the
membranes by which they are separated not so bitter. Their conformation
in other respects, which is very similar to the partitions of the
cells in the honeycomb, is much the same in all. Of those that have a
kernel there are five kinds, the sweet, the acrid, the mixed, the acid,
and the vinous: those of Samos and Egypt are distinguished into those
with red, and those with white foliage.[955] The skin, while the fruit
is yet sour, is held in high esteem for tanning leather. The flower of
this tree is known by the name of “balaustium,” and is very useful for
medicinal purposes;[956] also for dyeing cloths a colour which from it
has derived its name.[957]



CHAP. 35. (20.)—THE TREES OF ASIA AND GREECE; THE EPIPACTIS, THE ERICA,
THE CNIDIAN GRAIN OR THYMELÆA, PYROSACHNE, CNESTRON, OR CNEORON.


In Asia and Greece are produced the following shrubs, the
epipactis,[958] by some known as “elleborine,” the leaves of which are
of small size, and when taken in drink, are an antidote against poison;
just in the same way that those of the erica[959] are a specific
against the sting of the serpent.

(21.) Here is also found another shrub, upon which grows the grain of
Cnidos,[960] by some known as “linum;” the name of the shrub itself
being thymelæa,[961] while others, again, call it “chamelæa”,[962]
others pyrosachne, others cnestron, and others cneorum; it bears a
strong resemblance to the wild olive, but has a narrow leaf, which
has a gummy taste in the mouth. The shrub is of about the size of the
myrtle; its seed is of the same colour and appearance, but is solely
used for medicinal purposes.



CHAP. 36.—THE TRAGION: TRAGACANTHE.


The island of Crete is the only place that produces the shrub called
“tragion.”[963] It is similar in appearance to the terebinth;[964]
a similarity which extends to the seed even, said to be remarkably
efficacious for healing wounds made by arrows. The same island produces
tragacanthe[965] also, with a root which resembles that of the white
thorn; it is very much preferred[966] to that which is grown in Media
or in Achaia; the price at which it sells is three denarii per pound.



CHAP. 37.—THE TRAGOS OR SCORPIO; THE MYRICA OR BRYA; THE OSTRYS.


Asia, too, produces the tragos[967] or scorpio, a thorny shrub,
destitute of leaves, with red clusters upon it that are employed
in medicine. Italy produces the myrica, which some persons call
the “tamarix;”[968] and Achaia, the wild brya,[969] remarkable for
the circumstance that it is only the cultivated kind that bears a
fruit, not unlike the gall-nut. In Syria and Egypt this plant is very
abundant. It is to the trees of this last country that we give the name
of “unhappy;”[970] but yet those of Greece are more unhappy still,
for that country produces the tree known as “ostrys,” or, as it is
sometimes called, “ostrya,”[971] a solitary tree that grows about rocks
washed by the water, and very similar in the bark and branches to the
ash. It resembles the pear-tree in its leaves, which, however, are a
little longer and thicker, with wrinkled indentations running down the
whole length of the leaf. The seed of this tree resembles barley in
form and colour. The wood is hard and solid; it is said, that if it is
introduced into a house, it is productive of painful deliveries and of
shocking deaths.



CHAP. 38. (22.)—THE EUONYMOS.


There is no tree productive of a more auspicious presage than one which
grows in the Isle of Lesbos, and is known by the name of euonymos.[972]
It bears some resemblance to the pomegranate tree, the leaf being in
size between the leaf of that and the leaf of the laurel, while in
shape and softness it resembles that of the pomegranate tree: it has
a white blossom,[973] by which it immediately gives us notice of its
dangerous properties.[974] It bears a pod[975] very similar to that of
sesame, within which there is a grain of quadrangular shape, of coarse
make and poisonous to animals. The leaf, too, has the same noxious
effects; sometimes, however, a speedy alvine discharge is found to give
relief on such occasions.



CHAP. 39.—THE TREE CALLED EON.


Alexander Cornelius has called a tree by the name of “eon,”[976] with
the wood of which, he says, the ship Argo was built. This tree has on
it a mistletoe similar to that of the oak, which is proof against all
injury from either fire or water, in the same manner, in fact, as that
of no other tree known. This tree, however, appears to have been known
to no other author, that I am aware of.



CHAP. 40.—THE ANDRACHLE.[977]


Nearly all the Greek writers interpret the name of the tree called
“andrachle,” as meaning the same as “purslain:”[978] whereas purslain
is, in reality, a herb, and, with the difference of a single letter,
is called “andrachne.” The andrachle is a wild tree, which never grows
in the plain country, and is similar to the arbute tree in appearance,
only that its leaves are smaller, and never fall off. The bark, too, is
not rough, but might be taken to be frozen all over, so truly wretched
is its appearance.



CHAP. 41.—THE COCCYGIA; THE APHARCE.


Similar, too, in leaf to the preceding tree, is the coccygia,[979]
though not so large; it has this peculiarity, that it loses its fruit
while still in the downy[980] state—they then call it “pappus”—a thing
that happens to no other tree. The apharce[981] is another tree that is
similar to the andrachle, and like it, bears twice in the year: just as
the grape is beginning to flower the first fruit is ripening, while the
second fruit ripens at the commencement of winter; of what nature this
fruit is we do not find stated.



CHAP. 42.—THE FERULA.


We ought to place the ferula[982] also in the number of the exotics,
and as making one of the trees. For, in fact, we distinguish the trees
into several different kinds: it is the nature of some to have wood
entirely in place of bark, or, in other words, on the outside; while,
in the interior, in place of wood, there is a fungous kind of pith,
like that of the elder; others, again, are hollow within, like the
reed. The ferula grows in hot countries and in places beyond sea, the
stalk being divided into knotted joints. There are two kinds of it;
that which grows upwards to a great height the Greeks call by the name
of “narthex,”[983] while the other, which never rises far from the
ground, is known as the “narthecya.”[984] From the joints very large
leaves shoot forth, the largest lying nearest to the ground: in other
respects it has the same nature as the anise, which it resembles also
in its fruit. The wood of no shrub is lighter than this; hence it is
very easily carried, and the stalks of it make good walking-sticks[985]
for the aged.



CHAP. 43.—THE THAPSIA.


The seed of the ferula has been by some persons called “thapsia;”[986]
deceived, no doubt, by what is really the fact, that the thapsia is
a ferula, but of a peculiar kind, with leaves like those of fennel,
and a hollow stalk not exceeding a walking-stick in length; the seed
is like that of the ferula, and the root of the plant is white. When
an incision is made in the thapsia, a milky juice oozes from it, and,
when pounded, it produces a kind of juice; the bark even is never
thrown[987] away. All these parts of the shrub are poisonous, and,
indeed, it is productive of injurious effects to those engaged in
digging it up; for if the slightest wind should happen to be blowing
towards them from the shrub, the body begins to swell, and erysipelas
attacks the face: it is for this reason that, before beginning work,
they anoint the face all over with a solution of wax. Still, however,
the medical men say that, mixed with other ingredients, it is of
considerable use in the treatment of some diseases. It is employed
also for the cure of scald-head, and for the removal of black and
blue spots upon the skin, as if, indeed, we were really at a loss for
remedies in such cases, without having recourse to things of so deadly
a nature. These plants, however, act their part in serving as a pretext
for the introduction of noxious agents; and so great is the effrontery
now displayed, that people would absolutely persuade one that poisons
are a requisite adjunct to the practice of the medical art.

The thapsia of Africa[988] is the most powerful of all. Some persons
make an incision in the stalk at harvest-time, and bore holes in the
root, too, to let the juice flow; after it has become quite dry,
they take it away. Others, again, pound the leaves, stalk, and root
in a mortar, and after drying the juice in the sun, divide it into
lozenges.[989] Nero Cæsar, at the beginning of his reign, conferred
considerable celebrity on this plant. In his nocturnal skirmishes[990]
it so happened that he received several contusions on the face, upon
which he anointed it with a mixture composed of thapsia, frankincense,
and wax, and so contrived the next day effectually to give the lie to
all rumours, by appearing with a whole skin.[991] It is a well-known
fact, that fire[992] is kept alight remarkably well in the hollow stalk
of the ferula, and that for this purpose those of Egypt are the best.



CHAP. 44. (23.)—THE CAPPARIS OR CYNOSBATON, OTHERWISE OPHIOSTAPHYLE.


In Egypt, too, the capparis[993] is found, a shrub with a wood of
much greater solidity. The seed of it is a well-known article of
food,[994] and is mostly gathered together with the stalk. It is as
well, however, to be on our guard against the foreign kinds;[995] for
that of Arabia has certain deleterious properties, that from Africa
is injurious to the gums, and that from Marmarica is prejudicial to
the womb and causes flatulence in all the organs. That of Apulia, too,
is productive of vomiting, and causes derangement in the stomach and
intestines. Some persons call this shrub “cynosbaton,”[996] others,
again, “ophiostaphyle.”[997]



CHAP. 45.—THE SARIPHA.


The saripha,[998] too, that grows on the banks of the Nile, is one of
the shrub genus. It is generally about two cubits in height, and of
the thickness of one’s thumb: it has the foliage of the papyrus, and
is eaten in a similar manner. The root, in consequence of its extreme
hardness, is used as a substitute for charcoal in forging iron.



CHAP. 46. (24.)—THE ROYAL THORN.


We must take care, also, not to omit a peculiar shrub that is planted
at Babylon, and only upon a thorny plant there, as it will not live
anywhere else, just in the same manner as the mistletoe will live
nowhere but upon trees. This shrub, however, will only grow upon a kind
of thorn, which is known as the royal thorn.[999] It is a wonderful
fact, but it germinates the very same day that it has been planted.
This is done at the rising of the Dog-star, after which it speedily
takes possession of the whole tree. They use it in the preparation of
wine, and it is for this purpose that it is planted. This thorn grows
at Athens also, upon the Long Walls there.[1000]



CHAP. 47.—THE CYTISUS.


The cytisus[1001] is also a shrub, which, as a food for sheep, has been
extolled with wonderful encomiums by Aristomachus the Athenian, and, in
a dry state, for swine as well: the same author, too, pledges his word
that a jugerum of very middling land, planted with the cytisus, will
produce an income of two thousand sesterces per annum. It is quite as
useful as the ervum,[1002] but is apt to satiate more speedily: very
little of it is necessary to fatten cattle; to such a degree, indeed,
that beasts of burden, when fed upon it, will very soon take a dislike
to barley. There is no fodder known, in fact, that is productive of
a greater abundance of milk, and of better quality; in the medical
treatment of cattle in particular, this shrub is found a most excellent
specific for every kind of malady. Even more than this, the same author
recommends it, when first dried and then boiled in water, to be given
to nursing women, mixed with wine, in cases where the milk has failed
them: and he says that, if this is done, the infant will be all the
stronger and taller for it. In a green state, or, if dried, steeped in
water, he recommends it for fowls. Both Democritus and Aristomachus
promise us also that bees will never fail us so long as they can obtain
the cytisus for food. There is no crop that we know of, of a similar
nature, that costs a smaller price. It is sown at the same time as
barley, or, at all events, in the spring, in seed like the leek, or
else planted in the autumn, and before the winter solstice, in the
stalk. When sown in grain, it ought to be steeped in water, and if
there should happen to be no rain, it ought to be watered when sown:
when the plants are about a cubit in height, they are replanted in
trenches a foot in depth. It is transplanted at the equinoxes, while
the shrub is yet tender, and in three years it will arrive at maturity.
It is cut at the vernal equinox, when the flower is just going off; a
child or an old woman is able to do this, and their labour may be had
at a trifling rate. It is of a white appearance, and if one would wish
to express briefly what it looks like, it is a trifoliated shrub,[1003]
with small, narrow leaves. It is always given to animals at intervals
of a couple of days, and in winter, when it is dry, before being given
to them, it is first moistened with water. Ten pounds of cytisus will
suffice for a horse, and for smaller animals in proportion: if I may
here mention it by the way, it is found very profitable to sow garlic
and onions between the rows of cytisus.

This shrub has been found in the Isle of Cythnus, from whence it has
been transplanted to all the Cyclades, and more recently to the cities
of Greece, a fact which has greatly increased the supply of cheese:
considering which, I am much surprised that it is so rarely used in
Italy. This shrub is proof, too, against all injuries from heat, from
cold, from hail, and from snow: and, as Hyginus adds, against the
depredations of the enemy even, the wood[1004] produced being of no
value whatever.



CHAP. 48. (25.)—THE TREES AND SHRUBS OF THE MEDITERRANEAN. THE PHYCOS,
PRASON, OR ZOSTER.


Shrubs and trees grow in the sea[1005] as well; those of our sea[1006]
are of inferior size, while, on the other hand, the Red Sea and all the
Eastern Ocean are filled with dense forests. No other language has any
name for the shrub which is known to the Greeks as the “phycos,”[1007]
since by the word “alga”[1008] a mere herb is generally understood,
while the “phycos” is a complete shrub. This plant has a broad leaf of
a green colour, which is by some called “prason,”[1009] and by others
is known as “zoster.”[1010] Another kind,[1011] again, has a hairy
sort of leaf, very similar to fennel, and grows upon rocks, while
that previously mentioned grows in shoaly spots, not far from the
shore. Both kinds shoot in the spring, and die in autumn.[1012] The
phycos[1013] which grows on the rocks in the neighbourhood of Crete, is
used also for dyeing purple; the best kind being that produced on the
north side of the island, which is the case also with sponges of the
very best quality. A third kind,[1014] again, is similar in appearance
to grass; the root of it is knotted, and so is the stalk, which
resembles that of a reed.



CHAP. 49.—THE SEA BRYON.


There is another kind of marine shrub, known by the name of
“bryon;”[1015] it has the leaf of the lettuce, only that it is of a
more wrinkled appearance; it grows nearer land, too, than the last.
Far out at sea we find a fir-tree[1016] and an oak,[1017] each a cubit
in height; shells are found adhering to their branches. It is said
that this sea-oak is used for dyeing wool, and that some of them even
bear acorns[1018] in the sea, a fact which has been ascertained by
shipwrecked persons and divers. There are other marine trees also of
remarkable size, found in the vicinity of Sicyon; the sea-vine,[1019]
indeed, grows everywhere. The sea-fig[1020] is destitute of leaves,
and the bark is red. There is a palm-tree[1021] also in the number of
the sea-shrubs. Beyond the columns of Hercules there is a sea-shrub
that grows with the leaf of the leek, and others with those of the
carrot,[1022] and of thyme. Both of these last, when thrown up by the
tide, are transformed[1023] into pumice.



CHAP. 50.—PLANTS OF THE RED SEA.


In the East, it is a very remarkable thing, that immediately after
leaving Coptos, as we pass through the deserts, we find nothing
whatever growing, with the exception of the thorn that is known as
the “thirsty”[1024] thorn; and this but very rarely. In the Red Sea,
however, there are whole forests found growing, among which more
particularly there are plants that bear the laurel-berry and the
olive;[1025] when it rains also certain fungi make their appearance,
which, as soon as they are touched by the rays of the sun, are turned
into pumice.[1026] The size of the shrubs is three cubits in height;
and they are all filled with sea-dogs,[1027] to such a degree, that it
is hardly safe to look at them from the ship, for they will frequently
seize hold of the very oars.



CHAP. 51.—PLANTS OF THE INDIAN SEA.


The officers[1028] of Alexander who navigated the Indian seas, have
left an account of a marine tree, the foliage of which is green while
in the water; but the moment it is taken out, it dries and turns to
salt. They have spoken also of bulrushes[1029] of stone bearing a
strong resemblance to real ones, which grew along the sea-shore, as
also certain shrubs[1030] in the main sea, the colour of an ox’s horn,
branching out in various directions, and red at the tips. These, they
say, were brittle, and broke like glass when touched, while, on the
other hand, in the fire they would become red-hot like iron, and when
cool resume their original colour.

In the same part of the earth also, the tide covers the forests that
grow on the islands, although the trees there are more lofty[1031]
than the very tallest of our planes and poplars! The leaves of these
trees resemble that of the laurel, while the blossom is similar to
the violet, both in smell and colour: the berries resemble those of
the olive, and they, too, have an agreeable smell: they appear in the
autumn, and the leaves of the trees never fall off. The smaller ones
are entirely covered by the waves, while the summits of those of larger
size protrude from the water, and ships are made fast to them; when
the tide falls the vessels are similarly moored to the roots. We find
the same persons making mention of certain other trees which they saw
out at sea, which always retained their leaves, and bore a fruit very
similar to the lupine.



CHAP. 52.—THE PLANTS OF THE TROGLODYTIC SEA; THE HAIR OF ISIS: THE
CHARITO-BLEPHARON.


Juba relates, that about the islands of the Troglodytæ there is
a certain shrub found out at sea, which is known as the “hair of
Isis:”[1032] he says that it bears a strong resemblance to coral,
is destitute of leaves, and if cut will change its colour, becoming
quite black and hard, and so brittle as to break if it falls. He
speaks also of another marine plant, to which he gives the name of
“Charito-blepharon,”[1033] and which, he says, is particularly
efficacious in love-charms.[1034] Bracelets[1035] and necklaces are
made of it. He says also that it is sensible[1036] when it is about to
be taken, and that it turns as hard as horn, so hard, indeed, as to
blunt the edge of iron. If, on the other hand, it is cut before it is
sensible of the danger, it is immediately transformed to stone.


SUMMARY.—Remarkable facts, narratives, and observations, four
hundred and sixty-eight.


ROMAN AUTHORS QUOTED.—M. Varro,[1037] Mucianus,[1038] Virgil,[1039]
Fabianus,[1040] Sebosus,[1041] Pomponius Mela,[1042] Fabius,[1043]
Procilius,[1044] Hyginus,[1045] Trogus,[1046] Claudius Cæsar,[1047]
Cornelius Nepos,[1048] Sextius Niger[1049] who wrote in Greek on
Medicine, Cassius Hemina,[1050] L. Piso,[1051] Tuditanus,[1052]
Antias.[1053]


FOREIGN AUTHORS QUOTED.—Theophrastus,[1054] Herodotus,[1055]
Callisthenes,[1056] Isigonus,[1057] Clitarchus,[1058] Anaximenes,[1059]
Duris,[1060] Nearchus,[1061] Onesicritus,[1062] Polycritus,[1063]
Olympiodorus,[1064] Diognetus,[1065] Cleobulus,[1066] Anticlides,[1067]
Chares[1068] of Mitylene, Menæchmus,[1069] Dorotheus[1070] of
Athens, Lycus,[1071] Antæus,[1072] Ephippus,[1073] Dion,[1074]
Adimantus,[1075] Ptolemy Lagus,[1076] Marsyas[1077] of Macedon,
Zoilus[1078] of Macedon, Democritus,[1079] Amphilochus,[1080]
Alexander Polyhistor,[1081] Aristomachus,[1082] King Juba,[1083]
Apollodorus[1084] who wrote on Perfumes, Heraclides[1085] the
physician, Botrys[1086] the physician, Archidemus[1087] the
physician, Dionysius[1088] the physician, Democlides[1089] the
physician, Euphron[1090] the physician, Mnesides[1091] the
physician, Diagoras[1092] the physician, Iollas[1093] the physician,
Heraclides[1094] of Tarentum, Xenocrates[1095] of Ephesus.



BOOK XIV.

THE NATURAL HISTORY OF THE FRUIT TREES.



CHAPS. 1 & 2. (1.)—THE NATURE OF THE VINE. ITS MODE OF FRUCTIFICATION.


Those which have been hitherto mentioned, are, nearly all of them,
exotic trees, which it is impossible to rear in any other than
their native soil, and which are not to be naturalized in strange
countries.[1096] It is now for us to speak of the more ordinary kinds,
of all of which Italy may be looked upon as more particularly the
parent.[1097] Those who are well acquainted with the subject, must only
bear in mind that for the present we content ourselves with merely
stating the different varieties of these trees, and not the mode of
cultivating them, although there is no doubt that the characteristics
of a tree depend very considerably upon its cultivation. At this fact
I cannot sufficiently express my astonishment, that of some trees all
memory has utterly perished, and that the very names of some, of which
we find various authors making mention, have wholly disappeared.[1098]
And yet who does not readily admit that now, when intercommunications
have been opened between all parts of the world, thanks to the majestic
sway of the Roman empire, civilization and the arts of life have made a
rapid progress, owing to the interchange of commodities and the common
enjoyment by all of the blessings of peace, while at the same time a
multitude of objects which formerly lay concealed, are now revealed
for our indiscriminate use?

Still, by Hercules! at the present day there are none to be found who
have any acquaintance with much that has been handed down to us by the
ancient writers; so much more comprehensive was the diligent research
of our forefathers, or else so much more happily employed was their
industry. It is a thousand years ago since Hesiod,[1099] at the very
dawn, so to say, of literature, first gave precepts for the guidance
of the agriculturist, an example which has since been followed by no
small number of writers. Hence have originated considerable labours
for ourselves, seeing that we have not only to enquire into the
discoveries of modern times, but to ascertain as well what was known to
the ancients, and this, too, in the very midst of that oblivion which
the heedlessness of the present day has so greatly tended to generate.
What causes then are we to assign for this lethargy, other than those
feelings which we find actuating the public in general throughout all
the world? New manners and usages, no doubt, have now come into vogue,
and the minds of men are occupied with subjects of a totally different
nature; the arts of avarice, in fact, are the only ones that are now
cultivated.

In days gone by, the sway and the destinies of states were bounded by
their own narrow limits, and consequently the genius of the people was
similarly circumscribed as well, through a sort of niggardliness that
was thus displayed by Fortune: hence it became with them a matter of
absolute necessity to employ the advantages of the understanding: kings
innumerable received the homage of the arts, and in making a display
of the extent of their resources, gave the highest rank to those arts,
entertaining the opinion that it was through them that they should
ensure immortality. Hence it was that due rewards, and the various
works of civilization, were displayed in such vast abundance in those
times. For these later ages, the enlarged boundaries of the habitable
world, and the vast extent of our empire, have been a positive injury.
Since the Censor has been chosen for the extent of his property,
since the judge has been selected according to the magnitude of his
fortune, since it has become the fashion to consider that nothing
reflects a higher merit upon the magistrate and the general than a
large estate, since the being destitute of heirs[1100] has begun
to confer upon persons the very highest power and influence, since
legacy-hunting[1101] has become the most lucrative of all professions,
and since it has been considered that the only real pleasures are those
of possessing, all the true enjoyments of life have been utterly lost
sight of, and all those arts which have derived the name of liberal,
from liberty,[1102] that greatest blessing of life, have come to
deserve the contrary appellation, servility alone being the passport to
profit.

This servility each one has his own peculiar way of making most
agreeable, and of putting in practice in reference to others, the
motives and the hopes of all tending to the one great object, the
acquisition of wealth: indeed, we may everywhere behold men even
of naturally excellent qualities preferring to foster the vicious
inclinations of others rather than cultivate their own talents. We
may therefore conclude, by Hercules! that pleasure has now begun to
live, and that life, truly so called, has ceased to be.[1103] As to
ourselves, however, we shall continue our researches into matters now
lost in oblivion, nor shall we be deterred from pursuing our task by
the trivial nature[1104] of some of our details, a consideration which
has in no way influenced us in our description of the animal world. And
yet we find that Virgil, that most admirable poet, has allowed this
to influence him, in his omission to enlarge upon the beauties of the
garden; for, happy and graceful poet as he is, he has only culled what
we may call the flower of his subject: indeed, we find that he has only
named[1105] in all some fifteen varieties of the grape, three of the
olive, the same number of the pear, and the citron of Assyria, and has
passed over the rest in silence altogether.

(2). With what then ought we to begin in preference to the vine, the
superiority in which has been so peculiarly conceded to Italy, that
in this one blessing we may pronounce her to have surpassed those of
all other nations of the earth, with the sole exception of those that
bear the various perfumes? and even there, when the vine is in flower,
there is not a perfume known which in exquisite sweetness can surpass
it. The vine has been justly reckoned[1106] by the ancients among the
trees, on account of its remarkable size. In the city of Populonium,
we see a statue of Jupiter formed of the trunk of a single vine, which
has for ages remained proof against all decay; and at Massilia, there
is a patera made of the same wood. At Metapontum, the temple of Juno
has long stood supported by pillars formed of the like material; and
even at the present day we ascend to the roof of the temple of Diana at
Ephesus, by stairs constructed, it is said, of the trunk of a single
vine, that was brought from Cyprus; the vines of that island often
attaining a most remarkable size. There is not a wood in existence of
a more lasting nature than this; I am strongly inclined, however, to
be of opinion that the material of which these various articles were
constructed was the wild vine.



CHAP. 3.—THE NATURE OF THE GRAPE, AND THE CULTIVATION OF THE VINE.


The cultivated vine is kept down by pruning every year, and all the
strength of the tree is drawn as much as possible into the shoots, or
else thrown downwards to the sets;[1107] indeed, it is only allowed to
expand with the view of ensuring an abundant supply of juice, a result
which is obtained in various modes according to the peculiarities of
the climate and the nature of the soil. In Campania they attach[1108]
the vine to the poplar: embracing the tree to which it is thus wedded,
the vine grasps the branches with its amorous arms, and as it climbs,
holds on with its knotted trunk, till it has reached the very summit;
the height being sometimes so stupendous that the vintager when hired
is wont to stipulate for his funeral pile and a grave at the owner’s
expense. The vine keeps continually on the increase, and it is quite
impossible to separate the two, or rather, I may say, to tear them
asunder. Valerianus Cornelius has regarded it as one of the most
remarkable facts that could be transmitted to posterity, that single
vines have been known to surround villas and country-houses with
their shoots and creeping tendrils ever on the stretch. At Rome, in
the porticoes of Livia, a single vine, with its leaf-clad trellises,
protects with its shade the walks in the open air; the fruit of it
yields twelve amphoræ of must.[1109]

Everywhere we find the vine overtopping the elm even, and we read that
Cineas,[1110] the ambassador of King Pyrrhus, when admiring the great
height of the vines at Aricia, wittily making allusion to the peculiar
rough taste of wine, remarked that it was with very good reason that
they had hung the parent of it on so lofty a gibbet. There is a tree
in that part of Italy which lies beyond the Padus,[1111] known as the
“rumpotinus,”[1112] or sometimes by the name of “opulus,” the broad
circular[1113] storeys of which are covered with vines, whose branches
wind upwards in a serpentine form to the part where the boughs finally
divide,[1114] and then, throwing out their tendrils, disperse them in
every direction among the straight and finger-like twigs which project
from the branches. There are vines also, about as tall as a man of
moderate height, which are supported by props, and, as they throw out
their bristling tendrils, form whole vineyards: while others, again, in
their inordinate love for climbing, combined with skill on the part of
the proprietor, will cover even the very centre[1115] of the court-yard
with their shoots and foliage. So numerous are the varieties of the
vine which even Italy alone presents.

In some of the provinces the vine is able to stand of itself without
anything to support it, drawing in its bending branches, and making
up in its thickness for its stunted size. In other places, again,
the winds will not allow of this mode of culture, as in Africa, for
instance, and various parts of the province of Gallia Narbonensis.
These vines, being prevented from growing beyond the first branches,
and hence always retaining a resemblance to those plants which stand
in need of the hoe, trail along the ground just like them, and every
here and there suck[1116] up the juices from the earth to fill their
grapes: it is in consequence of this, that in the interior of Africa
the clusters[1117] are known to exceed the body of an infant in size.
The wine of no country is more acid than those of Africa, but there is
nowhere to be found a grape that is more agreeable for its firmness,
a circumstance which may very probably have given rise to its name of
the “hard grape.”[1118] As to the varieties of the grape, although they
are rendered innumerable by the size, the colour, and the flavour of
the berry, they are multiplied even still more by the wines that they
produce. In one part they are lustrous with a rich purple colour, while
in another, again, they glow with a rosy tint, or else are glossy with
their verdant hue. The grapes that are merely white or black are the
common sorts. The bumastus[1119] swells out in form like a breast,
while that known as the “dactylus,”[1120] has a berry of remarkable
length. Nature, too, displays such varieties in these productions of
hers, that small grapes are often to be found adhering to the largest
vines, but of surpassing sweetness; they are known by the name of
“leptorragæ.”[1121] Some, again, will keep throughout the winter, if
care is taken to hang them to the ceiling[1122] with a string; while
others, again, will keep by virtue of their own natural freshness
and vigour, if put into earthen jars, which are then enclosed in
dolia,[1123] and covered up with the fermenting husks of grapes. Some
grapes receive from the smoke of the blacksmith’s forge that remarkable
flavour which it is also known to impart to wines: it was the high name
of the Emperor Tiberius that brought into such great repute the grapes
that had been smoked in the smithies of Africa. Before his time the
highest rank at table was assigned to the grapes of Rhætia,[1124] and
to those growing in the territory of Verona.

Raisins of the sun have the name of “passi,” from having been
submitted[1125] to the influence of the sun. It is not uncommon to
preserve grapes in must, and so make them drunk with their own juices;
while there are some that are all the sweeter for being placed in must
after it has been boiled; others, again, are left to hang on the parent
tree till a new crop has made its appearance, by which time they have
become as clear and as transparent[1126] as glass. Astringent pitch,
if poured upon the footstalk of the grape, will impart to it all that
body and that firmness which, when placed in dolia or amphoræ, it gives
to wine. More recently, too, there has been discovered a vine which
produces a fruit that imparts to its wine a strong flavour of pitch:
it is the famous grape that confers such celebrity on the territory of
Vienne,[1127] and of which several varieties have recently enriched the
territories of the Arverni, the Sequani, and the Helvii:[1128] it was
unknown in the time of the poet Virgil, who has now been dead these
ninety years.[1129]

In addition to these particulars, need I make mention of the fact that
the vine[1130] has been introduced into the camp and placed in the
centurion’s hand for the preservation of the supreme authority and
command? that this is the high reward which summons the lagging ranks
to the eagles raised aloft,[1131] and that even in chastisement for
faults it tends to reflect honour upon the punishment?[1132] It was
the vineyard, too, that first afforded a notion,[1133] the practical
utility of which has been experienced in many a siege. Among the
medicinal preparations, too, the vine holds so high a place, that
its very wines taken by themselves are efficacious as remedies for
disease.[1134]



CHAP. 4. (2.)—NINETY-ONE VARIETIES OF THE VINE.


Democritus, who has declared that he was acquainted with every
variety of the grape known in Greece, is the only person who has
been of opinion that every kind could be enumerated; but, on the
other hand, the rest of the authors have stated that they are quite
innumerable[1135] and of infinite extent, an assertion the truth of
which will be more evident, if we only consider the vast number of
wines. I shall not attempt, then, to speak of every kind of vine, but
only of those that are the most remarkable, seeing that the varieties
are very nearly as numberless as the districts in which they grow. It
will suffice, then, to point out those which are the most remarkable
among the vines, or else are peculiar for some wonderful property.

The very highest rank is given to the Aminean[1136] grape, on
account of the body and durability of its wine, which improves with
old age. There are five varieties of the Aminean grape; of these,
the smaller germana, or “sister” grape, has a smaller berry than
the rest, and flowers more strongly, being able to bear up against
rain and tempestuous weather; a thing that is not the case with the
larger germana, though it is less exposed to danger when attached to
a tree than when supported only by a trellis. Another kind, again,
has obtained the name of the “gemella,” or “twin” grape, because
the clusters always grow[1137] in couples: the flavour of the wine
is extremely rough, but it is remarkable for its strength. Of these
several varieties the smaller one suffers from the south wind, but
receives nutriment from all the others, upon Mount Vesuvius, for
instance, and the hills of Surrentum: in the other parts of Italy it is
never grown except attached to trees. The fifth kind is that known as
the lanata, or “woolly” grape; so that we need not be surprised at the
wool-bearing trees[1138] of the Seres or the Indians, for this grape
is covered with a woolly down of remarkable thickness. It is the first
of the Aminean vines that ripens, but the grape decays with remarkable
rapidity.

The second rank belongs to the vines of Nomentum,[1139] the wood of
which is red, from which circumstance the vines have received from some
the name of “rubellæ.” The grapes of this vine produce less wine than
usual, in consequence of the extraordinary quantity of husk and lees
they throw off: but the vine is remarkably strong, is well able to
stand the frost, and is apt to receive more detriment from drought than
from rain, from heat than from cold; hence it is that those are looked
upon as the best that are grown in cold and moist localities. That
variety which has the smallest grape is considered the most fruitful:
the one which has a jagged leaf is less productive.

The vine known as the “apiana,”[1140] has received that name from the
bee, an insect which is remarkably fond of it: there are two varieties
of this vine. This grape, too, is covered in its young state with a
kind of down; the main difference between the two varieties is, that
the one ripens more rapidly than the other, though this last ripens
with considerable quickness. A cold locality is not at all hurtful to
them, although there is no grape that ripens sooner: these grapes,
however, very soon rot in the rain. The wines produced by this grape
are sweet at first, but contract a rough flavour in the course of
years. This vine is cultivated more than any other in Etruria. Thus far
we have made mention of the more celebrated vines among those which are
peculiar and indigenous to Italy; the rest have been introduced from
Chios or Thasos.

The small Greek[1141] grape is not inferior to the Aminean for the
excellence of its quality: the berry is remarkably thin-skinned,
and the cluster so extremely small,[1142] that it is not worth
while cultivating it, except on a soil of remarkable richness. The
eugenia,[1143] so called from its high qualities, has been introduced
into the Alban territory from the hills of Tauromenium:[1144] it is
found, however, to thrive only there, for if transplanted elsewhere it
degenerates immediately: in fact, there is in some vines so strong an
attachment to their native soil, that they leave behind them all their
high repute, and are never transplanted in their full entirety. This is
the case, too, with the Rhætian and the Allobrogian grapes, of which
we have made mention above as the pitch-flavoured[1145] grape; these
are justly deemed excellent in their own country, while elsewhere
they are held in no esteem at all. Still, however, in consequence of
their remarkable fertility, they make up for quality by abundance: the
eugenia thrives in spots which are scorching hot, the Rhætian vine in
places of a more moderate temperature, and the Allobrogian in cold,
exposed situations, the fruit being of a black colour, and ripened by
the agency of frost.

The wines produced from the vines of which we have hitherto made
mention, even though the grapes are black, become, all of them, when
old, of a white[1146] complexion. The other vines are of no note in
particular, though sometimes, thanks to some peculiarity either in
the climate or the soil, the wines produced from them attain a mature
old age; such, for instance, as the Fecenian[1147] vine, and the
Biturigian,[1148] which blossoms at the same time with it, but has
not so many grapes. The blossoms of these last-mentioned vines are
not liable to receive injury, both because they are naturally but
transitory, and have the power of resisting the action of both wind and
storm; still, however, those that grow in cold spots are considered
superior to those produced in a warm site, and those found in moist
places superior to those grown in dry, thirsty localities.

The vine known as the “visula”[1149] * * * * more than abundance of
fruit, being unable to endure the extreme variations of the atmosphere,
though it is very well able to stand a continuation of either cold or
heat. Of this last kind the smaller one is the best, but difficult to
please in its choice; in a rich earth it is apt to rot, while in a thin
soil it will come to nothing at all: in its fastidiousness it requires
a soil of middling quality, and hence it is that it is so commonly
found on the hills of the Sabine territory. Its grape is unsightly in
appearance, but has a very pleasant flavour: if it is not gathered at
the very moment that it is ripe, it will fall, even before it decays.
The extreme size of the leaves, and its natural hardiness, are its
great protection against the disastrous effects of hail.

The grapes known as “helvolæ”[1150] are remarkable for the peculiarity
of their colour, which is a sort of midway between purple and black,
but varies so frequently that it has made some persons give them the
name of “varianæ.” Of the two sorts of helvolæ, the black is the one
generally preferred: they both of them produce every other year, but
the wine is best when the vintage has been less abundant.

The vine that is known as the “precia”[1151] is also divided into
two varieties, distinguished by the size of the grape. These vines
produce a vast quantity of wood, and the grape is very good for
preserving in jars;[1152] the leaves are similar in appearance to that
of parsley.[1153] The people of Dyrrhachium hold in high esteem the
vine known as the “basilica,” the same which in Spain is called the
“cocolobis.”[1154] The grapes of this vine grow in thin clusters, and
it can stand great heat, and the south winds. The wine produced from
it is apt to fly to the head:[1155] the produce of the vine is very
large. The people in Spain distinguish two kinds of this vine, the one
with the oblong, the other with the round grape; they gather this fruit
the very last of all. The sweeter the cocolobis is, the more it is
valued; but even if it has a rough taste, the wine will become sweet by
keeping, while, on the other hand, that which was sweet at first, will
acquire a certain roughness; it is in this last state that the wine is
thought to rival that of Alba.[1156] It is said that the juice of this
grape is remarkably efficacious when drunk as a specific for diseases
of the bladder.

The “albuelis”[1157] produces most of its fruit at the top of the
tree, the visula at the bottom; hence, when planted around the same
tree, in consequence of these peculiarities in their nature, they bear
between them a two-fold crop. One of the black grape vines has been
called the “inerticula,”[1158] though it might with more propriety have
been styled the “sobria;”[1159] the wine from it is remarkably good,
and more particularly when old; but though strong, it is productive
of no ill effects, and, indeed, is the only wine that will not cause
intoxication.

The abundance of their produce again recommends other vines to us,
and, in the first place, that known as the “helvennaca.”[1160] Of
this vine there are two kinds; the larger, which is by some called
the “long” helvennaca, and the smaller kind, which is known as the
“emarcum,”[1161] not so prolific as the first, but producing a wine of
more agreeable flavour; it is distinguished by its rounded leaf, but
they are both of them of slender make. It is requisite to place forks
beneath these vines for the support of their branches, as otherwise
it would be quite impossible for them to support the weight of their
produce: they receive nutriment from the breezes that blow from the
sea, and foggy weather is injurious to them. There is not one among
the vines that manifests a greater aversion to Italy, for there it
becomes comparatively leafless and stunted, and soon decays, while the
wine which it produces there will not keep beyond the summer: no vine,
however, thrives better in a poor soil. Græcinus, who has copied from
the works of Cornelius Celsus, gives it as his opinion that it is not
that the nature of this vine is repugnant to the climate of Italy, but
that it is the mode of cultivating it that is wrong, and the anxiety
to force it to put forth its shoots; a mode of treatment, he thinks,
which absorbs all its fertility, unless the soil in which it is planted
happens to be remarkably rich, and by its support prevents it from
being exhausted. It is said that this vine is never carbuncled,[1162]
a remarkable quality, if, indeed, it really is the fact that there is
any vine in existence that is exempt from the natural influences of the
climate.

The spionia, by some called the “spinea,”[1163] is able to bear heat
very well, and thrives in the autumn and rainy weather: indeed, it
is the only one among all the vines that does well amid fogs, for
which reason it is peculiar to the territory of Ravenna.[1164] The
venicula[1165] is one of those that blossom the strongest, and its
grapes are particularly well adapted for preserving in jars. The
Campanians, however, prefer to give it the name of “scircula,” while
others, again, call it “stacula.” Tarracina has a vine known as the
“numisiana;” it has no qualities of its own, but has characteristics
just according to the nature of the soil in which it is planted: the
wine, however, if kept in the earthen casks[1166] of Surrentum, is
remarkable for its goodness, that is to say, as far south as Vesuvius.
On arriving in that district, we find the Murgentina,[1167] the very
best among all those that come from Sicily. Some, indeed, call the
vine “Pompeiana”[1168] and it is more particularly fruitful when grown
in Latium, just as the “horconia”[1169] is productive nowhere but in
Campania. Of a contrary nature is the vine known as the “argeica,”
and by Virgil called “argitis:”[1170] it makes the ground all the
more[1171] productive, and is remarkably stout in its resistance to
rain and the effects of old age, though it will hardly produce wine
every year; it is remarkable for the abundant crops which it bears,
though the grapes are held but in small esteem for eating. The vine
known as the “metica” lasts well for years, and offers a successful
resistance to all changes of weather; the grape is black, and the wine
assumes a tawny hue when old.

(3.) The varieties that have been mentioned thus far are those that
are generally known; the others belong to peculiar countries or
individual localities, or else are of a mixed nature, the produce of
grafting. Thus the vine known as the “Tudernis,”[1172] is peculiar to
the districts of Etruria, and so too is the vine that bears the name of
“Florentia.” At Arretium the talpona, the etesiaca, and the consemina,
are particularly excellent.[1173] The talpona,[1174] which is a black
grape, produces a pale, straw-coloured[1175] must: the etesiaca[1176]
is apt to deceive; the more the wine it produces the better the
quality, but it is a remarkable fact, that just as it has reached that
point its fecundity ceases altogether. The consemina[1177] bears a
black grape, but its wine will not keep, though the grape itself is a
most excellent keeper; it is gathered fifteen days later than any other
kind of grape: this vine is very fruitful, but its grape is only good
for eating. The leaves of this tree, like those of the wild vine, turn
the colour of blood just before the fall: the same is the case also
with some[1178] other varieties, but it is a proof that they are of
very inferior quality.

The irtiola[1179] is a vine peculiar to Umbria and the territories
of Mevania and Picenum, while the pumula[1180] belongs to Amiternum.
In the same districts we find the vine called bannanica,[1181]
which is very deceptive, though the people are remarkably fond of
its fruit. The municipal town of Pompeii has given its name to the
Pompeia,[1182] although it is to be found in greater abundance in
the territory of Clusium. The Tiburina, also, is so called from the
municipal town of Tibûr[1183], although it is in this district that
they have lately discovered the grape known as the “oleaginea,” from
its strong resemblance to an olive: this being the very last kind of
grape that has been introduced. The Sabines and the Laurentes are the
only people acquainted with the vinaciola.[1184] As to the vines of
Mount Gaurus,[1185] I am aware that, as they have been transplanted
from the Falernian territory, they bear the name of “Falernian;” but
it is a fact that the Falernian vine, when transplanted, rapidly
degenerates. Some persons, too, have made out a Tarentine variety, with
a grape of remarkable sweetness: the grapes of the “capnios,”[1186] the
“bucconiatis,”[1187] and the “tarrupia,” grow on the hills of Thurii,
and are never gathered till after the frost commences. Pisæ enjoys the
Parian vine, and Mutina the prusinian,[1188] with a black grape, the
wine of which turns pale within four years. It is a very remarkable
thing, but there is a grape here that turns round with the sun, in its
diurnal motion, a circumstance from which it has received the name of
“streptos.”[1189] In Italy, the Gallic vine is a great favourite,
while beyond the Alps that of Picenum[1190] is preferred. Virgil has
made mention[1191] of the Thasian vine, the Mareotis, the lagea, and
several other foreign varieties, which are not to be found in Italy.

There are some vines, again, that are remarkable, not for their wine,
but for their grapes, such, for instance, as the ambrosia,[1192] one
of the “duracinus,”[1193] kind, a grape which requires no potting, but
will keep perfectly well if left on the vine, so remarkable is the
strength with which it is endowed for withstanding the effects of cold,
heat, and stormy weather. The “orthampelos,”[1194] too, is a vine that
requires neither tree nor stay, as it is well able to sustain its own
weight. This, however, is not the case with the “dactylis,”[1195] the
stem of which is no thicker than the finger. The “columbina”[1196] is
one of those with the finest clusters, and still more so is the purple
“bimammia;” it does not bear in clusters,[1197] but only secondary
bunches. There is the tripedanea,[1198] too, a name which it owes to
the length of its clusters, and the scirpula,[1199] with its shrivelled
berry; the Rhætica,[1200] too, so called in the Maritime Alps, though
very different from the grape of that name which is so highly esteemed,
and of which we have previously spoken; for in this variety the
clusters are small, the grapes lie closely packed, and it produces but
a poor wine. It has, however, the thinnest skin of all the grapes, and
a single stone,[1201] of very diminutive size, which is known as the
“Chian;”[1202] one or two of the grapes on the cluster are remarkably
large. There is also the black Aminean, to which the name of Syriaca is
given: the Spanish vine, too, the very best of all those of inferior
quality.

The grapes that are known as escariæ,[1203] are grown on trellises.
Of the duracinus[1204] kind, there are those known as the white and
the black varieties; the bumastus, too, is similarly distinguished
in colour. Among the vines too, that have not as yet been mentioned,
there are the Ægian and the Rhodian[1205] kinds, as also the uncialis,
so called, it would seem, from its grape being an ounce in weight.
There is the picina[1206] too, the blackest[1207] grape known, and
the stephanitis,[1208] the clusters of which Nature, in a sportive
mood, has arranged in the form of a garland, the leaves being
interspersed[1209] among the grapes; there are the grapes, too, known
as the “forenses,”[1210] and which quickly come to maturity, recommend
themselves to the buyer by their good looks, and are easily carried
from place to place.

On the other hand, those known as the “cinerea”[1211] are condemned
by their very looks, and so are the rabuscula[1212] and the
asinusca;[1213] the produce of the alopecis,[1214] which resembles in
colour a fox’s tail, is held in less disesteem. The Alexandrina[1215]
is the name of a vine that grows in the vicinity of Phalacra: it
is of stunted growth, and has branches a cubit in length; the grape
is black, about the size of a bean, with a berry that is soft, and
remarkably small: the clusters hang in a slanting direction, and
are remarkably sweet; the leaves are small and round, without any
division.[1216] Within the last seven years there has been introduced
at Alba Helvia,[1217] in the province of Gallia Narbonensis, a vine
which blossoms but a single day, and is consequently proof against all
accidents: the name given to it is “Narbonica,” and it is now planted
throughout the whole of that province.



CHAP. 5. (4.)—REMARKABLE FACTS CONNECTED WITH THE CULTURE OF THE VINE.


The elder Cato, who was rendered more particularly illustrious by his
triumph[1218] and the censorship, and even more so by his literary
fame, and the precepts which he has given to the Roman people upon
every subject of utility, and the proper methods of cultivation in
particular; a man who, by the universal confession, was the first
husbandman of his age and without a rival—has mentioned a few varieties
only of the vine, the very names of some of which are by this utterly
forgotten.[1219] His statement on this subject deserves our separate
consideration, and requires to be quoted at length, in order that we
may make ourselves acquainted with the different varieties of this tree
that were held in the highest esteem in the year of the City of Rome
600, about the time of the capture of Carthage and Corinth, the period
of his death: it will show too, what great advances civilization has
made in the last two hundred and thirty years. The following are the
remarks which he has made on the subject of the vine and the grape.

“Where the site is considered to be most favourable to the growth of
the vine, and exposed to the warmth of the sun, you will do well to
plant the small[1220] Aminean, as well as the two eugenia,[1221] and
the smaller helvia.[1222] On the other hand, where the soil is of a
denser nature or more exposed to fogs, the greater Aminean should be
planted, or else the Murgentine,[1223] or the Apician of Lucania. The
other varieties of the grape are, for the most part, adapted to any
kind of soil; they are best preserved in a lora.[1224] The best for
keeping by hanging, are the duracinus kind, the greater Aminean, and
the Scantian;[1225] these, too, will make excellent raisins for keeping
if dried at the blacksmith’s forge.” There are no precepts in the Latin
language on this subject more ancient than these, so near are we to the
very commencement of all our practical knowledge! The Aminean grape, of
which mention has been made above, is by Varro called the “Scantian.”

In our own times we have but few instances of any consummate skill
that has been manifested in reference to this subject: the less excuse
then should we have for omitting any particular which may tend to
throw a light upon the profits that may be derived from the culture
of the vine, a point which on all occasions is regarded as one of
primary importance. Acilius Sthenelus, a man of plebeian rank, and
the son of a freedman, acquired very considerable repute from the
cultivation of a vineyard in the territory of Nomentum, not more than
sixty jugera in extent, and which he finally sold for four hundred
thousand sesterces. Vetulenus Ægialus too, a freedman as well, acquired
very considerable note in the district of Liternum,[1226] in Campania,
and, indeed, received a more extensive share of the public favour,
from the fact that he cultivated the spot which had been the place
of exile of Scipio Africanus.[1227] The greatest celebrity of all,
however, was that which, by the agency of the same Sthenelus, was
accorded to Rhemmius Palæmon, who was also equally famous as a learned
grammarian. This person bought, some twenty years ago, an estate at
the price of six hundred thousand sesterces in the same district of
Nomentum, about ten miles distant from the City of Rome. The low
price of property[1228] in the suburbs, on every side of the City,
is well known; but in that quarter in particular, it had declined
to a most remarkable extent; for the estate which he purchased had
become deteriorated by long-continued neglect, in addition to which
it was situate in the very worst part of a by no means favourite
locality.[1229] Such was the nature of the property of which he thus
undertook the cultivation, not, indeed, with any commendable views or
intentions at first, but merely in that spirit of vanity for which he
was notorious in so remarkable a degree. The vineyards were all duly
dressed afresh, and hoed, under the superintendence of Sthenelus; the
result of which was that Palæmon, while thus playing the husbandman,
brought this estate to such an almost incredible pitch of perfection,
that at the end of eight years the vintage, as it hung on the trees,
was knocked down to a purchaser for the sum of four hundred thousand
sesterces; while all the world was running to behold the heaps upon
heaps of grapes to be seen in these vineyards. The neighbours, by way
of finding some excuse for their own indolence, gave all the credit of
this remarkable success to Palæmon’s profound erudition; and at last
Annæus Seneca,[1230] who both held the highest rank in the learned
world, and an amount of power and influence which at last proved too
much for him—this same Seneca, who was far from being an admirer of
frivolity, was seized with such vast admiration of this estate, as not
to feel ashamed at conceding this victory to a man who was otherwise
the object of his hatred, and who would be sure to make the very most
of it, by giving him four times the original cost for those very
vineyards, and that within ten years from the time that he had taken
them under his management. This was an example of good husbandry worthy
to be put in practice upon the lands of Cæcuba and of Setia; for since
then these same lands have many a time produced as much as seven culei
to the jugerum, or in other words, one hundred and forty amphoræ of
must. That no one, however, may entertain the belief that ancient times
were surpassed on this occasion, I would remark that the same Cato has
stated in his writings, that the proper return was seven culei to the
jugerum: all of them so many instances only tending most convincingly
to prove that the sea, which in our rashness we trespass upon, does
not make a more bounteous return to the merchant, no, not even the
merchandize that we seek on the shores of the Red and the Indian Seas,
than does a well-tilled homestead to the agriculturist.



CHAP. 6.—THE MOST ANCIENT WINES.


The wine of Maronea,[1231] on the coast of Thrace, appears to have been
the most celebrated in ancient times, as we learn from the writings
of Homer. I dismiss, however, all the fabulous stories and various
traditions which we find relative to its origin, except, indeed, the
one which states that Aristæus,[1232] a native of the same country, was
the first person that mixed honey[1233] with wine, natural productions,
both of them, of the highest degree of excellence. Homer[1234] has
stated that the Maronean wine was mixed with water in the proportion
of twenty measures of water to one of wine. The wine that is still
produced in the same district retains all its former strength, and a
degree of vigour that is quite insuperable.[1235] Mucianus, who thrice
held the consulship, and one of our most recent authors, when in that
part of the world was witness himself to the fact, that with one
sextarius of this wine it was the custom to mix no less than eighty
sextarii of water: he states, also, that this wine is black,[1236] has
a strong bouquet, and is all the richer for being old.

The Pramnian wine, too, which Homer[1237] has also similarly eulogized,
still retains its ancient fame: it is grown in the territory of Smyrna,
in the vicinity of the shrine of the Mother[1238] of the Gods.

Among the other wines now known, we do not find any that enjoyed
a high reputation in ancient times. In the year of the consulship
of L. Opimius, when C. Gracchus,[1239] the tribune of the people,
engaging in sedition, was slain, the growth of every wine was of the
very highest quality. In that year, the weather was remarkable for
its sereneness, and the ripening of the grape, the “coctura,”[1240]
as they call it, was fully effected by the heat of the sun. This
was in the year of the City 633. There are wines still preserved of
this year’s growth, nearly two hundred years ago; they have assumed
the consistency of honey, with a rough taste; for such, in fact, is
the nature of wines, that, when extremely old, it is impossible to
drink them in a pure state; and they require to be mixed with water,
as long keeping renders them intolerably bitter.[1241] A very small
quantity of the Opimian wine, mixed with them, will suffice for the
seasoning of other wines. Let us suppose, according to the estimated
value of these wines in those days, that the original price of them
was one hundred sesterces per amphora: if we add to this six per cent.
per annum, a legal and moderate interest, we shall then be able to
ascertain what was the exact price of the twelfth part of an amphora
at the beginning of the reign of Caius Cæsar, the son of Germanicus,
one hundred and sixty years after that consulship. In relation to this
fact, we have a remarkable instance,[1242] when we call to mind the
life of Pomponius Secundus, the poet, and the banquet which he gave to
that prince[1243]—so enormous is the capital that lies buried in our
cellars of wine! Indeed, there is no one thing, the value of which more
sensibly increases up to the twentieth year, or which decreases with
greater rapidity after that period, supposing that the value of it is
not by that time greatly enhanced.[1244] Very rarely, indeed, up to the
present day, has it been known for a single[1245] piece of wine to cost
a thousand sesterces, except, indeed, when such a sum may have been
paid in a fit of extravagance and debauchery. The people of Vienne,
it is said, are the only ones who have set a higher price than this
upon their “picata,” wines, the various kinds of which we have already
mentioned;[1246] and this, it is thought, they only do, vying with each
other, and influenced by a sort of national self-esteem. This wine,
drunk in a cool state, is generally thought to be of a colder[1247]
temperature than any other.



CHAP. 7. (5.)—THE NATURE OF WINES.


It is the property of wine, when drunk, to cause a feeling of warmth in
the interior of the viscera, and, when poured upon the exterior of the
body, to be cool and refreshing. It will not be foreign to my purpose
on the present occasion to state the advice which Androcydes, a man
famous for his wisdom, wrote to Alexander the Great, with the view of
putting a check on his intemperance: “When you are about to drink wine,
O king!” said he, “remember that you are about to drink the blood of
the earth: hemlock is a poison to man, wine a poison[1248] to hemlock.”
And if Alexander had only followed this advice, he certainly would not
have had to answer for slaying his friends[1249] in his drunken fits.
In fact, we may feel ourselves quite justified in saying that there is
nothing more useful than wine for strengthening the body, while, at the
same time, there is nothing more pernicious as a luxury, if we are not
on our guard against excess.



CHAP. 8. (6.)—FIFTY KINDS OF GENEROUS WINES.


Who can entertain a doubt that some kinds of wine are more agreeable
to the palate than others, or that even out of the very same vat[1250]
there are occasionally produced wines that are by no means of equal
goodness, the one being much superior to the other, whether it is
that it is owing to the cask,[1251] or to some other fortuitous
circumstance? Let each person, therefore, constitute himself his
own judge as to which kind it is that occupies the pre-eminence.
Livia[1252] Augusta, who lived to her eighty-second year,[1253]
attributed her longevity to the wine of Pucinum,[1254] as she never
drank any other. This wine is grown near a bay of the Adriatic, not
far from Mount Timavus, upon a piece of elevated rocky ground, where
the sea-breeze ripens a few grapes, the produce of which supplies a
few amphoræ: there is not a wine that is deemed superior to this for
medicinal purposes. I am strongly of opinion that this is the same
wine, the produce of the Adriatic Gulf, upon which the Greeks have
bestowed such wonderful encomiums, under the name of Prætetianum.

The late Emperor Augustus preferred the Setinum to all others, and
nearly all the emperors that have succeeded him have followed his
example, having learnt from actual experience that there is no danger
of indigestion and flatulence resulting from the use of this liquor:
this wine is grown in the country[1255] that lies just above Forum
Appii.[1256] In former times the Cæcubum enjoyed the reputation of
being the most generous of all the wines; it was grown in some marshy
swamps, planted with poplars, in the vicinity[1257] of the Gulf of
Amyclæ. This vineyard has, however, now disappeared, the result of the
carelessness of the cultivator, combined with its own limited extent,
and the works on the canal which Nero commenced, in order to provide a
navigation from Lake Avernus to Ostia.

The second rank belonged to the wine of the Falernian territory, of
which the Faustianum was the most choice variety; the result of the
care and skill employed upon its cultivation. This, however, has also
degenerated very considerably, in consequence of the growers being
more solicitous about quantity[1258] than quality. The Falernian[1259]
vineyards begin at the bridge of Campania, on the left-hand as you
journey towards the Urbana Colonia of Sylla, which was lately a
township of the city of Capua. As to the Faustian vineyards, they
extend about four miles from a village near Cædiciæ,[1260] the same
village being six miles from Sinuessa. There is now no wine known that
ranks higher than the Falernian; it is the only one, too, among all
the wines that takes fire on the application of flame.[1261] There are
three varieties of it—the rough, the sweet, and the thin. Some persons
make the following distinctions: the Caucinum, they say, grows on the
summit of this range of hills, the Faustianum on the middle slopes, and
the Falernum at the foot: the fact, too, should not be omitted, that
none of the grapes that produce these more famous wines have by any
means an agreeable flavour.

To the third[1262] rank belonged the various wines of Alba, in the
vicinity of the City, remarkable for their sweetness, and sometimes,
though rarely, rough[1263] as well: the Surrentine[1264] wines, also,
the growth of only stayed vines, which are especially recommended
to invalids for their thinness and their wholesomeness. Tiberius
Cæsar used to say that the physicians had conspired thus to dignify
the Surrentinum, which was, in fact, only another name for generous
vinegar; while Caius Cæsar, who succeeded him, gave it the name of
“noble vappa.”[1265] Vying in reputation with these are the Massic
wines, from the spots which look from Mount Gaurus towards Puteoli and
Baiæ.[1266] As to the wines of Stata, in the vicinity of Falernum,
there is no doubt that they formerly held the very highest rank, a fact
which proves very clearly that every district has its own peculiar
epochs, just as all other things have their rise and their decadence.
The Calenian[1267] wines, too, from the same neighbourhood, used to be
preferred to those last mentioned, as also the Fundanian,[1268] the
produce of vines grown on stays, or else attached to shrubs. The wines,
too, of Veliternum[1269] and Priverna,[1270] which were grown in the
vicinity of the City, used to be highly esteemed. As to that produced
at Signia,[1271] it is by far too rough to be used as a wine, but is
very useful as an astringent, and is consequently reckoned among the
medicines for that purpose.

The fourth rank, at the public banquets, was given by the late Emperor
Julius—he was the first, in fact, that brought them into favour, as we
find stated in his Letters[1272]—to the Mamertine wines, the produce of
the country in the vicinity of Messana,[1273] in Sicily. The finest of
these was the Potulanum,[1274] so called from its original cultivator,
and grown on the spots that lie nearest to the mainland of Italy.
The Tauromenitanum also, a wine of Sicily, enjoys a high repute, and
flaggons[1275] of it are occasionally passed off for Mamertinum.

Among the other wines, we find mentioned upon the Upper Sea those of
Prætutia and Ancona, as also those known as the “Palmensia,”[1276]
not improbably because the cluster springs from a single shoot.[1277]
In the interior we find the wines of Cæsena[1278] and that known as
the Mæcenatian,[1279] while in the territory of Verona there are the
Rhætian wines, only inferior, in the estimation of Virgil, to the
Falernian.[1280] Then, too, at the bottom of the Gulf[1281] we find
the wines of Adria.[1282] On the shores of the Lower Sea there are the
Latiniensian[1283] wines, the Graviscan,[1284] and the Statonian:[1285]
in Etruria, the wines of Luna bear away the palm, and those of
Genua[1286] in Liguria. Massilia, which lies between the Pyrenees and
the Alps, produces two varieties of wine, one of which is richer and
thicker than the other, and is used for seasoning other wines, being
generally known as “succosum.”[1287] The reputation of the wine of
Beterræ[1288] does not extend beyond the Gallic territories;[1289] and
as for the others that are produced in Gallia Narbonensis, nothing can
be positively stated, for the growers of that country have absolutely
established manufactories for the purposes of adulteration, where they
give a dark hue to their wines by the agency of smoke; I only wish I
could say, too, that they do not employ various herbs and noxious drugs
for the same purpose;[1290] indeed, these dealers are even known to
use aloes for the purpose of heightening the flavour and improving the
colour of their wines.

The regions of Italy that are at a greater distance from the
Ausonian Sea, are not without their wines of note, such as those of
Tarentum,[1291] Servitia,[1292] and Consentia,[1293] and those, again,
of Tempsa, Babia, and Lucania, among which the wines of Thurii hold
the pre-eminence. But the most celebrated of all of them, owing to the
fact that Messala[1294] used to drink it, and was indebted to it for
his excellent health, was the wine of Lagara,[1295] which was grown not
far from Grumentum.[1296] In Campania, more recently, new growths under
new names have gained considerable credit, either owing to careful
cultivation, or else to some other fortuitous circumstances: thus, for
instance, we find four miles from Neapolis the Trebellian,[1297] near
Capua the Cauline,[1298] wine, and the wine of Trebula[1299] grown in
the territory so called, though but of a common sort: Campania boasts
of all these, as well as of her Trifoline[1300] wines. As to the wines
of Pompeii,[1301] they have arrived at their full perfection in ten
years, after which they gain nothing by age: they are found also to
be productive of headache, which often lasts so long as the sixth
hour[1302] of the next day.

These illustrations, if I am not greatly mistaken, will go far to prove
that it is the land and the soil that is of primary importance, and not
the grape, and that it is quite superfluous to attempt to enumerate all
the varieties of every kind, seeing that the same vine, transplanted
to several places, is productive of features and characteristics of
quite opposite natures. The vineyards of Laletanum[1303] in Spain[1304]
are remarkable for the abundance of wine they produce, while those of
Tarraco[1305] and of Lauron[1306] are esteemed for the choice qualities
of their wines: those, too, of the Balearic Isles[1307] are often put
in comparison with the very choicest growths of Italy.

I am by no means unaware that most of my readers will be of opinion
that I have omitted a vast number of wines, seeing that every one has
his own peculiar choice; so much so, that wherever we go, we hear the
same story told, to the effect that one of the freedmen of the late
Emperor Augustus, who was remarkable for his judgment and his refined
taste in wines, while employed in tasting for his master’s table,
made this observation to the master of the house where the emperor
was staying, in reference to some wine the growth of that particular
country: “The taste of this wine,” said he, “is new to me, and it is
by no means of first-rate quality; the emperor, however, you will see,
will drink of no other.”[1308] Indeed I have no wish to deny that there
may be other wines deserving of a very high reputation, but those which
I have already enumerated are the varieties upon the excellence of
which the world is at present agreed.



CHAP. 9. (7.)—THIRTY-EIGHT VARIETIES OF FOREIGN WINES.


We will now, in a similar manner, give a description of the varieties
found in the parts beyond sea. After the wines mentioned by Homer,
and of which we have already spoken,[1309] those held in the highest
esteem were the wines of Thasos and Chios,[1310] and of the latter
more particularly the sort known as “Arvisium.”[1311] By the side of
these has been placed the wine of Lesbos,[1312] upon the authority of
Erasistratus, a famous physician, who flourished about the year of
the City of Rome 450. At the present day, the most esteemed of all
is the wine of Clazomenæ,[1313] since they have learned to season
it more sparingly with sea-water. The wine of Lesbos has naturally
a taste of sea-water. That from Mount Tmolus[1314] is not so much
esteemed by itself[1315] for its qualities as a wine, as for its
peculiar sweetness. It is on account of this that it is mixed with
other wines, for the purpose of modifying their harsh flavour, by
imparting to them a portion of its own sweetness; while at the same
time it gives them age, for immediately after the mixture they
appear to be much older than they really are. Next in esteem after
these are the wines of Sicyon,[1316] Cyprus,[1317] Telmessus,[1318]
Tripolis,[1319] Berytus,[1320] Tyre,[1321] and Sebennys; this last is
grown in Egypt, being the produce of three varieties of grape of the
very highest quality, known as the Thasian,[1322] the æthalus,[1323]
and the peuce.[1324] Next in rank are the hippodamantian[1325] wine,
the Mystic,[1326] the cantharite,[1327] the protropum[1328] of
Cnidos, the wine of the catacecaumene,[1329] the Petritan,[1330] and
the Myconian;[1331] as to the Mesogitic,[1332] it has been found to
give head-ache, while that of Ephesus is far from wholesome, being
seasoned with sea-water and defrutum.[1333] It is said that the wine
of Apamea[1334] is remarkably well adapted for making mulsum,[1335]
like that of Prætutia in Italy: for this is a quality peculiar to
only certain kinds of wine, the mixture of two sweet liquids being in
general not attended with good results. The protagion[1336] is quite
gone out of date, a wine which the school of Asclepiades has reckoned
as next in merit to those of Italy. The physician Apollodorus, in the
work which he wrote recommending King Ptolemy what wines in particular
to drink—for in his time the wines of Italy were not generally
known—has spoken in high terms of that of Naspercene in Pontus, next
to which he places the Oretic,[1337] and then the Œneatian,[1338] the
Leucadian,[1339] the Ambraciotic,[1340] and the Peparethian,[1341] to
which last he gives the preference over all the rest, though he states
that it enjoyed an inferior reputation, from the fact of its not being
considered fit for drinking until it had been kept six years.



CHAP. 10. (8.)—SEVEN KINDS OF SALTED WINES.


Thus far we have treated of wines, the goodness of which is due to
the country of their growth. In Greece the wine that is known by the
name of “bion,” and which is administered for its curative qualities
in several maladies (as we shall have occasion to remark when we come
to speak on the subject of Medicine[1342]), has been justly held in
the very highest esteem. This wine is made in the following manner:
the grapes are plucked before they are quite ripe, and then dried
in a hot sun: for three days they are turned three times a day, and
on the fourth day they are pressed, after which the juice is put in
casks,[1343] and left to acquire age in the heat of the sun.[1344]

The people of Cos mix sea-water in large quantities with their wines,
an invention which they first learned from a slave, who adopted this
method of supplying the deficiency that had been caused by his thievish
propensities. When this is mixed with white must, the mixture receives
the name of “leucocoum.”[1345] In other countries again, they follow
a similar plan in making a wine called “tethalassomenon.”[1346] They
make a wine also known as “thalassites,”[1347] by placing vessels full
of must in the sea, a method which quickly imparts to the wine all the
qualities of old age.[1348] In our own country too, Cato has shown the
method of making Italian wine into Coan: in addition to the modes of
preparation above stated, he tells us that it must be left exposed four
years to the heat of the sun, in order to bring it to maturity. The
Rhodian[1349] wine is similar to that of Cos, and the Phorinean is of a
still salter flavour. It is generally thought that all the wines from
beyond sea arrive at their middle state of maturity in the course of
six[1350] or seven years.



CHAP. 11. (9.)—EIGHTEEN VARIETIES OF SWEET WINE. RAISIN-WINE AND
HEPSEMA.


All the luscious wines have but little[1351] aroma: the thinner the
wine the more aroma it has. The colours of wines are four, white,[1352]
brown,[1353] blood-coloured,[1354] and black.[1355] Psythium[1356]
and melampsythium[1357] are varieties of raisin-wine which have the
peculiar flavour of the grape, and not that of wine. Scybelites[1358]
is a wine grown in Galatia, and Aluntium[1359] is a wine of Sicily,
both of which have the flavour of mulsum.[1360] As to siræum, by some
known as “hepsema,” and which in our language is called “sapa,”[1361]
it is a product of art and not of Nature, being prepared from must
boiled down to one-third: when must is boiled down to one-half only, we
give it the name of “defrutum.” All these mixtures have been devised
for the adulteration of honey.[1362] As to those varieties which we
have previously mentioned, their merits depend upon the grape, and the
soil in which it is grown. Next after the raisin-wine of Crete,[1363]
those of Cilicia and Africa are held in the highest esteem, both in
Italy as well as the adjoining provinces. It is well known that it is
made of a grape to which the Greeks have given the name of “stica,”
and which by us is called “apiana:”[1364] it is also made of the
scirpula.[1365] The grapes are left on the vine to dry in the sun, or
else are boiled in the dolium.[1366] Some persons make this wine of
the sweet and early white[1367] grape: they leave the grapes to dry in
the sun, until they have lost pretty nearly half their weight, after
which they crush them and subject them to a gentle pressure. They
then draw off the juice, and add to the pulp that is left an equal
quantity of well-water, the product of which is raisin-wine of second
quality.[1368] The more careful makers not only do this, but take care
also after drying the grapes to remove the stalks, and then steep the
raisins in wine of good quality until they swell, after which they
press them. This kind of raisin-wine is preferred to all others: with
the addition of water, they follow the same plan in making the wine of
second quality.

The liquor to which the Greeks give the name of “aigleucos,”[1369] is
of middle quality, between the sirops and what is properly called wine;
with us it is called “semper mustum.”[1370] It is only made by using
great precaution, and taking care that the must does not ferment;[1371]
such being the state of the must in its transformation into wine. To
attain this object, the must is taken from the vat and put into casks,
which are immediately plunged into water, and there left to remain
until the winter solstice is past, and frosty weather has made its
appearance. There is another kind, again, of natural aigleucos, which
is known in the province of Narbonensis by the name of “dulce,”[1372]
and more particularly in the district of the Vocontii. In order to make
it, they keep the grape hanging on the tree for a considerable time,
taking care to twist the stalk. Some, again, make an incision in the
bearing shoot, as deep as the pith, while others leave the grapes to
dry on tiles. The only grape, however, that is used in these various
processes is that of the vine known as the “helvennaca.”[1373]

Some persons add to the list of these sweet wines that known as
“diachyton.”[1374] It is made by drying grapes in the sun, and then
placing them for seven days in a closed place upon hurdles, some seven
feet from the ground, care being taken to protect them at night from
the dews: on the eighth day they are trodden out: this method, it is
said, produces a liquor of exquisite bouquet and flavour. The liquor
known as melitites[1375] is also one of the sweet wines: it differs
from mulsum, in being made of must; to five congii of rough-flavoured
must they put one congius of honey, and one cyathus of salt, and
they are then brought to a gentle boil: this mixture is of a rough
flavour. Among these varieties, I ought to place what is known as
“protropum;”[1376] such being the name given by some to the must
that runs spontaneously from the grapes before they are trodden out.
Directly it flows it is put into flaggons, and allowed to ferment;
after which it is left to ripen for forty days in a summer sun, about
the rising of the Dog-star.



CHAP. 12. (10.)—THREE VARIETIES OF SECOND-RATE WINE.


Those cannot properly be termed wines, which by the Greeks are known
under the name of “deuteria,”[1377] and to which, in common with Cato,
we in Italy give the name of “lora,”[1378] being made from the husks of
grapes steeped in water. Still, however, this beverage is reckoned as
making one of the “labourers’”[1379] wines. There are three varieties
of it: the first[1380] is made in the following manner:—After the
must is drawn off, one-tenth of its amount in water is added to the
husks, which are then left to soak a day and a night, and then are
again subjected to pressure. A second kind, that which the Greeks are
in the habit of making, is prepared by adding one-third in water of
the quantity of must that has been drawn off, and after submitting the
pulp to pressure, the result is reduced by boiling to one-third of
its original quantity. A third kind, again, is pressed out from the
wine-lees; Cato gives it the name of “fæcatum.”[1381] None of these
beverages, however, will keep for more than a single year.



CHAP. 13. (11.)—AT WHAT PERIOD GENEROUS WINES WERE FIRST COMMONLY MADE
IN ITALY.


While treating of these various details, it occurs to me to mention
that of the eighty different kinds throughout the whole earth, which
may with propriety be reckoned in the class of generous[1382] wines,
fully two-thirds[1383] are the produce of Italy, which consequently
in this respect far surpasses any other country: and on tracing this
subject somewhat higher up, the fact suggests itself, that the wines
of Italy have not been in any great favour from an early period, their
high repute having only been acquired since the six hundredth year of
the City.



CHAP. 14. (12.)—THE INSPECTION OF WINE ORDERED BY KING ROMULUS.


Romulus made libations, not with wine but with milk; a fact which is
fully established by the religious rites which owe their foundation
to him, and are observed even to the present day. The Posthumian
Law, promulgated by King Numa, has an injunction to the following
effect:—“Sprinkle not the funeral pyre with wine;” a law to which he
gave his sanction, no doubt, in consequence of the remarkable scarcity
of that commodity in those days. By the same law, he also pronounced it
illegal to make a libation to the gods of wine that was the produce of
an unpruned vine, his object being to compel the husbandmen to prune
their vines; a duty which they showed themselves reluctant to perform,
in consequence of the danger which attended climbing the trees.[1384]
M. Varro informs us, that Mezentius, the king of Etruria, succoured the
Rutuli against the Latini, upon condition that he should receive all
the wine that was then in the territory of Latium.

(13.) At Rome it was not lawful for women to drink wine. Among the
various anecdotes connected with this subject, we find that the wife
of Egnatius Mecenius[1385] was slain by her husband with a stick,
because she had drunk some wine from the vat, and that he was absolved
from the murder by Romulus. Fabius Pictor, in his Book of Annals, has
stated that a certain lady, for having opened a purse in which the
keys of the wine-cellar were kept, was starved to death by her family:
and Cato tells us, that it was the usage for the male relatives to
give the females a kiss, in order to ascertain whether they smelt of
“temetum;” for it was by that name that wine was then known, whence our
word “temulentia,” signifying drunkenness. Cn. Domitius, the judge,
once gave it as his opinion, that a certain woman appeared to him to
have drunk more wine than was requisite for her health, and without the
knowledge of her husband, for which reason he condemned her to lose her
dower. For a very long time there was the greatest economy manifested
at Rome in the use of this article. L. Papirius,[1386] the general,
who, on one occasion, commanded against the Samnites, when about to
engage, vowed an offering to Jupiter of a small cupfull of wine, if
he should gain the victory. In fact, among the gifts presented to the
gods, we find mention made of offerings of sextarii of milk, but never
of wine.

The same Cato, while on his voyage to Spain, from which he afterwards
returned triumphant,[1387] would drink of no other wine but that which
was served out to the rowers—very different, indeed, to the conduct
of those who are in the habit of giving to their guests even inferior
wine[1388] to that which they drink themselves, or else contrive to
substitute inferior in the course of the repast.[1389]



CHAP. 15.—WINES DRUNK BY THE ANCIENT ROMANS.


The wines that were the most esteemed among the ancient Romans were
those perfumed with myrrh,[1390] as mentioned in the play of Plautus,
entitled the “Persian,”[1391] though we find it there stated that
calamus[1392] ought to be added to it. Hence it is, that some persons
are of opinion that they were particularly fond of aromatites:[1393]
but Fabius Dossennus quite decides the question, in the following
line:—“I sent them good wine, myrrh-wine;”[1394] and in his play called
“Acharistio,” we find these words—“Bread and pearled barley, myrrh-wine
too.” I find, too, that Scævola and L. Ælius, and Ateius Capito,
were of the same opinion; and then we read in the play known as the
“Pseudolus:”[1395]—“But if it is requisite for him to draw forth what
is sweet from the place, has he aught of that?” to which Charinus makes
answer, “Do you ask the question? He has myrrh wine, raisin wine,
defrutum,[1396] and honey;” from which it would appear that myrrh wine
was not only reckoned among the wines, but among the sweet wines too.



CHAP. 16. (14.)—SOME REMARKABLE FACTS CONNECTED WITH WINE-LOFTS. THE
OPIMIAN WINE.


The fact of the existence of the Opimian wine gives undoubted proof
that there were wine-lofts,[1397] and that wine was racked off in
the year of Rome 633, Italy being already alive to the blessings
she enjoyed. Still, however, the several varieties that are now so
celebrated were not so in those days; and hence it is that all the
wines that were grown at that period have only the one general name
of “Opimian” wines, from the then consul Opimius. So, too, for a long
time afterwards, and, indeed, so late as the times of our grandfathers,
the wines from beyond sea were held in the highest esteem, even though
Falernian was already known, a fact which we learn from the line of
the Comic writer,[1398] “I shall draw five cups of Thasian and two of
Falernian.”

P. Licinius Crassus, and L. Julius Cæsar, who were Censors in the year
from the Building of the City 665, issued an edict forbidding the sale
of either Greek or Aminean wine at a higher price than eight asses the
quadrantal[1399]—for such, in fact, are the exact words of the edict.
Indeed, the Greek wines were so highly valued, that not more than a
single cup was served to a guest during the repast.



CHAP. 17.—AT WHAT PERIOD FOUR KINDS OF WINE WERE FIRST SERVED AT TABLE.


M. Varro gives us the following statement as to the wines that were
held in the highest esteem at table in his day: “L. Lucullus, when
a boy, never saw an entertainment at his father’s house, however
sumptuous it might be, at which Greek wine was handed round more than
once during the repast: whereas he himself, when he returned from Asia,
distributed as a largess among the people more than a hundred thousand
congiaria[1400] of the same wine. C. Sentius, whom we have seen Prætor,
used to say that Chian wine never entered his house until his physician
prescribed it to him for the cardiac[1401] disease. On the other hand,
Hortensius left ten thousand casks of it to his heir.”  Such is the
statement made by Varro.

(15.) And besides, is it not a well-known fact that Cæsar, when
Dictator, at the banquet given on the occasion of his triumph, allotted
to each table an amphora of Falernian and a cadus of Chian? On the
occasion, too, of his triumph for his victories in Spain, he put before
the guests both Chian as well as Falernian; and again, at the banquet
given on his third consulship,[1402] he gave Falernian, Chian, Lesbian,
and Mamertine; indeed, it is generally agreed that this was the first
occasion on which four different kinds of wine were served at table. It
was after this, then, that all the other sorts came into such very high
repute, somewhere about the year of the City 700.



CHAP. 18. (16.)—THE USES OF THE WILD VINE. WHAT JUICES ARE NATURALLY
THE COLDEST OF ALL.


I am not surprised, then, that for these many ages there have been
invented almost innumerable varieties of artificial wines, of which
I shall now make some mention; they are all of them employed for
medicinal purposes. We have already stated in a former Book how
omphacium,[1403] which is used for unguents, is made. The liquor known
as “œnanthinum” is made from the wild vine,[1404] two pounds of the
flowers of which are steeped in a cadus of must, and are then changed
at the end of thirty days. In addition to this, the root and the husks
of the grapes are employed in dressing leather. The grapes, too, a
little after the blossom has gone off, are singularly efficacious as a
specific for cooling the feverish heat of the body in certain maladies,
being, it is said, of a nature remarkable for extreme coldness. A
portion of these grapes wither away, in consequence of the heat, before
the rest, which are thence called solstitial[1405] grapes; indeed, the
whole of them never attain maturity; if one of these grapes, in an
unripe state, is given to a barn-door fowl to eat, it is productive of
a dislike to grapes for the future.[1406]



CHAP. 19.—SIXTY-SIX VARIETIES OF ARTIFICIAL WINE.


The first of the artificial wines has wine for its basis; it is called
“adynamon,”[1407] and is made in the following manner. Twenty sextarii
of white must are boiled down with half that quantity of water, until
the amount of the water is lost by evaporation. Some persons mix with
the must ten sextarii of sea-water and an equal quantity of rain-water,
and leave the whole to evaporate in the sun for forty days. This
beverage is given to invalids to whom it is apprehended that wine may
prove injurious.

The next kind of artificial wine is that made of the ripe grain of
millet;[1408] a pound and a quarter of it with the straw is steeped in
two congii of must, and the mixture is poured off at the end of six
months. We have already stated[1409] how various kinds of wine are made
from the tree, the shrub, and the herb, respectively known as the lotus.

From fruit, too, the following wines are made, to the list of which we
shall only add some necessary explanations:—First of all, we find the
fruit of the palm[1410] employed for this purpose by the Parthians
as well as the Indians, and, indeed, throughout all the countries of
the East. A modius of the kind of ripe date called “chydææ”[1411]
is added to three congii of water, and after being steeped for some
time, they are subjected to pressure. Sycites[1412] is a preparation
similarly made from figs: some persons call it “palmiprimum,”[1413]
others, again, “catorchites:” if sweetness is not the maker’s object,
instead of water there is added the same quantity of husk juice[1414]
of grapes. Of the Cyprian fig[1415] a very excellent vinegar, too, is
made, and of that of Alexandria[1416] a still superior.

A wine is made, too, of the pods of the Syrian carob,[1417] of pears,
and of all kinds of apples. That known as “rhoites”[1418] is made from
pomegranates, and other varieties are prepared from cornels, medlars,
sorb apples, dried mulberries, and pine-nuts[1419] these last are left
to steep in must, and are then pressed; the others produce a sweet
liquor of themselves. We shall have occasion before long to show how
Cato[1420] has pointed out the method of making myrtites:[1421] the
Greeks, however, adopt a different method in making it. They first boil
tender sprigs of myrtle with the leaves on in white must, and after
pounding them, boil down one pound of the mixture in three congii of
must, until it is reduced to a couple of congii. The beverage that is
prepared in this manner with the berries of wild myrtle is known as
“myrtidanum;”[1422] it will stain the hands.

Among the garden plants we find wines made of the following kinds: the
radish, asparagus, cunila, origanum, parsley-seed, abrotonum,[1423]
wild mint, rue,[1424] catmint,[1425] wild thyme,[1426] and
horehound.[1427] A couple of handfuls of these ingredients are put
into a cadus of must, as also one sextarius of sapa,[1428] and half a
sextarius of sea-water. A wine is made of the naphew[1429] turnip by
adding two drachms of naphew to two sextarii of must. A wine is made
also from the roots of squills.[1430] Among the flowers, that of the
rose furnishes a wine: the leaves are put in a linen cloth and then
pounded, after which they are thrown into must with a small weight
attached to make them sink to the bottom, the proportion being forty
drachms of leaves to twenty sextarii of must; the vessel in which it is
kept must not be opened before the end of three months. A wine, too, is
made of Gallic nard,[1431] and another kind of the wild[1432] variety
of that plant.

I find, also, that various kinds of aromatites[1433] are prepared,
differing but very little in their mode of composition from that of
the unguents, being made in the first instance, as I have already
stated,[1434] of myrrh, and then at a later period of Celtic
nard,[1435] calamus, and aspalathus,[1436] of which cakes are made,
and are then thrown into either must or sweet wine. Others, again,
make these wines of calamus, scented rush,[1437] costus,[1438] Syrian
nard,[1439] amomum,[1440] cassia,[1441] cinnamon, saffron,[1442]
palm-dates, and foal-foot,[1443] all of which are made up into cakes
in a similar manner. Other persons, again, put half a pound of nard
and malobathrum[1444] to two congii of must; and it is in this manner
that at the present day, with the addition of pepper and honey, the
wines are made by some known as confection wines,[1445] and by others
as peppered[1446] wines. We find mention made of nectarites also, a
beverage extracted from a herb known to some as “helenion,”[1447] to
others as “Medica,”[1448] and to others, again, as symphyton,[1449]
Idæa, Orestion, or nectaria, the root of which is added in the
proportion of forty drachms to six sextarii of must, being first
similarly placed in a linen cloth.

As to other kinds of herbs, we find wormwood wine,[1450] made of Pontic
wormwood in the proportion of one pound to forty sextarii of must,
which is then boiled down until it is reduced to one third, or else of
slips of wormwood put in wine. In a similar manner, hyssop wine[1451]
is made of Cilician hyssop,[1452] by adding three ounces of it to two
congii of must, or else by pounding three ounces of hyssop, and adding
them to one congius of must. Both of these wines may be made also in
another method, by sowing these plants around the roots of vines. It
is in this manner, too, that Cato tells us how to make hellebore[1453]
wine from black hellebore; and a similar method is used for making
scammony[1454] wine. The vine has a remarkable propensity[1455] of
contracting the flavour of any plant that may happen to be growing near
it; and hence it is that in the marshy lands of Patavium, the grape
has the peculiar flavour of the willow. So, in like manner, we find at
Thasos hellebore planted among the vines, or else wild cucumber, or
scammony; the wine that is produced from these vines is known by the
name of “phthorium,” it being productive of abortion.

Wines are made, too, of other herbs, the nature of which will be
mentioned in their respective places, the stœchas[1456] for instance,
the root of gentian,[1457] tragoriganum,[1458] dittany,[1459]
foal-foot,[1460] daucus,[1461] elelisphacus,[1462] panax,[1463]
acorus,[1464] conyza,[1465] thyme,[1466] mandragore,[1467] and sweet
rush.[1468] We find the names mentioned, also, of scyzinum,[1469]
itæomelis, and lectisphagites, compounds of which the receipt is now
lost.

The wines that are made from the shrubs are mostly extracted from the
two kinds of cedar,[1470] the cypress,[1471] the laurel,[1472] the
juniper,[1473] the terebinth,[1474] and in Gaul the lentisk.[1475] To
make these wines, they boil either the berries or the new wood of the
shrub in must. They employ, also, the wood of the dwarf olive,[1476]
the ground-pine,[1477] and the germander[1478] for a similar purpose,
adding at the same time ten drachms of the flower to a congius of must.



CHAP. 20. (17.)—HYDROMELI, OR MELICRATON.


There is a wine also made solely of honey and water.[1479] For this
purpose it is recommended that rain-water[1480] should be kept for a
period of five years. Those who shew greater skill, content themselves
with taking the water just after it has fallen, and boiling it down to
one third, to which they then add one third in quantity of old honey,
and keep the mixture exposed to the rays of a hot sun[1481] for forty
days after the rising of the Dog-star; others, however, rack it off
in the course of ten days, and tightly cork the vessels in which it
is kept. This beverage is known as “hydromeli,” and with age acquires
the flavour of wine. It is nowhere more highly esteemed than in
Phrygia.[1482]



CHAP. 21.—OXYMELI.


Vinegar[1483] even has been mixed with honey; nothing, in fact, has
been left untried by man. To this mixture the name of oxymeli has been
given; it is compounded of ten pounds of honey, five semi-sextarii of
old vinegar, one pound of sea-salt, and five sextarii of rain-water.
This is boiled gently till the mixture has bubbled in the pot some
ten times,[1484] after which it is drawn off, and kept till it is
old;[1485] all these wines, however, are condemned[1486] by Themison,
an author of high authority. And really, by Hercules! the use of them
does appear to be somewhat forced,[1487] unless, indeed, we are ready
to maintain that these aromatic wines are so many compounds taught us
by Nature, as well as those that are manufactured of perfumes, or that
shrubs and plants have been generated only for the purpose of being
swallowed in drink. However, all these particulars, when known, are
curious and interesting, and show how successfully the human intellect
has pried into every secret.

None of these wines, however, will keep beyond a year,[1488] with the
sole exception of those which we have spoken of as requiring age; many
of these, indeed, there can be no doubt, do not improve after being
kept so little as thirty days.



CHAP. 22. (18.)—TWELVE KINDS OF WINE WITH MIRACULOUS PROPERTIES.


There are some miraculous properties, too, in certain wines. It is
said that in Arcadia there is a wine grown which is productive of
fruitfulness[1489] in women, and of madness in men; while in Achaia,
and more especially in the vicinity of Carynia, there is a wine which
causes abortion; an effect which is equally produced if a woman in a
state of pregnancy happens only to eat a grape of the vine from which
it is grown, although in taste it is in no way different from ordinary
grapes: again, it is confidently asserted that those who drink the
wine of Trœzen never bear children. Thasos, it is said, produces two
varieties of wine with quite opposite properties. By one kind sleep
is produced,[1490] by the other it is prevented. There is also in the
same island a vine known as the “theriaca,”[1491] the wine and grapes
of which are a cure for the bites of serpents. The libanian vine[1492]
also produces a wine with the smell of frankincense, with which they
make libations to the gods, while, on the other hand, the produce of
that known as “aspendios,”[1493] is banished from all the altars: it is
said, too, that this last vine is never touched by any bird.

The Egyptians call by the name of “Thasian,”[1494] a certain grape of
that country, remarkable for its sweetness and its laxative qualities.
On the other hand, there is in Lycia a certain grape which proves
astringent to the stomach when relaxed. Egypt has a wine, too, known
as “ecbolas,”[1495] which is productive of abortion. There are some
wines, which at the rising of the Dog-star change their nature in the
wine-lofts[1496] where they are kept, and afterwards recover[1497]
their original quality. The same is the case, too, with wines when
carried across the seas: those that are able to withstand the motion of
the waves, appear afterwards to be twice as old[1498] as they really
are.



CHAP. 23. (19.)—WHAT WINES IT IS NOT LAWFUL TO USE IN THE SACRED RITES.


As religion is the great basis of the ordinary usages of life, I shall
here remark that it is considered improper to offer libations to the
gods with any wines which are the produce of an unpruned vine, or of
one that has been struck by lightning, or near to which a dead man has
been hung, or of grapes that have been trodden out by sore feet, or
made of must from husks that have been cut,[1499] or from grapes that
have been polluted by the fall of any unclean thing upon them. The
Greek wines are excluded also from the sacred ministrations, because
they contain a portion of water.

The vine itself is sometimes eaten; the tops of the shoots[1500] are
taken off and boiled, and are then pickled in vinegar[1501] and brine.



CHAP. 24.—HOW MUST IS USUALLY PREPARED.


It will be as well now to make some mention of the methods used in
preparing wines; indeed, several of the Greeks have written separate
treatises on this subject, and have made a complete art of it, such,
for instance, as Euphronius, Aristomachus, Commiades, and Hicesius. The
people of Africa are in the habit of neutralizing such acidity[1502]
as may be found with gypsum, and in some parts with lime. The people
of Greece, on the other hand, impart briskness to their wines when too
flat, with potters’ earth, pounded marble, salt, or sea-water; while
in Italy, again, brown pitch is used for that purpose in some parts,
and it is the universal practice both there as well as in the adjoining
provinces to season their new wines with resin: sometimes, too, they
season them with old wine-lees or vinegar.[1503] They make various
medicaments, also, for this purpose with the must itself. They boil it
down till it becomes quite sweet, and has lost a considerable portion
of its strength; though thus prepared, they say it will never last
beyond a single year. In some places they boil down the must till it
becomes sapa,[1504] and then mix it with their wines for the purpose of
modifying their harshness. Both for these kinds of wines, as, indeed,
all others, they always employ vessels which have themselves received
an inner coat of pitch; the method of preparing them will be set forth
in a succeeding Book.[1505]



CHAP. 25. (20.)—PITCH AND RESIN.


Of the trees from which pitch and resin distil, there are some which
grow in the East, and others in Europe: the province of Asia,[1506]
which lies between the two, has also some of both kinds. In the East,
the very best commodity of this kind, and of the finest quality, is
that produced by the terebinth,[1507] and, next to it, that from
the lentisk,[1508] which is also known as the mastich. The next in
quality to these is the juice of the cypress,[1509] being of a more
acrid flavour than any other. All the above juices are liquid and of
a resinous nature only, but that of the cedar[1510] is comparatively
thick, and of a proper consistency for making pitch. The Arabian
resin[1511] is of a pale colour, has an acrid smell, and its fumes are
stifling to those employed in boiling it. That of Judæa is of a harder
nature, and has a stronger smell than that from the terebinth[1512]
even. The Syrian[1513] resin has all the appearance of Attic honey, but
that of Cyprus is superior to any other; it is the colour of honey, and
is of a soft, fleshy nature. The resin of Colophon[1514] is yellower
than the other varieties, but when pounded it turns white; it has a
stifling smell, for which reason the perfumers do not employ it. That
prepared in Asia from the produce of the pitch-tree is very white, and
is known by the name of “spagas.”

All the resins are soluble in oil;[1515] some persons are of
opinion also that potters’ chalk may be so dissolved:[1516] I feel
ashamed[1517] to avow that the principal esteem in which the resins are
held among us is as depilatories for taking the hair off men’s bodies.

The method used for seasoning wines is to sprinkle pitch in the must
during the first fermentation, which never lasts beyond nine days at
the most, so that a bouquet is imparted to the wine,[1518] with, in
some degree, its own peculiar piquancy of flavour. It is generally
considered, that this is done most effectually by the use of raw
flower[1519] of resin, which imparts a considerable degree of briskness
to wine: while, on the other hand, it is thought that crapula[1520]
itself, if mixed, tends to mitigate the harshness of the wine and
subdue its asperity, and when the wine is thin and flat, to give it
additional strength and body. It is in Liguria more particularly,
and the districts in the vicinity of the Padus, that the utility
is recognized of mixing crapula with the must, in doing which the
following rule is adopted: with wines of a strong and generous nature
they mix a larger quantity, while with those that are poor and thin
they use it more sparingly. There are some who would have the wine
seasoned with both crapula and flower of resin at the same time.[1521]
Pitch too, when used for this purpose, has much the same properties as
must when so employed.

In some places, the must is subject to a spontaneous fermentation a
second time: when this unfortunately happens it loses all its flavour,
and then receives the name of “vappa,”[1522] a word which is applied as
an opprobrious appellation even to worthless men of degenerate spirit:
in vinegar, on the other hand, notwithstanding its tart and acrid
taste, there are very considerable virtues, and without it we should
miss many of the comforts[1523] of civilized life.

In addition to what we have already stated, the treatment and
preparation of wines are the object of such remarkable attention, that
we find some persons employing ashes, and others gypsum and other
substances of which we have already[1524] spoken, for the purpose of
improving its condition: the ashes,[1525] however, of the shoots of
vines or of the wood of the quercus, are in general preferred for this
purpose. It is recommended also, to take sea-water far out at sea,
and to keep it in reserve,[1526] to be employed for this purpose: at
all events, it ought to be taken up in the night and during the summer
solstice, while the north-east wind is blowing; but if taken at the
time of the vintage, it should be boiled before being used.

The pitch most highly esteemed in Italy for preparing vessels for
storing wine, is that which comes from Bruttium. It is made from the
resin that distils from the pitch-tree; that which is used in Spain
is held in but little esteem, being the produce of the wild pine; it
is bitter, dry, and of a disagreeable smell. While speaking of the
wild trees in a succeeding Book,[1527] we shall make mention of the
different varieties of pitch, and the methods used in preparing it. The
defects in resin, besides those which[1528] we have already mentioned,
are a certain degree of acridity, or a peculiar smoky flavour, while
the great fault in pitch is the being over-burnt. The ordinary test of
its goodness is a certain luminous appearance when broken to pieces; it
ought to stick, too, to the teeth, with a pleasant, tart flavour.

In Asia, the pitch which is most esteemed is that of Mount Ida,
in Greece of Pieria; but Virgil[1529] gives the preference to the
Narycian[1530] pitch. The more careful makers mix with the wine black
mastich, which comes from Pontus,[1531] and resembles bitumen in
appearance, as also iris[1532]-root and oil. As to coating the vessels
with wax, it has been found that the wine is apt to turn acid:[1533] it
is a better plan to put wine in vessels that have held vinegar, than in
those which have previously contained sweet wine or mulsum. Cato[1534]
recommends that wines should be got up—_concinnari_ is his word—by
putting of lie-ashes boiled down with defrutum, one-fortieth part to
the culeus, or else a pound and a half of salt, with pounded marble as
well: he makes mention of sulphur also, but only gives the very last
place to resin. When the fermentation of the wine is coming to an end,
he recommends the addition of the must to which he gives the name of
“tortivum,”[1535] meaning that which is pressed out the very last of
all. For the purpose of colouring wine we also add certain substances
as a sort of pigment, and these have a tendency to give it a body as
well. By such poisonous sophistications is this beverage compelled to
suit our tastes, and then we are surprised that it is injurious in its
effects!

It is a proof that wine is beginning to turn bad, if a plate of lead,
on being put in it, changes its colour.[1536]



CHAP. 26.—VINEGAR—LEES OF WINE.


It is a peculiarity of wine, among the liquids, to become mouldy, or
else to turn to vinegar. There are whole volumes which treat of the
various methods of preventing this.

The lees of wine when dried will take fire and burn without the
addition of fuel: the ashes so produced have very much the nature
of nitre,[1537] and similar virtues; the more so, indeed, the more
unctuous they are to the touch.



CHAP. 27. (21.)—WINE-VESSELS—WINE-CELLARS.


The various methods of keeping and storing wines in the cellar are very
different. In the vicinity of the Alps, they put their wines in wooden
vessels hooped around;[1538] during their cold winters, they even keep
lighted fires, to protect the wines from the effects of the cold. It is
a singular thing to mention, but still it has been occasionally seen,
that these vessels have burst asunder, and there has stood the wine in
frozen masses; a miracle almost, as it is not ordinarily the nature of
wine to freeze, cold having only the effect of benumbing it. In more
temperate climates, they place their wines in dolia,[1539] which they
bury in the earth, either covering them entirely or in part, according
to the temperature. Sometimes, again, they expose their wines in the
open air, while at others they are placed beneath sheds for protection
from the atmosphere.

The following are among the rules given for the proper management of
wines:—One side of the wine-cellar, or, at all events, the windows,
ought to face the north-east, or at least due east. All dunghills and
roots of trees, and everything of a repulsive smell, ought to be kept
at as great a distance as possible, wine being very apt to contract
an odour. Fig-trees too, either wild or cultivated, ought not to be
planted in the vicinity. Intervals should also be left between the
vessels, in order to prevent infection, in case of any of them turning
bad, wine being remarkably apt to become tainted. The shape, too, of
the vessels is of considerable importance: those that are broad and
bellying[1540] are not so good.[1541] We find it recommended too, to
pitch them immediately after the rising of the Dog-star, and then to
wash them either with sea or salt water, after which they should be
sprinkled with the ashes of tree-shoots or else with potters’ earth;
they ought then to be cleaned out, and perfumed with myrrh, a thing
which ought to be frequently done to the wine-cellars as well. Weak,
thin wines should be kept[1542] in dolia sunk in the ground, while
those in which the stronger ones are kept should be more exposed to
the air. The vessels ought on no account to be entirely filled, room
being left for seasoning, by mixing either raisin wine or else defrutum
flavoured with saffron; old pitch and sapa are sometimes used for the
same purpose. The lids, too, of the dolia ought to be seasoned in a
similar manner, with the addition of mastich and Bruttian pitch.

It is strongly recommended never to open the vessels, except in fine
weather; nor yet while a south wind is blowing, or at a full moon.

The flower[1543] of wine when white is looked upon as a good sign;
but when it is red, it is bad, unless that should happen to be the
colour of the wine. The vessels, too, should not be hot to the touch,
nor should the covers throw out a sort of sweat. When wine very soon
flowers on the surface and emits an odour, it is a sign that it will
not keep.

As to defrutum and sapa, it is recommended to commence boiling
them when there is no moon to be seen, or, in other words, at the
conjunction of that planet, and at no other time. Leaden[1544] vessels
should be used for this purpose, and not copper[1545] ones, and walnuts
are generally thrown into them, from a notion that they absorb[1546]
the smoke. In Campania they expose the very finest wines in casks in
the open air, it being the opinion that it tends to improve the wine if
it is exposed to the action of the sun and moon, the rain and the winds.



CHAP. 28. (22.)—DRUNKENNESS.


If any one will take the trouble duly to consider the matter, he
will find that upon no one subject is the industry of man kept more
constantly on the alert than upon the making of wine; as if Nature had
not given us water as a beverage, the one, in fact, of which all other
animals make use. We, on the other hand, even go so far as to make our
very beasts of burden drink[1547] wine: so vast are our efforts, so
vast our labours, and so boundless the cost which we thus lavish upon
a liquid which deprives man of his reason and drives him to frenzy and
to the commission of a thousand crimes! So great, however, are its
attractions, that a great part of mankind are of opinion that there
is nothing else in life worth living for. Nay, what is even more than
this, that we may be enabled to swallow all the more, we have adopted
the plan of diminishing its strength by pressing it through[1548]
filters of cloth, and have devised numerous inventions whereby to
create an artificial thirst. To promote drinking, we find that even
poisonous mixtures have been invented, and some men are known to take a
dose of hemlock before they begin to drink, that they may have the fear
of death before them to make them take their wine:[1549] others, again,
take powdered pumice[1550] for the same purpose, and various other
mixtures, which I should feel quite ashamed any further to enlarge upon.

We see the more prudent among those who are given to this habit have
themselves parboiled in hot-baths, from whence they are carried away
half dead. Others there are, again, who cannot wait till they have
got to the banqueting couch,[1551] no, not so much as till they have
got their shirt on,[1552] but all naked and panting as they are, the
instant they leave the bath they seize hold of large vessels filled
with wine, to show off, as it were, their mighty powers, and so gulp
down the whole of the contents only to vomit them up again the very
next moment. This they will repeat, too, a second and even a third
time, just as though they had only been begotten for the purpose of
wasting wine, and as if that liquor could not be thrown away without
having first passed through the human body. It is to encourage habits
such as these that we have introduced the athletic exercises[1553] of
other countries, such as rolling in the mud, for instance, and throwing
the arms back to show off a brawny neck and chest. Of all these
exercises, thirst, it is said, is the chief and primary object.

And then, too, what vessels are employed for holding wine! carved
all over with the representations of adulterous intrigues, as if, in
fact, drunkenness itself was not sufficiently capable of teaching us
lessons of lustfulness. Thus we see wines quaffed out of impurities,
and inebriety invited even by the hope of a reward,—invited, did I
say?—may the gods forgive me for saying so, purchased outright. We
find one person induced to drink upon the condition that he shall have
as much to eat as he has previously drunk, while another has to quaff
as many cups as he has thrown points on the dice. Then it is that the
roving, insatiate eyes are setting a price upon the matron’s chastity;
and yet, heavy as they are with wine, they do not fail to betray their
designs to her husband. Then it is that all the secrets of the mind
are revealed; one man is heard to disclose the provisions of his will,
another lets fall some expression of fatal import, and so fails to keep
to himself words which will be sure to come home to him with a cut
throat. And how many a man has met his death in this fashion! Indeed,
it has become quite a common proverb, that “in wine[1554] there is
truth.”

Should he, however, fortunately escape all these dangers, the drunkard
never beholds the rising sun, by which his life of drinking is made
all the shorter. From wine, too, comes that pallid hue,[1555] those
drooping eyelids, those sore eyes, those tremulous hands, unable to
hold with steadiness the overflowing vessel, condign punishment in the
shape of sleep agitated by Furies during the restless night, and, the
supreme reward of inebriety, those dreams of monstrous lustfulness and
of forbidden delights. Then on the next day there is the breath reeking
of the wine-cask, and a nearly total obliviousness of everything, from
the annihilation of the powers of the memory. And this, too, is what
they call “seizing the moments of life!”[1556] whereas, in reality,
while other men lose the day that has gone before, the drinker has
already lost the one that is to come.

They first began, in the reign of Tiberius Claudius, some forty years
ago, to drink fasting, and to take whets of wine before meals; an
outlandish[1557] fashion, however, and only patronized by physicians
who wished to recommend themselves by the introduction of some novelty
or other.

It is in the exercise of their drinking powers that the Parthians look
for their share of fame, and it was in this that Alcibiades among
the Greeks earned his great repute. Among ourselves, too, Novellius
Torquatus of Mediolanum, a man who held all the honours of the state
from the prefecture to the pro-consulate, could drink off three
congii[1558] at a single draught, a feat from which he obtained the
surname of “Tricongius:” this he did before the eyes of the Emperor
Tiberius, and to his extreme surprise and astonishment, a man who in
his old age was very morose,[1559] and indeed very cruel in general;
though in his younger days he himself had been too much addicted to
wine. Indeed it was owing to that recommendation that it was generally
thought that L. Piso was selected by him to have the charge and
custody[1560] of the City of Rome; he having kept up a drinking-bout at
the residence of Tiberius, just after he had become emperor, two days
and two nights without intermission. In no point, too, was it generally
said that Drusus Cæsar took after his father Tiberius more than
this.[1561] Torquatus had the rather uncommon glory—for this science,
too, is regulated by peculiar laws of its own—of never being known to
stammer in his speech, or to relieve the stomach by vomiting or urine,
while engaged in drinking. He was always on duty at the morning guard,
was able to empty the largest vessel at a single draught, and yet to
take more ordinary cups in addition than any one else; he was always
to be implicitly depended upon, too, for being able to drink without
taking breath and without ever spitting, or so much as leaving enough
at the bottom of the cup to make a plash upon the pavement;[1562] thus
showing himself an exact observer of the regulations which have been
made to prevent all shirking on the part of drinkers.

Tergilla reproaches Cicero, the son of Marcus Cicero, with being
in the habit of taking off a couple of congii at a single draught,
and with having thrown a cup, when in a state of drunkenness, at
M. Agrippa;[1563] such, in fact, being the ordinary results of
intoxication. But it is not to be wondered at that Cicero was desirous
in this respect to eclipse the fame of M. Antonius, the murderer of his
father; a man who had, before the time of the younger Cicero, shown
himself so extremely anxious to maintain the superiority in this kind
of qualification, that he had even gone so far as to publish a book
upon the subject of his own drunkenness.[1564] Daring in this work
to speak in his own defence, he has proved very satisfactorily, to
my thinking, how many were the evils he had inflicted upon the world
through this same vice of drunkenness. It was but a short time before
the battle of Actium that he vomited forth this book of his, from
which we have no great difficulty in coming to the conclusion, that
drunk as he already was with the blood of his fellow-citizens, the only
result was that he thirsted for it all the more. For, in fact, such is
the infallible characteristic of drunkenness, the more a person is in
the habit of drinking, the more eager he is for drink; and the remark
of the Scythian ambassador is as true as it is well known—the more the
Parthians drank, the thirstier they were for it.



CHAP. 29.—LIQUORS WITH THE STRENGTH OF WINE MADE FROM WATER AND CORN.


The people of the Western world have also their intoxicating drinks,
made from corn steeped in water.[1565] These beverages are prepared
in different ways throughout Gaul and the provinces of Spain; under
different names, too, though in their results they are the same. The
Spanish provinces have even taught us the fact that these liquors are
capable of being kept till they have attained a considerable age.
Egypt,[1566] too, has invented for its use a very similar beverage
made from corn; indeed, in no part of the world is drunkenness ever
at a loss. And then, besides, they take these drinks unmixed, and do
not dilute them with water, the way that wine is modified; and yet, by
Hercules! one really might have supposed that there the earth produced
nothing but corn for the people’s use. Alas! what wondrous skill, and
yet how misplaced! means have absolutely been discovered for getting
drunk upon water even.

There are two liquids that are peculiarly grateful to the human body,
wine within and oil without; both of them the produce of trees, and
most excellent in their respective kinds. Oil, indeed, we may pronounce
an absolute necessary, nor has mankind been slow to employ all the
arts of invention in the manufacture of it. How much more ingenious,
however, man has shown himself in devising various kinds of drink will
be evident from the fact, that there are no less than one hundred and
ninety-five different kinds of it; indeed, if all the varieties are
reckoned, they will amount to nearly double that number. The various
kinds of oil are much less numerous—we shall proceed to give an account
of them in the following Book.


SUMMARY.—Remarkable facts, narratives, and observations, five
hundred and ten.


ROMAN AUTHORS QUOTED.—Cornelius Valerianus,[1567] Virgil,[1568]
Celsus,[1569] Cato the Censor,[1570] Saserna,[1571] father and son,
Scrofa,[1572] M. Varro,[1573] D. Silanus,[1574] Fabius Pictor,[1575]
Trogus,[1576] Hyginus,[1577] Flaccus Verrius,[1578] Græcinus,[1579]
Julius Atticus,[1580] Columella,[1581] Massurius Sabinus,[1582]
Fenestella,[1583] Tergilla,[1584] Maccius Plautus,[1585] Flavius,[1586]
Dossennus,[1587] Scævola,[1588] Ælius,[1589] Ateius Capito,[1590]
Cotta Messalinus,[1591] L. Piso,[1592] Pompeius Lenæus,[1593]
Fabianus,[1594] Sextius Niger,[1595] Vibius Rufus.[1596]


FOREIGN AUTHORS QUOTED.—Hesiod,[1597] Theophrastus,[1598]
Aristotle,[1599] Democritus,[1600] King Hiero,[1601] King Attalus
Philometor,[1602] Archytas,[1603] Xenophon,[1604] Amphilochus[1605]
of Athens, Anaxipolis[1606] of Thasos, Apollodorus[1607] of
Lemnos, Aristophanes[1608] of Miletus, Antigonus[1609] of
Cymæ, Agathocles[1610] of Chios, Apollonius[1611] of Pergamus,
Aristander[1612] of Athens, Botrys[1613] of Athens, Bacchius[1614] of
Miletus, Bion[1615] of Soli, Chærea[1616] of Athens, Chæristus[1617]
of Athens, Diodorus[1618] of Priene, Dion[1619] of Colophon,
Epigenes[1620] of Rhodes, Euagon[1621] of Thasos, Euphronius[1622]
of Athens, Androtion[1623] who wrote on agriculture, Æschrion[1624]
who wrote on agriculture, Lysimachus[1625] who wrote on agriculture,
Dionysius[1626] who translated Mago, Diophanes[1627] who made an
Epitome of the work of Dionysius, Asclepiades[1628] the Physician,
Onesicritus,[1629] King Juba.[1630]



BOOK XV.

THE NATURAL HISTORY OF THE FRUIT-TREES.



CHAP. 1. (1.)—THE OLIVE.—HOW LONG IT EXISTED ONLY IN GREECE. AT WHAT
PERIOD IT WAS FIRST INTRODUCED INTO ITALY, SPAIN, AND AFRICA.


Theophrastus,[1631] one of the most famous among the Greek writers, who
flourished about the year 440 of the City of Rome, has asserted that
the olive[1632] does not grow at a distance of more than forty[1633]
miles from the sea. Fenestella tells us that in the year of Rome 173,
being the reign of Tarquinius Priscus, it did not exist in Italy,
Spain, or Africa;[1634] whereas at the present day it has crossed the
Alps even, and has been introduced into the two provinces of Gaul
and the middle of Spain. In the year of Rome 505, Appius Claudius,
grandson of Appius Claudius Cæcus, and L. Junius being consuls, twelve
pounds of oil sold for an as; and at a later period, in the year 680,
M. Seius, son of Lucius, the curule ædile, regulated the price of
olive oil at Rome, at the rate of ten pounds for the as, for the whole
year. A person will be the less surprised at this, when he learns that
twenty-two years after, in the third consulship of Cn. Pompeius, Italy
was able to export olive oil to the provinces.

Hesiod,[1635] who looked upon an acquaintance with agriculture as
conducive in the very highest degree to the comforts of life, has
declared that there was no one who had ever gathered fruit from the
olive-tree that had been sown by his own hands, so slow was it in
reaching maturity in those times; whereas, now at the present day, it
is sown in nurseries even, and if transplanted will bear fruit the
following year.



CHAP. 2.—THE NATURE OF THE OLIVE, AND OF NEW OLIVE OIL.


Fabianus maintains that the olive will grow[1636] neither in very cold
climates, nor yet in very hot ones. Virgil[1637] has mentioned three
varieties of the olive, the orchites,[1638] the radius,[1639] and the
posia;[1640] and says that they require no raking or pruning, nor, in
fact, any attention whatever. There is no doubt that in the case of
these plants, soil and climate are the things of primary importance;
but still, it is usual to prune them at the same time as the vine,
and they are improved by lopping between them every here and there.
The gathering of the olive follows that of the grape, and there is
even a greater degree of skill required in preparing[1641] oil than
in making wine; for the very same olives will frequently give quite
different results. The first oil of all, produced from the raw[1642]
olive before it has begun to ripen, is considered preferable to all
the others in flavour; in this kind, too, the first[1643] droppings
of the press are the most esteemed, diminishing gradually in goodness
and value; and this, whether the wicker-work[1644] basket is used in
making it, or whether, following the more recent plan, the pulp is
put in a stick strainer, with narrow spikes and interstices.[1645] The
riper the berry, the more unctuous the juice, and the less agreeable
the taste.[1646] To obtain a result both abundant and of excellent
flavour, the best time to gather it is when the berry is just on the
point of turning black. In this state it is called “druppa” by us, by
the Greeks, “drypetis.”

In addition to these distinctions, it is of importance to observe
whether the berry ripens in the press or while on the branch; whether
the tree has been watered, or whether the fruit has been nurtured
solely by its own juices, and has imbibed nothing else but the dews of
heaven.



CHAP. 3. (2.)—OLIVE OIL: THE COUNTRIES IN WHICH IT IS PRODUCED, AND ITS
VARIOUS QUALITIES.


It is not with olive oil as it is with wine, for by age it acquires a
bad flavour,[1647] and at the end of a year it is already old. This, if
rightly understood, is a wise provision on the part of Nature: wine,
which is only produced for the drunkard, she has seen no necessity for
us to use when new; indeed, by the fine flavour which it acquires with
age, she rather invites us to keep it; but, on the other hand, she has
not willed that we should be thus sparing of oil, and so has rendered
its use common and universal by the very necessity there is of using it
while fresh.

In the production of this blessing as well,[1648] Italy holds the
highest rank among all countries,[1649] and more particularly the
territory of Venafrum,[1650] that part of it in especial which produces
the Licinian oil; the qualities of which have conferred upon the
Licinian olive the very highest renown. It is our unguents which have
brought this oil into such great esteem, the peculiar odour of it
adapting itself so well to the full development of their qualities; at
the same time its delicate flavour equally enlists the palate in its
behalf. In addition to this, birds will never touch the berry of the
Licinian olive.

Next to Italy, the contest is maintained, and on very equal terms,
between the territories of Istria and of Bætica. The next rank for
excellence is claimed by the other provinces of our Empire, with the
exception of Africa,[1651] the soil of which is better adapted for
grain. That country Nature has given exclusively to the cereals; of oil
and wine she has all but deprived it, securing it a sufficient share
of renown by its abundant harvests. As to the remaining particulars
connected with the olive, they are replete with erroneous notions, and
I shall have occasion to show that there is no part of our agricultural
economy upon which people have been more generally mistaken.

(3.) The olive is composed of a stone, oil, flesh, and amurca:[1652]
the last being a bitter liquid, principally composed of water; hence it
is that in seasons of drought it is less plentiful, and more abundant
when rains[1653] have prevailed. The oil is a juice peculiar to the
olive, a fact more particularly stated in reference to its unripe
state, as we have already mentioned when speaking of omphacium.[1654]
This oil continues on the increase up to the rising of Arcturus,[1655]
or in other words, the sixteenth day before the calends of
October;[1656] after which the increase is in the stone and the flesh.
When drought has been followed by abundant rains, the oil is spoilt,
and turns to amurca. It is the colour of this amurca that makes the
olive turn black; hence, when the berry is just beginning to turn that
colour, there is but little amurca in it, and before that period none
at all. It is an error then, on the part of persons, to suppose that
that is the commencement of maturity, which is in reality only the
near approach of corruption. A second error, too, is the supposition
that the oil increases proportionally to the flesh of the berry, it
being the fact that the oil is all the time undergoing a change into
flesh, and the stone is growing larger and larger within. It is for
this reason more particularly, that care is taken to water the tree
at this period; the real result of all this care and attention, as
well as of the fall of copious rains, being, that the oil in reality
is absorbed as the berry increases in size, unless fine dry weather
should happen to set in, which naturally tends to contract the volume
of the fruit. According to Theophrastus,[1657] heat is the sole primary
cause of the oleaginous principle; for which reason it is, that in the
presses,[1658] and in the cellars even, great fires are lighted to
improve the quality of the oil.

A third error arises from misplaced economy: to spare the expense of
gathering, people are in the habit of waiting till the berry falls
from the tree. Others, again, who wish to follow a middle course in
this respect, beat the fruit off with poles, and so inflict injury on
the tree and ensure loss in the succeeding year; indeed, there was a
very ancient regulation in existence relative to the gathering of the
olive—“Neither pull nor beat the olive-tree.”[1659] Those who would
observe a still greater degree of precaution, strike the branches
lightly with a reed on one side of them; but even then the tree is
reduced to bearing fruit but once in two years,[1660] in consequence
of the injury done to the buds. Not less injurious, however, are
the results of waiting till the berries fall from the tree; for, by
remaining on it beyond the proper time, they deprive the crop that is
coming on of its due share of nutriment, by occupying its place: a
clear proof of which is, that if they are not gathered before the west
winds prevail, they are found to have acquired renewed strength, and
are all the later before they fall.



CHAP. 4.—FIFTEEN VARIETIES OF OLIVES.


The first olive that is gathered after the autumn is that known as
the “posia,”[1661] the berry of which, owing to a vicious method of
cultivation, and not any fault on the part of Nature, has the most
flesh upon it. Next to this is the orchites, which contains the
greatest quantity of oil, and then, after that, the radius. As these
are of a peculiarly delicate nature, the heat very rapidly takes
effect upon them, and the amurca they contain causes them to fall. On
the other hand, the gathering of the tough, hard-skinned olive is put
off so late as the month of March, it being well able to resist the
effects of moisture, and, consequently, very small. Those varieties
known as the Licinian, the Cominian, the Contian, and the Sergian,
by the Sabines called the “royal”[1662] olive, do not turn black
before the west winds prevail, or, in other words, before the sixth
day before[1663] the ides of February. At this period it is generally
thought that they begin to ripen, and as a most excellent oil is
extracted from them, experience would seem to give its support to a
theory which, in reality, is altogether wrong. The growers say that in
the same degree that cold diminishes the oil, the ripeness of the berry
augments it; whereas, in reality, the goodness of the oil is owing,
not to the period at which the olives are gathered, but to the natural
properties of this peculiar variety, in which the oil is remarkably
slow in turning to amurca.

A similar error, too, is committed by those who keep the olives, when
gathered, upon a layer of boards, and do not press the fruit till it
has thrown out a sweat; it being the fact that every hour lost tends
to diminish the oil and increase the amurca: the consequence is, that,
according to the ordinary computation, a modius of olives yields no
more than six pounds of oil. No one, however, ever takes account of
the quantity of amurca to ascertain, in reference to the same kind of
berry, to what extent it increases daily in amount. Then, again, it is
a very general error[1664] among practical persons to suppose that the
oil increases proportionably to the increased size of the berry; and
more particularly so when it is so clearly proved that such is not the
case, with reference to the variety known as the royal olive, by some
called majorina, and by others phaulia;[1665] this berry being of the
very largest size, and yet yielding a minimum of juice. In Egypt,[1666]
too, the berries, which are remarkably meaty, are found to produce but
very little oil; while those of Decapolis, in Syria, are so extremely
small, that they are no bigger than a caper; and yet they are highly
esteemed for their flesh.[1667] It is for this reason that the olives
from the parts beyond sea are preferred for table to those of Italy,
though, at the same time, they are very inferior to them for making oil.

In Italy, those of Picenum and of Sidicina[1668] are considered the
best for table. These are kept apart from the others and steeped in
salt, after which, like other olives, they are put in amurca, or else
boiled wine; indeed, some of them are left to float solely in their
own oil,[1669] without any adventitious mode of preparation, and are
then known as colymbades: sometimes the berry is crushed, and then
seasoned with green herbs to flavour it. Even in an unripe state the
olive is rendered fit for eating by being sprinkled with boiling water;
it is quite surprising, too, how readily it will imbibe sweet juices,
and retain an adventitious flavour from foreign substances. With this
fruit, as with the grape, there are purple[1670] varieties, and the
posia is of a complexion approaching to black. Besides those already
mentioned, there are the superba[1671] and a remarkably luscious kind,
which dries of itself, and is even sweeter than the raisin: this last
variety is extremely rare, and is to be found in Africa and in the
vicinity of Emerita[1672] in Lusitania.

The oil of the olive is prevented from getting[1673] thick and rancid
by the admixture of salt. By making an incision in the bark of the
tree, an aromatic odour may be imparted[1674] to the oil. Any other
mode of seasoning, such, for instance, as those used with reference
to wine, is not at all gratifying to the palate; nor do we find so
many varieties in oil as there are in the produce of the grape, there
being, in general, but three different degrees of goodness. In fine
oil the odour is more penetrating, but even in the very best it is but
short-lived.



CHAP. 5. (4.)—THE NATURE OF OLIVE OIL.


It is one of the properties of oil to impart warmth to the body, and
to protect it against the action of cold; while at the same time it
promotes coolness in the head when heated. The Greeks, those parents
of all vices, have abused it by making it minister to luxury, and
employing it commonly in the gymnasium: indeed, it is a well-known
fact that the governors of those establishments have sold the
scrapings[1675] of the oil used there for a sum of eighty thousand
sesterces. The majesty of the Roman sway has conferred high honour upon
the olive: crowned with it, the troops of the Equestrian order are wont
to defile upon the ides of July;[1676] it is used, too, by the victor
in the minor triumphs of the ovation.[1677] At Athens, also, they are
in the habit of crowning the conqueror with olive; and at Olympia, the
Greeks employ the wild olive[1678] for a similar purpose.



CHAP. 6. (5.)—THE CULTURE OF THE OLIVE: ITS MODE OF PRESERVATION. THE
METHOD OF MAKING OLIVE OIL.


We will now proceed to mention the precepts given by Cato[1679] in
relation to this subject. Upon a warm, rich[1680] soil, he recommends
us to sow the greater radius, the Salentina, the orchites, the
posia, the Sergian, the Cominian, and the albicera;[1681] but with a
remarkable degree of prudence he adds, that those varieties ought to
be planted in preference which are considered to thrive best in the
neighbouring localities. In a cold[1682] and meagre soil he says that
the Licinian olive should be planted; and he informs us that a rich or
hot soil has the effect, in this last variety, of spoiling the oil,
while the tree becomes exhausted by its own fertility, and is liable to
be attacked by a sort of red moss.[1683] He states it as his opinion
that the olive grounds ought to have a western aspect, and, indeed, he
approves of no other.

(6.) According to him, the best method of preserving olives is to put
the orchites and the posia, while green, in a strong brine, or else
to bruise them first, and preserve them in mastich oil.[1684] The
more bitter the olive, he says, the better the oil; but they should
be gathered from the ground the very moment they fall, and washed if
they are dirty. He says that three days will be quite sufficient for
drying them, and that if it is frosty weather, they should be pressed
on the fourth, care being taken to sprinkle them with salt. Olives, he
informs us,[1685] lose oil by being kept in a boarded store-room, and
deteriorate in quality; the same being the case, too, if the oil is
left with the amurca and the pulp,[1686] or, in other words, the flesh
of the olive that forms the residue and becomes the dregs. For this
reason, he recommends that the oil should be poured off several times
in the day, and then put into vessels or cauldrons[1687] of lead, for
copper vessels will spoil it, he says. All these operations, however,
should be carried on with presses heated and tightly closed,[1688] and
exposed to the air as little as possible—for which reason he recommends
that wood should never be cut there, the most convenient fuel for the
fires being the stones of the berries. From the cauldron the oil should
be poured into vats,[1689] in order that the pulp and the amurca may
be disengaged in a solidified form: to effect which object the vessels
should be changed as often as convenient, while at the same time the
osier baskets should be carefully cleaned with a sponge, that the oil
may run out in as clean and pure a state as possible.

In later times, the plan has been adopted of invariably crushing the
olives in boiling water, and at once putting them whole in the press—a
method of effectually extracting the amurca—and then, after crushing
them in the oil-press, subjecting them to pressure once more. It is
recommended, that not more than one hundred modii should be pressed at
one time: the name given to this quantity is “factus,”[1690] while the
oil that flows out at the first pressure is called the “flos.”[1691]
Four men, working at two presses day and night, ought to be able to
press out three factuses of olives.



CHAP. 7. (7.)—FORTY-EIGHT VARIETIES OF ARTIFICIAL OILS. THE CICUS-TREE
OR CROTON, OR SILI, OR SESAMUM.


In those times artificial oils had not been introduced, and hence
it is, I suppose, that we find no mention made of them by Cato; at
the present day the varieties are very numerous. We will first speak
of those[1692] which are produced from trees, and among them more
particularly the wild olive.[1693] This olive is small, and much more
bitter than the cultivated one, and hence its oil is only used in
medicinal preparations: the oil that bears the closest resemblance
to it is that extracted from the chamelæa,[1694] a shrub which grows
among the rocks, and not more than a palm in height; the leaves and
berries being similar to those of the wild olive. A third oil is that
made of the fruit of the cicus,[1695] a tree which grows in Egypt in
great abundance; by some it is known as croton, by others as sili, and
by others, again, as wild sesamum: it is not so very long since this
tree was first introduced here. In Spain, too, it shoots up with great
rapidity to the size of the olive-tree, having a stem like that of
the ferula, the leaf of the vine, and a seed that bears a resemblance
to a small pale grape. Our people are in the habit of calling it
“ricinus,”[1696] from the resemblance of the seed to that insect. It
is boiled in water,[1697] and the oil that swims on the surface is
then skimmed off: but in Egypt, where it grows in a greater abundance,
the oil is extracted without employing either fire or water for the
purpose, the seed being first sprinkled with salt, and then subjected
to pressure: eaten with food this oil is repulsive, but it is very
useful for burning in lamps.

Amygdalinum, by some persons known as “metopium,”[1698] is made of
bitter almonds dried and beaten into a cake, after which they are
steeped in water, and then beaten again. An oil is extracted from the
laurel also, with the aid of olive oil. Some persons use the berries
only for this purpose, while others, again, employ the leaves[1699]
and the outer skin of the berries: some add storax also, and other
odoriferous substances. The best kind for this purpose is the
broad-leaved or wild laurel,[1700] with a black berry. The oil, too, of
the black myrtle is of a similar nature; that with the broad leaf[1701]
is reckoned also the best. The berries are first sprinkled with warm
water, and then beaten, after which they are boiled: some persons take
the more tender leaves, and boil them in olive oil, and then subject
them to pressure, while others, again, steep them in oil, and leave the
mixture to ripen in the sun. The same method is also adopted with the
cultivated myrtle, but the wild variety with small berries is generally
preferred; by some it is known as the oxymyrsine, by others as the
chamæmyrsine, and by others, again, as the acoron,[1702] from its
strong resemblance to that plant, it being short and branching.

An oil is made, too, from the citrus,[1703] and from the cypress; also,
from the walnut,[1704] and known by the name of “caryinon,”[1705]
and from the fruit of the cedar, being generally known as
“pisselæon.”[1706] Oil is extracted from the grain of Cnidos,[1707]
the seed being first thoroughly cleaned, and then pounded; and from
mastich[1708] also. As to the oil called “cyprinum,”[1709] and that
extracted from the Egyptian[1710] berry, we have already mentioned the
mode in which they are prepared as perfumes. The Indians, too, are
said to extract oils from the chesnut,[1711] sesamum, and rice,[1712]
and the Ichthyophagi[1713] from fish. Scarcity of oil for the supply
of lamps sometimes compels us to make it from the berries[1714] of the
plane-tree, which are first steeped in salt and water.

Œnanthinum,[1715] again, is made from the œnanthe, as we have already
stated when speaking of perfumes. In making gleucinum,[1716] must is
boiled with olive-oil at a slow heat; some persons, however, do not
employ fire in making it, but leave a vessel, filled with oil and
must, surrounded with grape husks, for two and twenty days, taking
care to stir it twice a day: by the end of that period the whole of
the must is imbibed by the oil. Some persons mix with this not only
sampsuchum, but perfumes of still greater price: that, too, which is
used in the gymnasia is scented with perfumes as well, but those of the
very lowest quality. Oils are made, too, from aspalathus,[1717] from
calamus,[1718] balsamum,[1719] cardamum,[1720] melilot, Gallic nard,
panax,[1721] sampsuchum,[1722] helenium, and root of cinnamomum,[1723]
the plants being first left to steep in oil, and then pressed.
In a similar manner, too, rhodinum[1724] is made from roses, and
juncinum from the sweet rush, bearing a remarkable[1725] resemblance
to rose-oil: other oils, again, are extracted from henbane,[1726]
lupines,[1727] and narcissus. Great quantities of oil are made in
Egypt, too, of radish[1728] seed, or else of a common grass known there
as chortinon.[1729] Sesamum[1730] also yields an oil, and so does
the nettle,[1731] its oil being known as “cnidinum.”[1732] In other
countries, too, an oil is extracted from lilies[1733] left to steep
in the open air, and subjected to the influence of the sun, moon, and
frosts. On the borders of Cappadocia and Galatia, they make an oil
from the herbs of the country, known as “Selgicum,”[1734] remarkably
useful for strengthening the tendons, similar, in fact, to that of
Iguvium[1735] in Italy. From pitch an oil[1736] is extracted, that
is known as “pissinum” it is made by boiling the pitch, and spreading
fleeces over the vessels to catch the steam, and then wringing them
out: the most approved kind is that which comes from Bruttium, the
pitch of that country being remarkably rich and resinous: the colour of
this oil is yellow.

There is an oil that grows spontaneously in the maritime parts of
Syria, known to us as “elæomeli;”[1737] it is an unctuous substance
which distils from certain trees, of a thicker consistency than honey,
but somewhat thinner than resin; it has a sweet flavour, and is
employed for medicinal purposes. Old olive oil[1738] is of use for some
kinds of maladies; it is thought to be particularly useful, too, in
the preservation of ivory from decay:[1739] at all events, the statue
of Saturn, at Rome, is filled with oil in the interior.



CHAP. 8. (8.)—AMURCA.


But it is upon the praises of amurca[1740] more particularly, that
Cato[1741] has enlarged. He recommends that vats and casks[1742] for
keeping oil should be first seasoned with it, to prevent them from
soaking up the oil; and he tells us that threshing-floors should be
well rubbed with it, to keep away ants,[1743] and to prevent any chinks
or crannies from being left. The mortar, too, of walls, he says, ought
to be seasoned with it, as well as the roofs and floors of granaries;
and he recommends that wardrobes should be sprinkled with amurca as a
preservative against wood-worms and other noxious insects. He says,
too, that all grain of the cereals should be steeped in it, and speaks
of it as efficacious for the cure of maladies in cattle as well as
trees, and as useful even for ulcerations in the inside and upon the
face of man. We learn from him, also, that thongs, all articles made
of leather, sandals, and axle-trees used to be anointed with boiled
amurca; which was employed also to preserve copper vessels against
verdigrease,[1744] and to give them a better colour; as also for the
seasoning of all utensils made of wood, as well as the earthen jars in
which dried figs were kept, or of sprigs of myrtle with the leaves and
berries on, or any other articles of a similar nature: in addition to
which, he asserts that wood which has been steeped in amurca will burn
without producing a stifling smoke.[1745]

According to M. Varro,[1746] an olive-tree which has been licked by
the tongue of the she-goat, or upon which she has browsed when it was
first budding,[1747] is sure to be barren. Thus much in reference to
the olive and the oils.



CHAP. 9. (9.)—THE VARIOUS KINDS OF FRUIT-TREES AND THEIR NATURES. FOUR
VARIETIES OF PINE-NUTS.


The other fruits found on trees can hardly be enumerated, from their
diversity in shape and figure, without reference to their different
flavours and juices, which have again been modified by repeated
combinations and graftings.

(10.) The largest fruit, and, indeed, the one that hangs at the
greatest height, is the pine-nut. It contains within a number of small
kernels, enclosed in arched beds, and covered with a coat of their own
of rusty iron-colour; Nature thus manifesting a marvellous degree of
care in providing its seeds with a soft receptacle. Another variety
of this nut is the terentina,[1748] the shell of which may be broken
with the fingers; and hence it becomes a prey to the birds while still
on the tree. A third, again, is known as the “sappinia,[1749]” being
the produce of the cultivated pitch-tree: the kernels are enclosed
in a skin more than a shell, which is so remarkably soft that it is
eaten together with the fruit. A fourth variety is that known as the
“pityis;” it is the produce of the pinaster,[1750] and is remarkable
as a good specific for coughs. The kernels are sometimes boiled
in honey[1751] among the Taurini, who then call them “aquiceli.”
The conquerors at the Isthmian games are crowned with a wreath of
pine-leaves.



CHAP. 10. (11.)—THE QUINCE. FOUR KINDS OF CYDONIA, AND FOUR VARIETIES
OF THE STRUTHEA.


Next in size after these are the fruit called by us “cotonea,”[1752]
by the Greeks “Cydonia,”[1753] and first introduced from the island
of Crete. These fruit bend the branches with their weight, and so tend
to impede the growth of the parent tree. The varieties are numerous.
The chrysomelum[1754] is marked with indentations down it, and has
a colour inclining to gold; the one that is known as the “Italian”
quince, is of a paler complexion, and has a most exquisite smell:
the quinces of Neapolis, too, are held in high esteem. The smaller
varieties of the quince which are known as the “struthea,”[1755]
have a more pungent smell, but ripen later than the others; that
called the “musteum,”[1756] ripens the soonest of all. The cotoneum
engrafted[1757] on the strutheum, has produced a peculiar variety,
known as the “Mulvianum,” the only one of them all that is eaten
raw.[1758] At the present day all these varieties are kept shut up in
the antechambers of great men,[1759] where they receive the visits of
their courtiers; they are hung, too, upon the statues[1760] that pass
the night with us in our chambers.

There is a small wild[1761] quince also, the smell of which, next to
that of the strutheum, is the most powerful; it grows in the hedges.



CHAP. 11.—SIX VARIETIES OF THE PEACH.


Under the head of apples,[1762] we include a variety of fruits,
although of an entirely different nature, such as the Persian[1763]
apple, for instance, and the pomegranate, of which, when speaking
of the tree, we have already enumerated[1764] nine varieties. The
pomegranate has a seed within, enclosed in a skin; the peach has a
stone inside. Some among the pears, also, known as “libralia,”[1765]
show, by their name, what a remarkable weight they attain.

(12.) Among the peaches the palm must be awarded to the
duracinus:[1766] the Gallic and the Asiatic peach are distinguished
respectively by the names of the countries of their origin. They ripen
at the end of autumn, though some of the early[1767] kinds are ripe in
the summer. It is only within the last thirty years that these last
have been introduced; originally they were sold at the price of a
denarius a piece. Those known as the “supernatia”[1768] come from the
country of the Sabines, but the “popularia” grow everywhere. This is a
very harmless fruit, and a particular favourite with invalids: some, in
fact, have sold before this as high as thirty sesterces apiece, a price
that has never been exceeded by any other fruit. This, too, is the more
to be wondered at, as there is none that is a worse keeper: for, when
it is once plucked, the longest time that it will keep is a couple of
days; and so sold it must be, fetch what it may.



CHAP. 12. (13).—TWELVE KINDS OF PLUMS.


Next comes a vast number of varieties of the plum, the parti-coloured,
the black,[1769] the white,[1770] the barley[1771] plum—so called,
because it is ripe at barley-harvest—and another of the same colour as
the last, but which ripens later, and is of a larger size, generally
known as the “asinina,”[1772] from the little esteem in which it is
held. There are the onychina, too, the cerina,[1773]—more esteemed,
and the purple[1774] plum: the Armenian,[1775] also an exotic from
foreign parts, the only one among the plums that recommends itself by
its smell. The plum-tree grafted on the nut exhibits what we may call
a piece of impudence quite its own, for it produces a fruit that has
all the appearance of the parent stock, together with the juice of the
adopted fruit: in consequence of its being thus compounded of both,
it is known by the name of “nuci-pruna.”[1776] Nut-prunes, as well
as the peach, the wild plum,[1777] and the cerina, are often put in
casks, and so kept till the crop comes of the following year. All the
other varieties ripen with the greatest rapidity, and pass off just
as quickly. More recently, in Bætica, they have begun to introduce
what they call “malina,” or the fruit of the plum engrafted on the
apple-tree,[1778] and “amygdalina,” the fruit of the plum engrafted
on the almond-tree,[1779] the kernel found in the stone of these last
being that of the almond;[1780] indeed, there is no specimen in which
two fruits have been more ingeniously combined in one.

Among the foreign trees we have already spoken[1781] of the
Damascene[1782] plum, so called from Damascus, in Syria, but introduced
long since into Italy; though the stone of this plum is larger than
usual, and the flesh smaller in quantity. This plum will never dry
so far as to wrinkle; to effect that, it needs the sun of its own
native country. The myxa,[1783] too, may be mentioned, as being the
fellow-countryman of the Damascene: it has of late been introduced into
Rome, and has been grown engrafted upon the sorb.



CHAP. 13.—THE PEACH.


The name of “Persica,” or “Persian apple,” given to this fruit, fully
proves that it is an exotic in both Greece as well as Asia,[1784] and
that it was first introduced from Persis. As to the wild plum, it is
a well-known fact that it will grow anywhere; and I am, therefore,
the more surprised that no mention has been made of it by Cato, more
particularly as he has pointed out the method of preserving several
of the wild fruits as well. As to the peach-tree, it has been only
introduced of late years, and with considerable difficulty; so much
so, that it is perfectly barren in the Isle of Rhodes, the first
resting-place[1785] that it found after leaving Egypt.

It is quite untrue that the peach which grows in Persia is poisonous,
and produces dreadful tortures, or that the kings of that country,
from motives of revenge, had it transplanted in Egypt, where, through
the nature of the soil, it lost all its evil properties—for we find
that it is of the “persea”[1786] that the more careful writers have
stated all this,[1787] a totally different tree, the fruit of which
resembles the red myxa, and, indeed, cannot be successfully cultivated
anywhere but in the East. The learned have also maintained that it
was not introduced from Persis into Egypt with the view of inflicting
punishment, but say that it was planted at Memphis by Perseus; for
which reason it was that Alexander gave orders that the victors should
be crowned with it in the games which he instituted there in honour of
his[1788] ancestor: indeed, this tree has always leaves and fruit upon
it, growing immediately upon the others. It must be quite evident to
every one that all our plums have been introduced since the time of
Cato.[1789]



CHAP. 14. (14.)—THIRTY DIFFERENT KINDS OF POMES. AT WHAT PERIOD FOREIGN
FRUITS WERE FIRST INTRODUCED INTO ITALY, AND WHENCE.


There are numerous varieties of pomes. Of the citron[1790] we have
already made mention when describing its tree; the Greeks gave it the
name of “Medica,”[1791] from its native country. The jujube[1792]-tree
and the tuber[1793] are equally exotics; indeed, they have, both of
them, been introduced only of late years into Italy; the latter from
Africa, the former from Syria. Sextus Papinius, whom we have seen
consul,[1794] introduced them both in the latter years of the reign of
Augustus, produced from slips which he had grown within his camp. The
fruit of the jujube more nearly resembles a berry than an apple: the
tree sets off a terrace[1795] remarkably well, and it is not uncommon
to see whole woods of it climbing up to the very roofs of the houses.

Of the tuber there are two varieties; the white, and the one called
“syricum,”[1796] from its colour. Those fruits, too, may be almost
pronounced exotic which grow nowhere in Italy but in the territory of
Verona, and are known as the wool-fruit.[1797] They are covered with a
woolly down; this is found, it is true, to a very considerable extent,
on both the strutheum variety of quince and the peach, but still it has
given its name to this particular fruit, which is recommended to us by
no other remarkable quality.



CHAP. 15.—THE FRUITS THAT HAVE BEEN MOST RECENTLY INTRODUCED.


Why should I hesitate to make some mention, too, of other varieties by
name, seeing that they have conferred everlasting remembrance on those
who were the first to introduce them, as having rendered some service
to their fellow-men? Unless I am very much mistaken, an enumeration of
them will tend to throw some light upon the ingenuity that is displayed
in the art of grafting, and it will be the more easily understood
that there is nothing so trifling in itself from which a certain
amount of celebrity cannot be ensured. Hence it is that we have fruits
which derive their names from Matius,[1798] Cestius, Mallius, and
Scandius.[1799] Appius, too, a member of the Claudian family, grafted
the quince on the Scandian fruit, in consequence of which the produce
is known as the Appian. This fruit has the smell of the quince, and is
of the same size as the Scandian apple, and of a ruddy colour. Let no
one, however, imagine that this name was merely given in a spirit of
flattery to an illustrious family, for there is an apple known as the
Sceptian,[1800] which owes its name to the son of a freedman, who was
the first to introduce it: it is remarkable for the roundness of its
shape. To those already mentioned, Cato[1801] adds the Quirinian and
the Scantian varieties, which last, he says, keep remarkably well in
large vessels.[1802] The latest kind of all, however, that has been
introduced is the small apple known as the Petisian,[1803] remarkable
for its delightful flavour: the Amerinian[1804] apple, too, and the
little Greek[1805] have conferred renown on their respective countries.

The remaining varieties have received their name from various
circumstances—the apples known as the “gemella”[1806] are always
found hanging in pairs upon one stalk, like twins, and never growing
singly. That known as the “syricum”[1807] is so called from its colour,
while the “melapium”[1808] has its name from its strong resemblance
to the pear. The “musteum”[1809] was so called from the rapidity
with which it ripens; it is the melimelum of the present day, which
derives its appellation from its flavour, being like that of honey.
The “orbiculatum,”[1810] again, is so called from its shape, which
is exactly spherical—the circumstance of the Greeks having called
it the “epiroticum” proves that it came originally from Epirus. The
orthomastium[1811] has that peculiar appellation from its resemblance
to a teat; and the “spadonium”[1812] of the Belgæ is so nicknamed from
the total absence of pips. The melofolium[1813] has one leaf, and
occasionally two, shooting from the middle of the fruit. That known as
the “pannuceum”[1814] shrivels with the greatest rapidity; while the
“pulmoneum”[1815] has a lumpish, swollen appearance.

Some apples are just the colour of blood, owing to an original graft
of the mulberry; but they are all of them red on the side which is
turned towards the sun. There are some small wild[1816] apples also,
remarkable for their fine flavour and the peculiar pungency of their
smell. Some, again, are so remarkably[1817] sour, that they are held
in disesteem; indeed their acidity is so extreme, that it will even
take the edge from off a knife. The worst apples of all are those which
from their mealiness have received the name of “farinacea;”[1818] they
are the first, however, to ripen, and ought to be gathered as soon as
possible.



CHAP. 16. (15.)—FORTY-ONE VARIETIES OF THE PEAR.


A similar degree of precocity has caused the appellation of
“superbum”[1819] to be given to one species of the pear: it is a
small fruit, but ripens with remarkable rapidity. All the world are
extremely partial to the Crustumian[1820] pear; and next to it comes
the Falernian,[1821] so called from the drink[1822] which it affords,
so abundant is its juice. This juice is known by the name of “milk” in
the variety which, of a black colour, is by some called the pear of
Syria.[1823] The denominations given to the others vary according to
the respective localities of their growth. Among the pears, the names
of which have been adopted in our city, the Decimian pear, and the
Pseudo-Decimian—an offshoot from it—have conferred considerable renown
upon the name of those who introduced them. The same is the case, too,
with the variety known as the “Dolabellian,”[1824] remarkable for the
length of its stalk, the Pomponian,[1825] surnamed the mammosum,[1826]
the Licerian, the Sevian, the Turranian, a variety of the Sevian,
but distinguished from it by the greater length of the stalk, the
Favonian,[1827] a red pear, rather larger than the superbum, together
with the Laterian[1828] and the Anician, which come at the end of
autumn, and are pleasant for the acidity of their flavour. One variety
is known as the “Tiberian,”[1829] from its having been a particular
favourite with the Emperor Tiberius; it is more coloured by the sun,
and grows to a larger size, otherwise it would be identical with the
Licerian variety.

The following kinds receive their respective names from their native
countries: the Amerinian,[1830] the latest pear of all, the Picentine,
the Numantine, the Alexandrian, the Numidian, the Greek, a variety
of which is the Tarentine, and the Signine,[1831] by some called
“testaceum,” from its colour, like earthenware; a reason which has also
given their respective names to the “onychine”[1832] and the “purple”
kinds. Then, again, we have the “myrapium,”[1833] the “laureum,”
and the “nardinum,”[1834] so called from the odour they emit; the
“hordearium,”[1835] from the season at which it comes[1836] in; and
the “ampullaceum,”[1837] so called from its long narrow neck. Those,
again, that are known as the “Coriolanian”[1838] and the “Bruttian,”
owe their names to the places of their origin; added to which we have
the cucurbitinum,[1839] and the “acidulum,” so named from the acidity
of its juice. It is quite uncertain for what reason their respective
names were given to the varieties known as the “barbaricum” and the
“Venerium,”[1840] which last is known also as the “coloratum;”[1841]
the royal pear[1842] too, which has a remarkably short stalk, and
will stand on its end, as also the patricium, and the voconium,[1843]
a green oblong kind. In addition to these, Virgil[1844] has made
mention of a pear called the “volema,”[1845] a name which he has
borrowed from Cato,[1846] who makes mention also of kinds known as the
“sementivum”[1847] and the “musteum.”[1848]



CHAP. 17.—VARIOUS METHODS OF GRAFTING TREES. EXPIATIONS FOR LIGHTNING.


This branch of civilized life has long since been brought to the
very highest pitch of perfection, for man has left nothing untried
here. Hence it is that we find Virgil[1849] speaking of grafting the
nut-tree on the arbutus, the apple on the plane, and the cherry on
the elm. Indeed, there is nothing further in this department that can
possibly be devised, and it is a long time since any new variety of
fruit has been discovered. Religious scruples, too, will not allow of
indiscriminate grafting; thus, for instance, it is not permitted to
graft upon the thorn, for it is not easy, by any mode of expiation,
to avoid the disastrous effects of lightning; and we are told[1850]
that as many as are the kinds of trees that have been engrafted on the
thorn, so many are the thunderbolts that will be hurled against that
spot in a single flash.

The form of the pear is turbinated; the later kinds remain on the
parent tree till winter, when they ripen with the frost; such, for
instance, as the Greek variety, the ampullaceum, and the laureum; the
same, too, with apples of the Amerinian and the Scandian kinds. Apples
and pears are prepared for keeping just like grapes, and in as many
different ways; but, with the exception of plums, they are the only
fruit that are stored in casks.[1851] Apples and pears have certain
vinous[1852] properties, and like wine these drinks are forbidden
to invalids by the physicians. These fruits are sometimes boiled up
with wine and water, and so make a preserve[1853] that is eaten with
bread; a preparation which is never made of any other fruit, with the
exception of the quinces, known as the “cotoneum” and the “strutheum.”



CHAP. 18. (16.)—THE MODE OF KEEPING VARIOUS FRUITS AND GRAPES.


For the better preserving of fruits it is universally recommended
that the storeroom should be situate in a cool, dry spot, with a
well-boarded floor, and windows looking towards the north; which in
fine weather ought to be kept open. Care should also be taken to keep
out the south wind by window panes,[1854] while at the same time it
should be borne in mind that a north-east wind will shrivel fruit and
make it unsightly. Apples are gathered after the autumnal equinox;
but the gathering should never begin before the sixteenth day of the
moon, or before the first hour of the day. Windfalls should always be
kept separate, and there ought to be a layer of straw, or else mats or
chaff, placed beneath. They should, also, be placed apart from each
other, in rows, so that the air may circulate freely between them, and
they may equally gain the benefit of it. The Amerinian apple is the
best keeper, the melimelum the very worst of all.

(17.) Quinces ought to be stored in a place kept perfectly closed,
so as to exclude all draughts; or else they should be boiled in
honey[1855] or soaked in it. Pomegranates are made hard and firm by
being first put in boiling[1856] sea-water, and then left to dry for
three days in the sun, care being taken that the dews of the night do
not touch them; after which they are hung up, and when wanted for use,
washed with fresh water. M. Varro[1857] recommends that they should be
kept in large vessels filled with sand: if they are not ripe, he says
that they should be put in pots with the bottom broken out, and then
buried[1858] in the earth, all access to the air being carefully shut,
and care being first taken to cover the stalk with pitch. By this mode
of treatment, he assures us, they will attain a larger size than they
would if left to ripen on the tree. As for the other kinds of pomes,
he says that they should be wrapped up separately in fig-leaves, the
windfalls being carefully excluded, and then stored in baskets of
osier, or else covered over with potters’ earth.

Pears are kept in earthen vessels pitched inside; when filled, the
vessels are reversed and then buried in pits. The Tarentine pear,
Varro says, is gathered very late, while the Anician keeps very well
in raisin wine. Sorb apples, too, are similarly kept in holes in the
ground, the vessel being turned upside down, and a layer of plaster
placed on the lid: it should be buried two feet deep, in a sunny spot;
sorbs[1859] are also hung, like grapes, in the inside of large vessels,
together with the branches.

Some of the more recent authors are found to pay a more scrupulous
degree of attention to these various particulars, and recommend that
the gathering of grapes or pomes, which are intended for keeping,
should take place while the moon is on the wane,[1860] after the third
hour of the day, and while the weather is clear, or dry winds prevail.
In a similar manner, the selection, they say, ought to be made from a
dry spot, and the fruit should be plucked before it is fully ripe, a
moment being chosen while the moon is below the horizon. Grapes, they
say, should be selected that have a strong, hard mallet-stalk, and
after the decayed berries have been carefully removed with a pair of
scissors, they should be hung up inside of a large vessel which has
just been pitched, care being taken to close all access to the south
wind, by covering the lid with a coat of plaster. The same method, they
say, should be adopted for keeping sorb apples and pears, the stalks
being carefully covered with pitch; care should be taken, too, that the
vessels are kept at a distance from water.

There are some persons who adopt the following method for preserving
grapes. They take them off together with the branch, and place them,
while still upon it, in a layer of plaster,[1861] taking care to fasten
either end of the branch in a bulb of squill.[1862] Others, again, go
so far as to place them within vessels containing wine, taking care,
however, that the grapes, as they hang, do not touch it. Some persons
put apples in plates of earth, and then leave them to float in wine,
a method by which it is thought that a vinous flavour is imparted to
them: while some think it a better plan to preserve all these kinds of
fruit in millet. Most people, however, content themselves with first
digging a hole in the ground, a couple of feet in depth; a layer of
sand is then placed at the bottom, and the fruit is arranged upon
it, and covered with an earthen lid, over which the earth is thrown.
Some persons again even go so far as to give their grapes a coating
of potters’ chalk, and then hang them up when dried in the sun; when
required for use, the chalk is removed with water.[1863] Apples are
also preserved in a similar manner; but with them wine is employed for
getting off the chalk. Indeed, we find a very similar plan pursued with
apples of the finest quality; they have a coating laid upon them of
either plaster or wax; but they are apt, if not quite ripe when this
was done, by the increase in their size to break their casing.[1864]
When apples are thus prepared, they are always laid with the stalk
downwards.[1865] Some persons pluck the apple together with the branch,
the ends of which they thrust into the pith of elder,[1866] and then
bury it in the way already pointed out.[1867] There are some who
assign to each apple or pear its separate vessel of clay, and after
carefully pitching the cover, enclose it again in a larger vessel:
occasionally, too, the fruit is placed on a layer of flocks of wool, or
else in baskets,[1868] with a lining of chaff and clay. Other persons
follow a similar plan, but use earthen plates for the purpose; while
others, again, employ the same method, but dig a hole in the earth, and
after placing a layer of sand, lay the fruit on top of it, and then
cover the whole with dry earth. Persons, too, are sometimes known to
give quinces a coating of Pontic[1869] wax, and then plunge them in
honey.

Columella[1870] informs us, that fruit is kept by being carefully
put in earthen vessels, which then receive a coating of pitch, and
are placed in wells or cisterns to sink to the bottom. The people of
maritime Liguria, in the vicinity of the Alps, first dry their grapes
in the sun,[1871] and wrap them up in bundles of rushes, which are then
covered with plaster. The Greeks follow a similar plan, but substitute
for rushes the leaves of the plane-tree, or of the vine itself, or else
of the fig, which they dry for a single day in the shade, and then
place in a cask in alternate layers with husks[1872] of grapes. It is
by this method that they preserve the grapes of Cos and Berytus, which
are inferior to none in sweetness. Some persons, when thus preparing
them, plunge the grapes into lie-ashes the moment they take them from
the vine, and then dry them in the sun; they then steep them in warm
water, after which they put them to dry again in the sun: and last of
all, as already mentioned, wrap them up in bundles formed of layers of
leaves and grape husks. There are some who prefer keeping their grapes
in sawdust,[1873] or else in shavings of the fir-tree, poplar, and ash:
while others think it the best plan to hang them up in the granary, at
a careful distance from the apples, directly after the gathering, being
under the impression that the very best covering for them as they hang
is the dust[1874] that naturally arises from the floor. Grapes are
effectually protected against the attacks of wasps by being sprinkled
with oil[1875] spirted from the mouth. Of palm-dates we have already
spoken.[1876]



CHAP. 19. (18.)—TWENTY-NINE VARIETIES OF THE FIG.


Of all the remaining fruits that are included under the name of
“pomes,” the fig[1877] is the largest: some, indeed, equal the pear,
even, in size. We have already mentioned, while treating of the exotic
fruits, the miraculous productions of Egypt and Cyprus[1878] in the
way of figs. The fig of Mount Ida[1879] is red, and the size of an
olive, rounder however, and like a medlar in flavour; they give it the
name of Alexandrian in those parts. The stem is a cubit in thickness;
it is branchy, has a tough, pliant wood, is entirely destitute of all
milky juice,[1880] and has a green bark, and leaves like those of
the linden tree, but soft to the touch. Onesicritus states that in
Hyrcania the figs are much sweeter than with us, and that the trees
are more prolific, seeing that a single tree will bear as much as two
hundred and seventy modii[1881] of fruit. The fig has been introduced
into Italy from other countries, Chalcis and Chios, for instance, the
varieties being very numerous: there are those from Lydia also, which
are of a purple colour, and the kind known as the “mamillana,”[1882]
which is very similar to the Lydian. The callistruthiæ are very little
superior to the last in flavour; they are the coldest by nature of all
the figs. As to the African fig, by many people preferred to any other,
it has been made the subject of very considerable discussion, as it is
a kind that has been introduced very recently into Africa, though it
bears the name of that country. As to the fig of Alexandria,[1883] it
is a black variety, with the cleft inclining to white; it has had the
name given to it of the “delicate”[1884] fig: the Rhodian fig, too, and
the Tiburtine,[1885] one of the early kinds, are black. Some of them,
again, bear the name of the persons who were the first to introduce
them, such, for instance, as the Livian[1886] and the Pompeian[1887]
figs: this last variety is the best for drying in the sun and keeping
for use, from year to year; the same is the case, too, with the
marisca,[1888] and the kind which has a leaf spotted all over like the
reed.[1889] There is also the Herculanean fig, the albicerata,[1890]
and the white aratia, a very large variety, with an extremely
diminutive stalk.

The earliest of them all is the porphyritis,[1891] which has a stalk
of remarkable length: it is closely followed by the popularis,[1892]
one of the very smallest of the figs, and so called from the low esteem
in which it is held: on the other hand, the chelidonia[1893] is a kind
that ripens the last of all, and towards the beginning of winter. In
addition to these, there are figs that are at the same time both late
and early, as they bear two crops in the year, one white and the other
black,[1894] ripening at harvest-time and vintage respectively. There
is another late fig also, that has received its name from the singular
hardness of its skin; one of the Chalcidian varieties bears as many as
three times in the year. It is at Tarentum only that the remarkably
sweet fig is grown which is known by the name of “ona.”

Speaking of figs, Cato has the following remarks: “Plant the fig called
the ‘marisca’ on a chalky or open site, but for the African variety,
the Herculanean, the Saguntine,[1895] the winter fig and the black
Telanian[1896] with a long stalk, you must select a richer soil, or
else a ground well manured.” Since his day there have so many names and
kinds come up, that even on taking this subject into consideration,
it must be apparent to every one how great are the changes which have
taken place in civilized life.

There are winter figs, too, in some of the provinces, the Mœsian, for
instance; but they are made so by artificial means, such not being in
reality their nature. Being a small variety of the fig-tree, they cover
it up with manure at the end of autumn, by which means the fruit on
it is overtaken by winter while still in a green state: then when the
weather becomes milder the fruit is uncovered along with the tree, and
so restored to light. Just as though it had come into birth afresh,
the fruit imbibes the heat of the new sun with the greatest avidity—a
different sun, in fact, to that[1897] which originally gave it life—and
so ripens along with the blossom of the coming crop; thus attaining
maturity in a year not its own, and this in a country,[1898] too, where
the greatest cold prevails.



CHAP. 20.—HISTORICAL ANECDOTES CONNECTED WITH THE FIG.


[1899] The mention by Cato of the variety which bears the name of the
African fig, strongly recalls to my mind a remarkable fact connected
with it and the country from which it takes its name.

Burning with a mortal hatred to Carthage, anxious, too, for the safety
of his posterity, and exclaiming at every sitting of the senate that
Carthage must be destroyed, Cato one day brought with him into the
Senate-house a ripe fig, the produce of that country. Exhibiting it to
the assembled senators, “I ask you,” said he, “when, do you suppose,
this fruit was plucked from the tree?” All being of opinion that it
had been but lately gathered,—“Know then,” was his reply, “that this
fig was plucked at Carthage but the day before yesterday[1900]—so near
is the enemy to our walls.” It was immediately after this occurrence
that the third Punic war commenced, in which Carthage was destroyed;
though Cato had breathed his last, the year after this event. In this
trait which are we the most to admire? was it ingenuity[1901] and
foresight on his part, or was it an accident that was thus aptly turned
to advantage? which, too, is the most surprising, the extraordinary
quickness of the passage which must have been made, or the bold daring
of the man? The thing, however, that is the most astonishing of
all—indeed, I can conceive nothing more truly marvellous—is the fact
that a city thus mighty, the rival of Rome for the sovereignty of the
world during a period of one hundred and twenty years, owed its fall at
last to an illustration drawn from a single fig!

Thus did this fig effect that which neither Trebia nor Thrasimenus,
not Cannæ itself, graced with the entombment of the Roman renown, not
the Punic camp entrenched within three miles of the city, not even
the disgrace of seeing Hannibal riding up to the Colline Gate, could
suggest the means of accomplishing. It was left for a fig, in the hand
of Cato, to show how near was Carthage to the gates of Rome!

In the Forum even, and in the very midst of the Comitium[1902] of Rome,
a fig-tree is carefully cultivated, in memory of the consecration which
took place on the occasion of a thunderbolt[1903] which once fell on
that spot; and still more, as a memorial of the fig-tree which in
former days overshadowed Romulus and Remus, the founders of our empire,
in the Lupercal Cave. This tree received the name of “ruminalis,”
from the circumstance that under it the wolf was found giving the
breast—_rumis_ it was called in those days—to the two infants. A group
in bronze was afterwards erected to consecrate the remembrance of this
miraculous event, as, through the agency of Attus Navius the augur, the
tree itself had passed spontaneously from its original locality[1904]
to the Comitium in the Forum. And not without some direful presage is
it that that tree has withered away, though, thanks to the care of the
priesthood, it has been since replaced.[1905]

There was another fig-tree also, before the temple of Saturn,[1906]
which was removed on the occasion of a sacrifice made by the Vestal
Virgins, it being found that its roots were gradually undermining the
statue of the god Silvanus. Another one, accidentally planted there,
flourished in the middle of the Forum,[1907] upon the very spot, too,
in which, when from a direful presage it had been foreboded that the
growing empire was about to sink to its very foundations, Curtius, at
the price of an inestimable treasure—in other words, by the sacrifice
of such unbounded virtue and piety—redeemed his country by a glorious
death. By a like accident, too, a vine and an olive-tree have sprung
up in the same spot,[1908] which have ever since been carefully tended
by the populace for the agreeable shade which they afford. The altar
that once stood there was afterwards removed by order of the deified
Julius Cæsar, upon the occasion of the last spectacle of gladiatorial
combats[1909] which he gave in the Forum.



CHAP. 21.—CAPRIFICATION.


The fig, the only one among all the pomes, hastens to maturity by the
aid of a remarkable provision of Nature. (19.) The wild-fig,[1910]
known by the name of “caprificus,” never ripens itself, though it
is able to impart to the others the principle of which it is thus
destitute; for we occasionally find Nature making a transfer of what
are primary causes, and being generated from decay. To effect this
purpose the wild fig-tree produces a kind of gnat.[1911] These
insects, deprived of all sustenance from their parent tree, at the
moment that it is hastening to rottenness and decay, wing their flight
to others of kindred though cultivated kind. There feeding with avidity
upon the fig, they penetrate it in numerous places, and by thus making
their way to the inside, open the pores of the fruit.[1912] The moment
they effect their entrance, the heat of the sun finds admission too,
and through the inlets thus made the fecundating air is introduced.
These insects speedily consume the milky juice that constitutes the
chief support of the fruit in its infant[1913] state, a result which
would otherwise be spontaneously effected by absorption: and hence it
is that in the plantations of figs a wild fig is usually allowed to
grow, being placed to the windward of the other trees in order that
the breezes may bear from it upon them. Improving upon this discovery,
branches of the wild fig are sometimes brought from a distance, and
bundles tied together are placed upon the cultivated tree. This method,
however, is not necessary when the trees are growing on a thin soil,
or on a site exposed to the north-east wind; for in these cases the
figs will dry spontaneously, and the clefts which are made in the
fruit effect the same ripening process which in other instances is
brought about by the agency of these insects. Nor is it requisite to
adopt this plan on spots which are liable to dust, such, for instance,
as is generally the case with fig-trees planted by the side of
much-frequented roads: the dust having the property of drying up[1914]
the juices of the fig, and so absorbing the milky humours. There is
this superiority, however, in an advantageous site over the methods
of ripening by the agency of dust or by caprification, that the fruit
is not so apt to fall; for the secretion of the juices being thus
prevented, the fig is not so heavy as it would otherwise be, and the
branches are less brittle.

All figs are soft to the touch, and when ripe contain grains[1915] in
the interior. The juice, when the fruit is ripening, has the taste of
milk, and when dead ripe, that of honey. If left on the tree they will
grow old; and when in that state, they distil a liquid that flows in
tears[1916] like gum. Those that are more highly esteemed are kept
for drying, and the most approved kinds are put away for keeping in
baskets.[1917] The figs of the island of Ebusus[1918] are the best as
well as the largest, and next to them are those of Marrucinum.[1919]
Where figs are in great abundance, as in Asia, for instance, huge
jars[1920] are filled with them, and at Ruspina, a city of Africa, we
find casks[1921] used for a similar purpose: here, in a dry state,
they are extensively used instead of bread,[1922] and indeed as a
general article of provision.[1923] Cato,[1924] when laying down
certain definite regulations for the support of labourers employed in
agriculture, recommends that their supply of food should be lessened
just at the time[1925] when the fig is ripening: it has been a plan
adopted in more recent times, to find a substitute for salt with
cheese, by eating fresh figs. To this class of fruit belong, as we
have already mentioned,[1926] the cottana and the carica, together
with the cavnea,[1927] which was productive of so bad an omen to M.
Crassus at the moment when he was embarking[1928] for his expedition
against the Parthians, a dealer happening to be crying them just at
that very moment. L. Vitellius, who was more recently appointed to the
censorship,[1929] introduced all these varieties from Syria at his
country-seat at Alba,[1930] having acted as legatus in that province in
the latter years of the reign of Tiberius Cæsar.



CHAP. 22. (20.)—THREE VARIETIES OF THE MEDLAR.


The medlar and the sorb[1931] ought in propriety to be ranked under
the head of the apple and the pear. Of the medlar[1932] there are
three varieties, the anthedon,[1933] the setania,[1934] and a third of
inferior quality, which bears a stronger resemblance to the anthedon,
and is known as the Gallic[1935] kind. The setania is the largest
fruit, and the palest in colour; the woody seed in the inside of it
is softer, too, than in the others, which are of smaller size than
the setania, but superior to it in the fragrance of their smell, and
in being better keepers. The tree itself is one of very ample[1936]
dimensions: the leaves turn red before they fall: the roots are
numerous, and penetrate remarkably deep, which renders it almost
impossible to grub it up. This tree[1937] did not exist in Italy in
Cato’s time.



CHAP. 23. (21).—FOUR VARIETIES OF THE SORB.


There are four varieties of the sorb: there being some that have all
the roundness[1938] of the apple, while others are conical like the
pear,[1939] and a third sort are of an oval[1940] shape, like some of
the apples: these last, however, are apt to be remarkably acid. The
round kind is the best for fragrance and sweetness, the others having
a vinous flavour; the finest, however, are those which have the stalk
surrounded with tender leaves. A fourth kind is known by the name of
“torminalis:”[1941] it is only employed, however, for remedial purposes.

The tree is a good bearer, but does not resemble the other kinds,
the leaf being nearly that of the plane-tree; the fruit, too, is
particularly small. Cato[1942] speaks of sorbs being preserved in
boiled wine.



CHAP. 24. (22.)—NINE VARIETIES OF THE NUT.


The walnut,[1943] which would almost claim precedence of the sorb in
size, yields the palm to it in reference to the esteem[1944] in which
they are respectively held; and this, although it is so favourite an
accompaniment of the Fescennine[1945] songs at nuptials. This nut,
taken as a whole, is very considerably smaller than the pine nut, but
the kernel is larger in proportion. Nature, too, has conferred upon
it a peculiar honour, in protecting it with a two-fold covering, the
first of which forms a hollowed cushion for it to rest upon, and the
second is a woody shell. It is for this reason that this fruit has been
looked upon as a symbol consecrated to marriage,[1946] its offspring
being thus protected in such manifold ways: an explanation which bears
a much greater air of probability than that which would derive it from
the rattling which it makes when it bounds from the floor.[1947] The
Greek names that have been given to this fruit fully prove that it,
like many others, has been originally introduced from Persis; the best
kinds being known in that language by the names of “Persicum,”[1948]
and “basilicon;”[1949] these, in fact, being the names by which they
were first known to us. It is generally agreed, too, that one peculiar
variety has derived its name of “caryon,”[1950] from the headache which
it is apt to produce by the pungency[1951] of its smell.

The green shell of the walnut is used for dyeing[1952] wool, and the
nuts, while still small and just developing themselves, are employed
for giving a red hue to the hair:[1953] a discovery owing to the
stains which they leave upon the hands. When old, the nut becomes more
oleaginous. The only difference in the several varieties consists
in the relative hardness or brittleness of the shell, it being thin
or thick, full of compartments or smooth and uniform. This is the
only fruit that Nature has enclosed in a covering formed of pieces
soldered together; the shell, in fact, forming a couple of boats, while
the kernel is divided into four separate compartments[1954] by the
intervention of a ligneous membrane.

In all the other kinds, the fruit and the shell respectively are of
one solid piece, as we find the case with the hazel-nut,[1955] and
another variety of the nut formerly known as “Abellina,”[1956] from the
name[1957] of the district in which it was first produced: it was first
introduced into Asia and Greece from Pontus, whence the name that is
sometimes given to it—the “Pontic nut.” This nut, too, is protected by
a soft beard,[1958] but both the shell and the kernel are round, and
formed of a single piece: these nuts are sometimes roasted.[1959] In
the middle of the kernel we find a germen or navel.

A third class of nuts is the almond,[1960] which has an outer
covering, similar to that of the walnut, but thinner, with a second
coat in the shape of a shell. The kernel, however, is unlike that of
the walnut, in respect of its broad, flat shape, its firmness, and the
superior tastiness of its flavour. It is a matter of doubt whether
this tree was in existence in Italy in the time of Cato; we find him
speaking of Greek nuts,[1961] but there are some persons who think
that these belong to the walnut class. He makes mention, also, of the
hazel-nut, the calva,[1962] and the Prænestine[1963] nut, which last he
praises beyond all others, and says[1964] that, put in pots, they may
be kept fresh and green by burying them in the earth.

At the present day, the almonds of Thasos and those of Alba are held
in the highest esteem, as also two kinds that are grown at Tarentum,
one with a thin,[1965] brittle shell, and the other with a harder[1966]
one: these last are remarkably large, and of an oblong shape. There
is the almond known as the “mollusca,”[1967] also, which breaks the
shell of itself. There are some who would concede a highly honourable
interpretation to the name given to the walnut, and say that “juglans”
means the “glans,” or “acorn of Jove.” It is only very lately that
I heard a man of consular rank declare, that he then had in his
possession walnut-trees that bore two[1968] crops in the year.

Of the pistachio, which belongs also to the nut class, we have already
spoken[1969] in its appropriate place: Vitellius introduced this tree
into Italy at the same time as the others that we mentioned;[1970]
and Flaccus Pompeius, a Roman of Equestrian rank, who served with him,
introduced it at the same period into Spain.



CHAP. 25. (23.)—EIGHTEEN VARIETIES OF THE CHESNUT.


We give the name of nut, too, to the chesnut,[1971] although it would
seem more properly to belong to the acorn tribe. The chesnut has
its armour of defence in a shell bristling with prickles like the
hedge-hog, an envelope which in the acorn is only partially developed.
It is really surprising, however, that Nature should have taken such
pains thus to conceal an object of so little value. We sometimes find
as many as three nuts beneath a single outer shell. The skin[1972] of
the nut is limp and flexible: there is a membrane, too, which lies next
to the body of the fruit, and which, both in this and in the walnut,
spoils the flavour if not taken off. Chesnuts are the most pleasant
eating when roasted:[1973] they are sometimes ground also, and are
eaten by women when fasting for religious scruples,[1974] as bearing
some resemblance to bread. It is from Sardes[1975] that the chesnut
was first introduced, and hence it is that the Greeks have given it
the name of the “Sardian acorn;” for the name “Dios balanon”[1976] was
given at a later period, after it had been considerably improved by
cultivation.

At the present day there are numerous varieties of the chesnut. Those
of Tarentum are a light food, and by no means difficult of digestion;
they are of a flat shape. There is a rounder variety, known as the
“balanitis;”[1977] it is very easily peeled, and springs clean out
of the shell, so to say, of its own accord. The Salarian[1978]
chesnut has a smooth outer shell, while that of Tarentum is not so
easily handled.[1979] The Corellian is more highly esteemed, as is
the Etereian, which is an offshoot from it produced by a method upon
which we shall have to enlarge when we come to speak of grafting.[1980]
This last has a red skin,[1981] which causes it to be preferred to the
three-cornered chesnut and our black common sorts, which are known
as “coctivæ.”[1982] Tarentum and Neapolis in Campania are the most
esteemed localities for the chesnut: other kinds, again, are grown to
feed pigs upon,[1983] the skin of which is rough and folded inwards, so
as to penetrate to the heart of the kernel.



CHAP. 26. (24.)—THE CAROB.


The carob,[1984] a fruit of remarkable sweetness, does not appear to be
so very dissimilar to the chesnut, except that the skin[1985] is eaten
as well as the inside. It is just the length of a finger, and about
the thickness of the thumb, being sometimes of a curved shape, like a
sickle. The acorn cannot be reckoned in the number of the fruits; we
shall, therefore, speak of it along with the trees of that class.[1986]



CHAP. 27.—THE FLESHY FRUITS. THE MULBERRY.


The other fruits belong to the fleshy kind, and differ both in the
shape and the flesh. The flesh of the various berries,[1987] of the
mulberry, and of the arbute, are quite different from one another—and
then what a difference, too, between the grape, which is only skin
and juice,[1988] the myxa plum, and the flesh of some berries,[1989]
such as the olive, for instance! In the flesh of the mulberry there
is a juice of a vinous flavour, and the fruit assumes three different
colours, being at first white, then red, and ripe when black. The
mulberry blossoms one of the very last,[1990] and yet is among the
first to ripen: the juice of the fruit, when ripe, will stain the
hands, but that of the unripe fruit will remove the marks. It is in
this tree that human ingenuity has effected the least improvement[1991]
of all; there are no varieties here, no modifications effected by
grafting, nor, in fact, any other improvement except that the size of
the fruit, by careful management, has been increased. At Rome, there
is a distinction made between the mulberries of Ostia and those of
Tusculum. A variety grows also on brambles, but the flesh of the fruit
is of a very different nature.[1992]



CHAP. 28.—THE FRUIT OF THE ARBUTUS.


The flesh of the ground-strawberry[1993] is very different to that of
the arbute-tree,[1994] which is of a kindred kind: indeed, this is the
only instance in which we find a similar fruit growing upon a tree and
on the ground. The tree is tufted and bushy; the fruit takes a year
to ripen, the blossoms of the young fruit flowering while that of the
preceding year is arriving at maturity. Whether it is the male tree or
the female that is unproductive, authors are not generally agreed.

This is a fruit held in no esteem, in proof of which it has gained
its name of “unedo,”[1995] people being generally content with eating
but one. The Greeks, however, have found for it two names—“comaron”
and “memecylon,” from which it would appear[1996] that there are two
varieties. It has also with us another name besides that of “unedo,”
being known also as the “arbutus.” Juba states that in Arabia this tree
attains the height of fifty cubits.



CHAP. 29.—THE RELATIVE NATURES OF BERRY FRUITS.


There is a great difference also among the various acinus fruits. First
of all, among the grapes, we find considerable difference in respect
to their firmness, the thinness or thickness of the skin, and the
stone inside the fruit, which in some varieties is remarkably small,
and in others even double in number: these last producing but very
little juice. Very different, again, are the berries of the ivy[1997]
and the elder;[1998] as also those in the pomegranate,[1999] these
being the only ones that are of an angular shape. These last, also,
have not a membrane for each individual grain, but one to cover them
all in common, and of a pale colour. All these fruits consist, too, of
juice and flesh, and those more particularly which have but small seeds
inside.

There are great varieties, too, among the berry[2000] fruits; the berry
of the olive being quite different from that of the laurel, the berry
of the lotus[2001] from that of the cornel, and that of the myrtle from
the berry of the lentisk. The berry, however, of the aquifolium[2002]
and the thorn[2003] is quite destitute of juice.

The cherry[2004] occupies a middle place between the berry and the
acinus fruit: it is white at first, which is the case also with nearly
all the berries. From white, some of the berries pass to green, the
olive and the laurel, for instance; while in the mulberry, the cherry,
and the cornel, the change is to red; and then in some to black, as
with the mulberry, the cherry, and the olive, for instance.



CHAP. 30. (25.)—NINE VARIETIES OF THE CHERRY.


The cherry did not exist in Italy before the period of the victory
gained over Mithridates by L. Lucullus, in the year of the City 680.
He was the first to introduce this tree from Pontus, and now, in the
course of one hundred and twenty years, it has travelled beyond the
Ocean, and arrived in Britannia even. The cherry, as we have already
stated,[2005] in spite of every care, it has been found impossible
to rear in Egypt. Of this fruit, that known as the “Apronian”[2006]
is the reddest variety, the Lutatian[2007] being the blackest, and
the Cæcilian[2008] perfectly round. The Junian[2009] cherry has an
agreeable flavour, but only, so to say, when eaten beneath the tree,
as they are so remarkably delicate that they will not bear carrying.
The highest rank, however, has been awarded to the duracinus[2010]
variety, known in Campania as the “Plinian”[2011] cherry, and in
Belgica to the Lusitanian[2012] cherry, as also to one that grows on
the banks of the Rhenus. This last kind has a third colour, being a
mixture[2013] of black, red, and green, and has always the appearance
of being just on the turn to ripening. It is less than five years since
the kind known as the “laurel-cherry” was introduced, of a bitter but
not unpleasant flavour, the produce of a graft[2014] upon the laurel.
The Macedonian cherry grows on a tree that is very small,[2015] and
rarely exceeds three cubits in height; while the chamæcerasus[2016] is
still smaller, being but a mere shrub. The cherry is one of the first
trees to recompense the cultivator with its yearly growth; it loves
cold localities and a site exposed to the north.[2017] The fruit are
sometimes dried in the sun, and preserved, like olives, in casks.



CHAP. 31. (26.)—THE CORNEL. THE LENTISK.


The same degree of care is expended also on the cultivation of the
cornel[2018] and the lentisk;[2019] that it may not be thought,
forsooth, that there is anything that was not made for the craving
appetite of man! Various flavours are blended together, and one is
compelled to please our palates by the aid of another—hence it is
that the produce of different lands and various climates are so
often mingled with one another. For one kind of food it is India
that we summon to our aid, and then for another we lay Egypt under
contribution, or else Crete, or Cyrene, every country, in fact: no,
nor does man stick at poisons[2020] even, if he can only gratify his
longing to devour everything: a thing that will be still more evident
when we come to treat of the nature of herbs.



CHAP. 32. (27.)—THIRTEEN DIFFERENT FLAVOURS OF JUICES.


While upon this subject, it may be as well to state that there are
no less than thirteen different flavours[2021] belonging in common
to the fruits and the various juices: the sweet, the luscious, the
unctuous, the bitter, the rough, the acrid,[2022] the pungent, the
sharp, the sour, and the salt; in addition to which, there are three
other kinds of flavours of a nature that is truly singular. The first
of these last kinds is that flavour in which several other flavours
are united, as in wine, for instance; for in it we are sensible of the
rough, the pungent,[2023] and the luscious, all at the same moment,
and all of them flavours that belong to other substances. The second
of these flavours is that in which we are sensible at the same instant
of a flavour that belongs to another substance, and yet of one that is
peculiar to the individual object of which we are tasting, such as that
of milk, for instance: indeed, in milk we cannot correctly say that
there is any pronounced flavour that is either sweet, or unctuous, or
luscious, a sort of smooth taste[2024] in the mouth being predominant,
which holds the place of a more decided flavour. The third instance
is that of water, which has no flavour whatever, nor, indeed, any
flavouring principle;[2025] but still, this very absence of flavour
is considered as constituting one of them, and forming a peculiar
class[2026] of itself; so much so, indeed, that if in water any taste
or flavouring principle is detected, it is looked upon as impure.

In the perception of all these various flavours the smell plays a very
considerable[2027] part, there being a very great affinity between
them. Water, however, is properly quite inodorous: and if the least
smell is to be perceived, it is not pure water. It is a singular thing
that three of the principal elements[2028] of Nature—water, air, and
fire—should have neither taste nor smell, nor, indeed, any flavouring
principle whatever.



CHAP. 33. (28.)—THE COLOUR AND SMELL OF JUICES.


Among the juices, those of a vinous[2029] flavour belong to the pear,
the mulberry, and the myrtle, and not to the grape, a very singular
fact. An unctuous taste is detected in the olive,[2030] the laurel,
the walnut, and the almond; sweetness exists in the grape, the fig,
and the date; while in the plum class we find a watery[2031] juice.
There is a considerable difference, too, in the colours assumed by the
various juices. That of the mulberry, the cherry, the cornel, and the
black grape resembles the colour of blood, while in the white grape
the juice is white. The humour found in the summit of the fig[2032]
is of a milky nature, but not so with the juice found in the body of
the fruit. In the apple it is the colour of foam,[2033] while in the
peach it is perfectly colourless, and this is the case, too, with the
duracinus,[2034] which abounds in juice; for who can say that he has
ever detected any colour in it?

Smell, too, presents its own peculiar marvels; in the apple it is
pungent,[2035] and it is weak in the peach, while in the sweet[2036]
fruits we perceive none at all: so, too, the sweet wines are inodorous,
while the thinner ones have more aroma, and are much sooner fit for
use than those of a thicker nature.[2037] The odoriferous fruits
are not pleasing to the palate in the same degree, seeing that the
flavour[2038] of them does not come up to their smell: hence it is that
in the citron we find the smell so extremely penetrating,[2039] and
the taste sour in the highest degree. Sometimes the smell is of a more
delicate[2040] nature, as in the quince, for instance; while the fig
has no odour whatever.



CHAP. 34.—THE VARIOUS NATURES OF FRUIT.


Thus much, then, for the various classes and kinds of fruit: it will
be as well now to classify their various natures within a more limited
scope. Some fruits grow in a pod which is sweet itself, and contains a
bitter seed: whereas in most kinds of fruit the seed is agreeable to
the palate, those which grow in a pod are condemned. Other fruits are
berries, with the stone within and the flesh without, as in the olive
and the cherry: others, again, have the berry within and the stone
without, the case, as we have already stated, with the berries that
grow in Egypt.[2041]

Those fruits, known as “pomes” have the same characteristics as the
berry fruits; in some of them we find the body of the fruit within and
the shell without, as in the nut, for example; others, again, have the
meat of the fruit without and the shell within, the peach and the plum,
for instance: the refuse part being thus surrounded with the flesh,
while in other fruits the flesh is surrounded by the refuse part.[2042]
Nuts are enclosed in a shell, chesnuts in a skin; in chesnuts the skin
is taken off, but in medlars it is eaten with the rest. Acorns are
covered with a crust, grapes with a husk, and pomegranates with a skin
and an inner membrane. The mulberry is composed of flesh and juice,
while the cherry consists of juice and skin. In some fruits the flesh
separates easily from the woody part, the walnut and the date, for
instance; in others it adheres, as in the case of the olive and the
laurel berry: some kinds, again, partake of both natures, the peach,
for example; for in the duracinus[2043] kind the flesh adheres to the
stone, and cannot be torn away from it, while in the other sorts they
are easily separated. In some fruits there is no stone or shell[2044]
either within or without, one variety of the date,[2045] for instance.
In some kinds, again, the shell is eaten, just the same as the fruit;
this we have already mentioned as being the case with a variety of the
almond found in Egypt.[2046] Some fruits have on the outside a twofold
refuse covering, the chesnut, the almond, and the walnut, for example.
Some, again, are composed of three separate parts—the body of the
fruit, then a woody shell, and inside of that a kernel, as in the peach.

Some fruits grow closely packed together, such as grapes and sorbs:
these last, just like so many grapes in a cluster, cling round the
branch and bend it downwards with their weight. On the other hand, some
fruits grow separately, at a distance from one another; this is the
case with the peach. Some fruits are enclosed in a sort of matrix, as
with the grains of the pomegranate: some hang down from a stalk, such
as the pear, for instance: others hang in clusters, grapes and dates,
for example. Others, again, grow upon stalks and bunches united: this
we find the case with the berries of the ivy and the elder. Some adhere
close to the branches, like the laurel berry, while other varieties
lie close to the branch or hang from it, as the case may be: thus we
find in the olive some fruit with short stalks, and others with long.
Some fruits grow with a little calyx at the top, the pomegranate, for
example, the medlar, and the lotus[2047] of Egypt and the Euphrates.

Then, too, as to the various parts of fruit, they are held in different
degrees of esteem according to their respective recommendations. In the
date it is the flesh that is usually liked, in those of Thebais it is
the crust;[2048] the grape and the caryota date are esteemed for their
juice, the pear and the apple for their firmness, the melimelum[2049]
for its soft meat, the mulberry for its cartilaginous consistency, and
nuts for their kernels. Some fruits in Egypt are esteemed for their
skin; the carica,[2050] for instance. This skin, which in the green fig
is thrown away as so much refuse peeling, when the fig is dried is very
highly esteemed. In the papyrus,[2051] the ferula,[2052] and the white
thorn[2053] the stalk itself constitutes the fruit, and the shoots of
the fig-tree[2054] are similarly employed.

Among the shrubs, the fruit of the caper[2055] is eaten along with the
stalk; and in the carob,[2056] what is the part that is eaten but so
much wood? Nor ought we to omit one peculiarity that exists in the seed
of this fruit—it can be called neither flesh, wood, nor cartilage, and
yet no other name has been found for it.



CHAP. 35. (29).—THE MYRTLE.


The nature of the juices that are found in the myrtle are particularly
remarkable, for it is the only one[2057] of all the trees, the berries
of which produce two kinds of oil[2058] as well as of wine, besides
myrtidanum,[2059] of which we have already spoken. The berry of this
was also put to another use in ancient times, for before pepper[2060]
was known it was employed in place of it as a seasoning; so much so,
indeed, that a name has been derived from it for the highly-seasoned
dish which to this day is known by the name of “myrtatum.”[2061] It is
by the aid of these berries, too, that the flavour of the flesh of the
wild boar is improved, and they generally form one of the ingredients
in the flavouring of our sauces.



CHAP. 36.—HISTORICAL ANECDOTES RELATIVE TO THE MYRTLE.


This tree was seen for the first time in the regions of Europe, which
commence on this side of the Ceraunian mountains,[2062] growing at
Circeii,[2063] near the tomb of Elpenor there:[2064] it still retains
its Greek[2065] name, which clearly proves it to be an exotic. There
were myrtles growing on the site now occupied by Rome, at the time of
its foundation; for a tradition exists to the effect that the Romans
and the Sabines, after they had intended fighting, on account of the
virgins who had been ravished by the former, purified themselves, first
laying down their arms, with sprigs of myrtle, on the very same spot
which is now occupied by the statues of Venus Cluacina; for in the
ancient language “cluere” means to purify.

This tree is employed, too, for a species of fumigation;[2066] being
selected for that purpose, because Venus, who presides over all
unions, is the tutelary divinity of the tree.[2067] I am not quite
sure, too, whether this tree was not the very first that was planted
in the public places of Rome, the result of some ominous presage by
the augurs of wondrous import. For at the Temple of Quirinus, or, in
other words, of Romulus himself, one of the most ancient in Rome, there
were formerly two myrtle-trees, which grew for a long period just
in front of the temple; one of these was called the Patrician tree,
the other the Plebeian. The Patrician myrtle was for many years the
superior tree, full of sap and vigour; indeed, so long as the Senate
maintained its superiority, so did the tree, being of large growth,
while the Plebeian tree presented a meagre, shrivelled appearance. In
later times, however, the latter tree gained the superiority, and the
Patrician myrtle began to fail just at the period of the[2068] Marsic
War,[2069] when the power of the Senate was so greatly weakened: and
little by little did this once majestic tree sink into a state of
utter exhaustion and sterility. There was an ancient altar[2070] also,
consecrated to Venus Myrtea, known at the present day by the name of
Murcia.



CHAP. 37.—ELEVEN VARIETIES OF THE MYRTLE.


Cato[2071] makes mention of three varieties of the myrtle, the black,
white, and the conjugula, perhaps so called from its reference to
conjugal unions, and belonging to the same species as that which grew
where Cluacina’s statues now stand: at the present day the varieties
are differently distinguished into the cultivated and the wild[2072]
myrtle, each of which includes a kind with a large leaf. The kind
known as “oxymyrsine,”[2073] belongs only to the wild variety:
ornamental gardeners classify several varieties of the cultivated
kind; the “Tarentine,”[2074] they speak of as a myrtle with a small
leaf, the myrtle of this country[2075] as having a broad leaf, and the
hexasticha[2076] as being very thickly covered with leaves, growing in
rows of six: it is not, however, made any use of. There are two other
kinds, that are branchy and well covered. In my opinion, the conjugula
is the same that is now called the Roman myrtle. It is in Egypt that
the myrtle is most odoriferous.

Cato[2077] has taught us how to make a wine from the black myrtle, by
drying it thoroughly in the shade, and then putting it in must: he
says, also, that if the berries are not quite dry, it will produce an
oil. Since his time a method has been discovered of making a pale wine
from the white variety; two sextarii of pounded myrtle are steeped
in three semi-sextarii of wine, and the mixture is then subjected to
pressure.

The leaves[2078] also are dried by themselves till they are capable of
being reduced to a powder, which is used for the treatment of sores on
the human body: this powder is of a slightly corrosive nature, and is
employed also for the purpose of checking the perspiration. A thing
that is still more remarkable, this oil is possessed of a certain
vinous flavour, being, at the same time, of an unctuous nature, and
remarkably efficacious for improving[2079] wines. When this is done,
the wine strainer[2080] is dipped in the oil before it is used, the
result of which is that it retains the lees of the wine, and allows
nothing but the pure liquor to escape, while at the same time it
accompanies the wine and causes a marked improvement in its flavour.

Sprigs of myrtle, if carried by a person when travelling on foot,
are found to be very refreshing[2081] on a long journey. Rings, too,
made of myrtle which has never been touched by iron, are an excellent
specific for swellings in the groin.[2082]



CHAP. 38.—THE MYRTLE USED AT ROME IN OVATIONS.


The myrtle has played[2083] its part, also, in the successes of war.
Posthumius Tubertus, who gained a victory over the Sabines in his
consulship,[2084] was the first person who entered the City enjoying
the honour of an ovation,[2085] for having achieved this success with
ease and without bloodshed: upon which occasion he made his entry
crowned with the myrtle of Venus Victrix, and thereby rendered her
tree an object of regard[2086] to our enemies even. Ever since this
occasion, the wreath of those who have enjoyed an ovation has been
made of myrtle, with the exception of M. Crassus,[2087] who, on his
victory over the fugitive slaves and Spartacus, made his entry crowned
with laurels. Massurius informs us, also, that some generals, on
the occasion of a triumph even, have worn a wreath of myrtle in the
triumphal car. L. Piso states that Papirius Maso, who was the first
to enjoy a triumph for a victory over the Marsi—it was on the Alban
Mount[2088]—was in the habit of attending at the games of the Circus,
wearing a wreath of myrtle: he was the maternal grandfather of the
second Scipio Africanus. Marcus Valerius[2089] wore two wreaths, one of
laurel, the other of myrtle; it was in consequence of a vow which he
had made to that effect.



CHAP. 39. (30.)—THE LAUREL; THIRTEEN VARIETIES OF IT.


The laurel is especially consecrated to triumphs, is remarkably
ornamental to houses, and guards the portals of our emperors[2090]
and our pontiffs: there suspended alone, it graces the palace, and is
ever on guard before the threshold. Cato[2091] speaks of two varieties
of this tree, the Delphic[2092] and the Cyprian. Pompeius Lenæus has
added another, to which he has given the name of “mustax,” from the
circumstance of its being used for putting under the cake known by
the name of “mustaceum”.[2093] He says that this variety has a very
large leaf, flaccid, and of a whitish hue; that the Delphic laurel is
of one uniform colour, greener than the other, with berries of very
large size, and of a red tint approaching to green. He says, too, that
it is with this laurel that the victors at Delphi[2094] are crowned,
and warriors who enjoy the honours of a triumph at Rome. The Cyprian
laurel, he says, has a short leaf, is of a blackish colour, with an
imbricated[2095] edge, and crisped.

Since his time, however, the varieties have considerably augmented.
There is the tinus[2096] for instance, by some considered as a species
of wild laurel, while others, again, regard it as a tree of a separate
class; indeed, it does differ from the laurel as to the colour, the
berry being of an azure blue. The royal[2097] laurel, too, has since
been added, which has of late begun to be known as the “Augustan:”
both the tree, as well as the leaf, are of remarkable size, and the
berries have not the usual rough taste. Some say, however, that the
royal laurel and the Augustan are not the same tree, and make out the
former to be a peculiar kind, with a leaf both longer and broader than
that of the Augustan. The same authors, also, make a peculiar species
of the bacalia the commonest laurel of all, and the one that bears the
greatest number of berries. With them, too, the barren laurel[2098]
is the laurel of the triumphs, and they say that this is the one that
is used by warriors when enjoying a triumph—a thing that surprises me
very much; unless, indeed, the use of it was first introduced by the
late Emperor Augustus, and it is to be considered as the progeny of
that laurel, which, as we shall just now have occasion to mention, was
sent to him from heaven; it being the smallest of them all, with a
crisped[2099] short leaf, and very rarely to be met with.

In ornamental gardening we also find the taxa[2100] employed, with
a small leaf sprouting from the middle of the leaf, and forming a
fringe, as it were, hanging from it; the spadonia,[2101] too, without
this fringe, a tree that thrives remarkably well in the shade: indeed,
however dense the shade may be, it will soon cover the spot with its
shoots. There is the chamædaphne,[2102] also, a shrub that grows wild;
the Alexandrian[2103] laurel, by some known as the Idean, by others
as the “hypoglottion,”[2104] by others as the “carpophyllon,”[2105]
and by others, again, as the “hypelates.”[2106] From the root it
throws out branches three quarters of a foot in length; it is much
used in ornamental gardening, and for making wreaths, and it has a
more pointed leaf than that of the myrtle, and superior to it in
softness, whiteness, and size: the seed, which lies between the leaves,
is red. This last kind grows in great abundance on Mount Ida and in
the vicinity of Heraclea in Pontus: it is only found, however, in
mountainous districts.

The laurel, too, known as the daphnoides,[2107] is a variety
that has received many different names: by some it is called the
Pelasgian laurel, by others the euthalon, and by others the stephanon
Alexandri.[2108] This is also a branchy shrub, with a thicker and
softer leaf than that of the ordinary laurel: if tasted, it leaves
a burning sensation in the mouth and throat: the berries are red,
inclining to black. The ancient writers have remarked, that in their
time there was no species of laurel in the island of Corsica. Since
then, however, it has been planted there, and has thrived well.



CHAP. 40.—HISTORICAL ANECDOTES CONNECTED WITH THE LAUREL.


This tree is emblematical of peace:[2109] when a branch of it is
extended, it is to denote a truce between enemies in arms. For the
Romans more particularly it is the messenger of joyful tidings, and of
victory: it accompanies the despatches[2110] of the general, and it
decorates the lances and javelins of the soldiers and the fasces which
precede their chief. It is of this tree that branches are deposited on
the lap of Jupiter All-good and All-great,[2111] so often as some new
victory has imparted universal gladness. This is done, not because
it is always green, nor yet because it is an emblem of peace—for in
both of those respects the olive would take the precedence of it—but
because it is the most beauteous tree on Mount Parnassus, and was
pleasing for its gracefulness to Apollo even; a deity to whom the kings
of Rome sent offerings at an early period, as we learn from the case
of L. Brutus.[2112] Perhaps, too, honour is more particularly paid
to this tree because it was there that Brutus[2113] earned the glory
of asserting his country’s liberties, when, by the direction of the
oracle, he kissed that laurel-bearing soil. Another reason, too, may be
the fact, that of all the shrubs that are planted and received in our
houses, this is the only one that is never struck by lightning.[2114]
It is for these reasons, in my opinion, that the post of honour has
been awarded to the laurel more particularly in triumphs, and not, as
Massurius says, because it was used for the purposes of fumigation and
purification from the blood of the enemy.

In addition to the above particulars, it is not permitted to defile
the laurel and the olive by applying them to profane uses; so much
so, indeed, that, not even for the propitiation of the divinities,
should a fire be lighted with them at either altar or shrine.[2115]
Indeed, it is very evident that the laurel protests against such usage
by crackling[2116] as it does in the fire, thus, in a manner, giving
expression to its abhorrence of such treatment. The wood of this tree
when eaten is good as a specific for internal maladies and affections
of the sinews.[2117]

It is said that when it thundered, the Emperor Tiberius was in the
habit of putting on a wreath of laurel to allay his apprehensions
of disastrous effects from the lightning.[2118] There are also some
remarkable facts connected with the laurel in the history of the late
Emperor Augustus: once while Livia Drusilla, who afterwards on her
marriage with the Emperor assumed the name of Augusta, at the time
that she was affianced to him, was seated, there fell into her lap
a hen of remarkable whiteness, which an eagle let fall from aloft
without its receiving the slightest injury: on Livia viewing it without
any symptoms of alarm, it was discovered that miracle was added to
miracle, and that it held in its beak a branch of laurel covered
with berries. The aruspices gave orders that the hen and her progeny
should be carefully preserved, and the branch planted and tended
with religious care. This was accordingly done at the country-house
belonging to the Cæsars, on the Flaminian Way, near the banks of the
Tiber, eight miles from the City; from which circumstance that road has
since received the title “Ad gallinas.”[2119] From the branch there
has now arisen, wondrous to relate, quite a grove: and Augustus Cæsar
afterwards, when celebrating a triumph, held a branch of it in his
hand and wore a wreath of this laurel on his head; since which time
all the succeeding emperors have followed his example. Hence, too, has
originated the custom of planting the branches which they have held on
these occasions, and we thus see groves of laurel still existing which
owe their respective names to this circumstance. It was on the above
occasion, too, that not improbably a change was effected in the usual
laurel of the triumph.[2120] The laurel is the only one among the trees
that in the Latin language has given an appellation to a man,[2121]
and it is the only one the leaf of which has a distinct name of its
own,—it being known by the name of “laurea.” The name of this tree is
still retained by one place in the city of Rome, for we find a spot
on the Aventine Mount still known by the name of “Loretum,”[2122]
where formerly a laurel-grove existed. The laurel is employed in
purifications, and we may here mention, incidentally, that it will grow
from slips[2123]—though Democritus and Theophrastus have expressed
their doubts as to that fact.

We shall now proceed to speak of the forest trees.


SUMMARY.—Remarkable facts, narratives, and observations, one
hundred and twenty.


ROMAN AUTHORS QUOTED.—Fenestella,[2124] Fabianus,[2125] Virgil,[2126]
Corn. Valerianus,[2127] Celsus,[2128] Cato the Censor,[2129]
Saserna[2130] father and son, Scrofa,[2131] M. Varro,[2132] D.
Silanus,[2133] Fabius Pictor,[2134] Trogus,[2135] Hyginus,[2136]
Flaccus Verrius,[2137] Græcinus,[2138] Atticus Julius,[2139]
Columella,[2140] Massurius Sabinus,[2141] Tergilla,[2142] Cotta
Messalinus,[2143] L. Piso,[2144] Pompeius Lenæus,[2145] Maccius
Plautus,[2146] Flavius,[2147] Dossenus,[2148] Scævola,[2149]
Ælius,[2150] Ateius Capito,[2151] Sextius Niger,[2152] Vibius
Rufus.[2153]


FOREIGN AUTHORS QUOTED.—Aristotle,[2154] Democritus,[2155] King
Hiero,[2156] King Attalus Philometor,[2157] Archytas,[2158]
Xenophon,[2159] Amphilochus[2160] of Athens, Anaxipolis[2161] of
Thasos, Apollodorus[2162] of Lemnos, Aristophanes[2163] of Miletus,
Antigonus[2164] of Cymæ, Agathocles[2165] of Chios, Apollonius[2166]
of Pergamus, Aristander[2167] of Athens, Bacchius[2168] of Miletus,
Bion[2169] of Soli, Chæreas[2170] of Athens, Chæristus[2171] of Athens,
Diodorus[2172] of Priene, Dion[2173] of Colophon, Epigenes[2174]
of Rhodes, Euagon[2175] of Thasos, Euphronius[2176] of Athens,
Androtion[2177] who wrote on Agriculture, Æschrion[2178] who wrote on
Agriculture, Lysimachus[2179] who wrote on Agriculture, Dionysius[2180]
who translated Mago,[2181] Diophanes[2182] who made an Epitome of the
work of Dionysius, Asclepiades[2183] the Physician, Erasistratus[2184]
the Physician, Commiades[2185] who wrote on the preparation of Wines,
Aristomachus[2186] who wrote on the same subject, Hicesius[2187]
who wrote on the same subject, Themiso[2188] the Physician,
Onesicritus,[2189] King Juba.[2190]



BOOK XVI.

THE NATURAL HISTORY OF THE FOREST TREES.



CHAP. 1.—COUNTRIES THAT HAVE NO TREES.


We have given the precedence in this account to the fruit-trees
and others which, by their delicious juices, first taught man to
give a relish to his food and the various aliments requisite for
his sustenance, whether it is that they spontaneously produce these
delightful flavours, or whether we have imparted them by the methods
of adoption and intermarriage,[2191] thus bestowing a favour, as it
were, upon the very beasts and birds. The next thing, then, would be
to speak of the glandiferous trees, the trees which proffered the
earliest nutriment to the appetite of man, and proved themselves his
foster-mothers in his forlorn and savage state—did I not feel myself
constrained on this occasion to make some mention of the surprise which
I have felt on finding by actual experience what is the life of mortals
when they inhabit a country that is without either tree or shrub.

(1.) I have already stated[2192] that in the East many nations that
dwell on the shores of the ocean are placed in this necessitous
state; and I myself have personally witnessed the condition of the
Chauci,[2193] both the Greater and the Lesser, situate in the regions
of the far North. In those climates a vast tract of land, invaded
twice each day and night by the overflowing waves of the ocean, opens
a question that is eternally proposed to us by Nature, whether these
regions are to be looked upon as belonging to the land, or whether as
forming a portion of the sea?

Here a wretched race is found, inhabiting either the more elevated
spots of land, or else eminences artificially constructed, and of a
height to which they know by experience that the highest tides will
never reach. Here they pitch their cabins; and when the waves cover
the surrounding country far and wide, like so many mariners on board
ship are they: when, again, the tide recedes, their condition is that
of so many shipwrecked men, and around their cottages they pursue
the fishes as they make their escape with the receding tide. It is
not their lot, like the adjoining nations, to keep any flocks for
sustenance by their milk, nor even to maintain a warfare with wild
beasts, every shrub, even, being banished afar. With the sedge[2194]
and the rushes of the marsh they make cords, and with these they
weave the nets employed in the capture of the fish; they fashion the
mud,[2195] too, with their hands, and drying it by the help of the
winds more than of the sun, cook their food by its aid, and so warm
their entrails, frozen as they are by the northern blasts; their
only[2196] drink, too, is rain-water, which they collect in holes dug
at the entrance of their abode: and yet these nations, if this very day
they were vanquished by the Roman people, would exclaim against being
reduced[2197] to slavery! Be it so, then—Fortune is most kind to many,
just when she means to punish them.[2198]



CHAP. 2.—WONDERS CONNECTED WITH TREES IN THE NORTHERN REGIONS.


Another marvel, too, connected with the forests! They cover all
the rest of Germany, and by their shade augment the cold. But the
highest of them all are those not far distant from the Chauci already
mentioned, and more particularly in the vicinity of the two lakes[2199]
there. The very shores are lined with oaks,[2200] which manifest an
extraordinary eagerness to attain their growth: undermined by the
waves or uprooted by the blasts, with their entwining roots they carry
vast forests along with them, and, thus balanced, stand upright as
they float along, while they spread afar their huge branches like
the rigging of so many ships. Many is the time that these trees have
struck our fleets with alarm, when the waves have driven them, almost
purposely it would seem, against their prows as they stood at anchor in
the night; and the men, destitute of all remedy and resource, have had
to engage in a naval combat with a forest of trees!

(2.) In the same northern regions, too, is the Hercynian[2201] Forest,
whose gigantic oaks,[2202] uninjured by the lapse of ages, and
contemporary with the creation of the world, by their near approach
to immortality surpass all other marvels known. Not to speak of other
matters that would surpass all belief, it is a well-known fact that
their roots,[2203] as they meet together, upheave vast hills; or, if
the earth happens not to accumulate with them, rise aloft to the very
branches even, and, as they contend for the mastery, form arcades, like
so many portals thrown open, and large enough to admit of the passage
of a squadron of horse.

(3.) All these trees, in general, belong to the glandiferous
class,[2204] and have ever been held in the highest honour by the Roman
people.



CHAP. 3. (4.)—THE ACORN OAK. THE CIVIC CROWN.


It is with the leaves of this class of trees that our civic crown
is made, the most glorious reward that can be bestowed on military
valour, and, for this long time past, the emblem of the imperial[2205]
clemency; since the time, in fact, when, after the impiety of civil
war, it was first deemed a meritorious action not to shed the blood
of a fellow-citizen. Far inferior to this in rank are the mural[2206]
crown, the vallar,[2207] and the golden[2208] one, superior though
they may be in the value of the material: inferior, too, in merit,
is the rostrate[2209] crown, though ennobled, in recent times more
particularly, by two great names, those of M. Varro,[2210] who was
presented with it by Pompeius Magnus, for his great achievements in the
Piratic War, and of M. Agrippa, on whom it was bestowed by Cæsar, at
the end of the Sicilian War, which was also a war against pirates.

In former days the beaks[2211] of vessels, fastened in front of the
tribunal, graced the Forum, and seemed, as it were, a crown placed
upon the head of the Roman people itself. In later times, however,
they began to be polluted and trodden under foot amid the seditious
movements of the tribunes, the public interest was sacrificed to
private advantage, each citizen sought solely his own advancement, and
everything looked upon as holy was abandoned to profanation—still, from
amid all this, the Rostra[2212] emerged once again, and passed from
beneath the feet of the citizens to their heads. Augustus presented
to Agrippa the rostrate crown, while he himself received the civic
crown[2213] at the hands of all mankind.



CHAP. 4.—THE ORIGIN OF THE PRESENTATION OF CROWNS.


In ancient times crowns[2214] were presented to none but a divinity,
hence it is that Homer[2215] awards them only to the gods of heaven
and to the entire army; but never to an individual, however great his
achievements in battle may have been. It is said, too, that Father
Liber was the first of all who placed a crown on his head, and that it
was made of ivy.[2216] In succeeding times, those engaged in sacrifices
in honour of the gods began to wear them, the victims being decked
with wreaths as well. More recently, again, they were employed in the
sacred games;[2217] and at the present day they are bestowed on such
occasions, not upon the victor, indeed, but upon his country, which
receives, it is proclaimed, this crown at his hands.[2218] Hence arose
the usage of conferring wreaths upon warriors when about to enjoy a
triumph, for them to consecrate in the temples: after which it became
the custom to present them at our games. It would be a lengthy matter,
and, indeed, foreign to the purpose of this work, to enter upon a
discussion who was the first Roman that received each kind of crown;
in fact, they were acquainted with none but such as were given as the
reward of military prowess. It is a well-known fact, however, that this
people has more varieties of crowns than those of all other nations put
together.



CHAP. 5.—PERSONS PRESENTED WITH A CROWN OF LEAVES.


Romulus presented Hostus Hostilius[2219] with a crown of leaves, for
being the first to enter Fidenæ. This Hostus was the grandfather of
King Tullus Hostilius. P. Decius the elder, the military tribune, was
presented with a crown of leaves by the army which had been saved by
his valour, under the command of Cornelius Cossus,[2220] the consul,
in the war with the Samnites. This crown was made at first of the
leaves of the holm oak, but afterwards those of the æsculus[2221] were
preferred, as being a tree sacred to Jupiter: this, however, was soon
employed indifferently with the quercus, according as each might
happen to present itself, the honourable distinction given to the acorn
being the only thing observed. Rigorous laws were, however, enacted,
to maintain the lofty glories of this wreath, by which it was placed
upon an equality even with the supreme honours of the wreath that is
given by Greece in presence of Jove[2222] himself, and to receive
which the exulting city of the victor is wont to break[2223] a passage
through its very walls. These laws are to the effect that the life of
a fellow-citizen must be preserved, and an enemy slain; that the spot
where this takes place must have been held by the enemy that same day;
that the person saved shall admit the fact, other witnesses being of no
use at all; and that the person saved shall have been a Roman citizen.

To preserve an ally merely, even though it should be the life of a
king that is so saved, confers no right to this high reward, nor is
the honour at all increased, even if it is the Roman general that has
been thus preserved, it being the intention of the framers of the law
that it should be the status of the citizen that is everything. When a
man has received this wreath, it is his privilege to wear it for the
rest of his life. When he makes his appearance at the celebration of
the games,[2224] it is customary for the Senate even to rise from their
seats, and he has the right of taking his seat next to the senators.
Exemption, too, from all civic duties is conferred upon him as well
as his father and his father’s father. Siccius Dentatus, as we have
already mentioned[2225] on an appropriate occasion, received fourteen
civic crowns, and Manlius Capitolinus[2226] six,[2227] one, among the
rest, for having saved the life of his general, Servilius. Scipio
Africanus declined to accept the civic crown for having saved the life
of his father at the battle of Trebia. Times these, right worthy of
our everlasting admiration, which accorded honour alone as the reward
of exploits so mighty, and which, while other crowns were recommended
by being made of gold, disdained to set a price upon the safety of a
citizen, and loudly proclaimed thereby that it is unrighteous to save
the life of a man for motives of lucre.



CHAP. 6. (5.)—THIRTEEN VARIETIES OF THE ACORN.


It is a well-known fact that acorns[2228] at this very day constitute
the wealth of many nations, and that, too, even amid these times of
peace. Sometimes, also, when there is a scarcity of corn they are dried
and ground, the meal being employed for making a kind of bread. Even
to this very day, in the provinces of Spain,[2229] we find the acorn
introduced at table in the second course: it is thought to be sweeter
when roasted in the ashes. By the law of the Twelve Tables, there is a
provision made that it shall be lawful for a man to gather his acorns
when they have fallen upon the land of another.

The varieties of the glandiferous trees are numerous, and they are
found to differ in fruit, locality, sex, and taste; the acorn of the
beech having one shape, that of the quercus another, and that, again,
of the holm-oak another. The various species also, among themselves,
offer a considerable number of varieties. In addition to this, some
of these trees are of a wild nature, while the fruits of others are
of a less acrid flavour, owing to a more careful cultivation. Then,
too, there is a difference between the varieties which grow on the
mountains and those of the plains; the males differ from the females,
and there are considerable modifications in the flavour of their fruit.
That of the beech[2230] is the sweetest of all; so much so, that,
according to Cornelius Alexander, the people of the city of Chios,
when besieged, supported themselves wholly on mast. The different
varieties cannot possibly be distinguished by their respective names,
which vary according to their several localities. The quercus[2231]
and the robur[2232] we see growing everywhere, but not so with the
æsculus;[2233] while a fourth kind, known as the cerrus,[2234] is
not so much as known throughout the greater part of Italy. We shall
distinguish them, therefore, by their characteristic features, and when
circumstances render it necessary, shall give their Greek names as well.



CHAP. 7. (6.)—THE BEECH.


The acorn of the beech[2235] is similar in appearance to a kernel,
enclosed in a shell of triangular shape. The leaf is thin and one of
the very lightest, is similar in appearance to that of the poplar, and
turns yellow with remarkable rapidity. From the middle of the leaf,
and upon the upper side of it, there mostly shoots a little green
berry, with a pointed top.[2236] The beech is particularly agreeable
to rats and mice; and hence it is, that where this tree abounds, those
creatures are sure to be plentiful also. The leaves are also very
fattening for dormice, and good for thrushes too. Almost all trees bear
an average crop but once in two years; this is the case with the beech
more particularly.



CHAP. 8.—THE OTHER ACORNS—WOOD FOR FUEL.


The other trees that bear acorns, properly so called, are the robur,
the æsculus, the cerrus, the holm-oak,[2237] and the cork-tree:[2238]
it is contained in a rivelled calyx, which embraces more or less of it,
according to the several varieties. The leaves of these trees, those
of the holm-oak excepted, are weighty, pulpy, long, and jagged at the
edges, and they do not turn yellow before they fall, as with the beech:
they are also longer or shorter, as the case may be.

There are two kinds[2239] of holm-oak: one of them, which belongs to
Italy, has a leaf not very unlike that of the olive; some of the Greeks
give it the name of “milax,”[2240] and in our provinces it is known as
the aquifolia. The acorn of these two kinds is shorter and more slender
than in the others: Homer[2241] calls it “acylos,” and by that name
distinguishes it from the ordinary acorn: it is generally said that the
male tree of the holm-oak bears no fruit.

The best acorn, and the very largest, is that which grows upon the
quercus, and the next to it is the fruit of the æsculus: that of the
robur, again, is diminutive, and the fruit of the cerrus has a meagre,
wretched look, being enclosed in a calyx covered with prickles, like
the outer coat of the chesnut. With reference to the acorn of the
quercus, that which grows upon the female tree[2242] is sweeter and
more tender, while that of the male is more solid and compact. The
acorn, however, of the latifolia[2243] is the most esteemed, an oak
so called from the remarkable broadness of its leaves. The acorns
differ also among themselves in size, and the comparative fineness of
the outer shell; as also in the circumstance that some have beneath
the shell a rough coat of a rusty colour, while in others a white
flesh immediately presents itself. Those, too, are more particularly
esteemed, the two extremities of the nut of which, taken lengthwise,
are as hard as a stone: and it is considered preferable that this
peculiarity should present itself rather in the shell than in the
flesh: in either case, however, it only exists in the fruit of the
male tree. In some kinds, again, the acorn is oval, in others round;
while in others it is of a more pointed form. The colour, too, varies
considerably, according as it is blacker or whiter; this last being
held in the highest esteem. The extremities of the acorn are bitter,
but the flesh in the middle of it is sweet;[2244] another difference,
too, consists in the comparative length or shortness of the stalk.

As for the trees themselves, the one that bears the acorn of largest
size is known as the “hemeris;”[2245] a small tree with a thick bushy
foliage all around it, and often hollowed at the place where the
branch is joined to the trunk. The quercus has a stronger wood, and
less susceptible of decay: this also is a very branchy tree, but is
much taller than the last, while the trunk is considerably thicker.
The ægilops,[2246] however, is the highest of them all, and is much
attached to wild, uncultivated spots. Next to this in height is the
latifolia, but its wood is far from being so useful either for building
purposes or for charcoal. When rough-hewn it is very apt to spoil,
hence it is that it is generally used in an unhewn state. As charcoal,
it is considered only economical in smelting copper; for the moment
the workman ceases to blow, the fire dies out, and hence it requires
to be repeatedly rekindled; while at the same time it gives out great
quantities of sparks. The best charcoal is that obtained from the wood
of young trees.[2247] Square billets of wood, newly cut, are piled
compactly together with clay, and built up in the form of a chimney;
the pile is then set fire to, and incisions are made in the coat of
clay as it gradually hardens, by the aid of long poles, for the purpose
of letting the moisture of the wood evaporate.

The worst kind of all, however, both for timber and for making
charcoal, is the oak known as the “haliphlœos,”[2248] the bark of which
is remarkably thick, and the trunk of considerable size, but mostly
hollow and spongy: it is the only one of this species that rots while
the tree is still alive. In addition to this, it is very frequently
struck by lightning, although it is not so remarkably lofty in height:
for this reason it is not considered lawful to employ its wood for
the purposes of sacrifice. It is but rarely that it bears any acorns,
and when it does they are bitter: no animal will touch them, with the
sole exception of swine, and not even they, if they can get any other
food. An additional reason also for its exclusion from all religious
ceremonials, is the circumstance that the fire is very apt to go out in
the middle of the sacrifice when the wood of it is used for fuel.

The acorn of the beech, when given to swine,[2249] makes them brisk and
lively, and renders the flesh tender for cooking, and light and easy
of digestion; while, on the other hand, that of the holm oak has the
effect of making them thin, pallid, meagre, and lumpish. The acorn of
the quercus is of a broad shape, and is the heaviest as well as the
sweetest of them all. According to Nigidius, the acorn of the cerrus
occupies the next rank to this, and, indeed, there is no acorn that
renders the flesh of swine more firm, though at the same time it is
apt to impart a certain degree of hardness. The same author assures us
also, that the acorn of the holm oak is a trying diet for swine, unless
it is given in very small quantities at a time. He says, too, that
this acorn is the last to fall, and that the flesh of swine, if fed
upon the acorns of the æsculus, the robur, or the cork-tree, will be of
a spongy nature.



CHAP. 9.—THE GALL-NUT.


All[2250] the glandiferous trees produce the gall-nut as well: they
only bear acorns, however, in alternate years. The gall-nut of the
hemeris[2251] is considered the choicest of all, and the best adapted
for the preparation of leather: that of the latifolia closely resembles
it, but is somewhat lighter, and not by any means so highly approved.
This last tree produces the black gall-nut also—for there are two
varieties of it—this last being deemed preferable for dyeing wool.

(7.) The gall-nut begins to grow just as the sun is leaving the sign
of Gemini,[2252] and always bursts forth in its entirety in a single
night.[2253] The white variety grows, too, in a single day, but if
the heat happens to overtake it, it shrinks immediately, and never
arrives at its proper size, which is about that of a bean. The black
gall-nut will remain green for a longer period, and sometimes attains
the size of an apple[2254] even. The best kind is that which comes from
Commagene,[2255] and the most inferior are those produced by the robur:
it may easily be tested by means of certain holes in it which admit of
the passage of the light.[2256]



CHAP. 10.—OTHER PRODUCTIONS ON THESE TREES BESIDES THE ACORN.


The robur, in addition to its fruit, has a great number of other
productions: it bears[2257] the two varieties of the gall-nut, and a
production which closely resembles the mulberry,[2258] except that it
differs from it in being dry and hard: for the most part it bears a
resemblance to a bull’s head, and in the inside there is a fruit very
similar to the stone of the olive. Little balls[2259] also are found
growing on the robur, not unlike nuts in appearance, and containing
within them a kind of soft wool, which is used for burning in lamps;
for it will keep burning without oil, which is the case also with the
black gall-nut. It bears another kind, too, of little ball, covered
with hair,[2260] but used for no purpose: in spring, however, this
contains a juice like honey. In the hollows formed by the union of
the trunk and branches of this tree there are found also small round
balls,[2261] which adhere bodily to the bark, and not by means of a
stalk: at the point of junction they are white, but the rest of the
body is spotted all over with black: inside they are of a scarlet
colour, but on opening them they are found to be empty, and are of a
bitter taste.

Sometimes, too, the robur bears a kind of pumice,[2262] as well as
little balls, which are formed of the leaves rolled up; upon the veins
of the leaves, too, there are watery pustules, of a whitish hue, and
transparent while they are soft; in these a kind of gnat[2263] is
produced, and they come to maturity just in the same way that the
ordinary gall-nut does.



CHAP. 11. (8.)—CACHRYS.


The robur bears cachrys,[2264] too; such being the name given to
a small round ball that is employed in medicine for its caustic
properties. It grows on the fir likewise, the larch, the pitch-tree,
the linden, the nut-tree, and the plane, and remains on the tree
throughout the winter, after the leaves have fallen. It contains a
kernel very similar to that of the pine-nut, and increases in size
during the winter. In spring the ball opens throughout, and it finally
drops when the leaves are beginning to grow.

Such is the multiplicity of the products borne by the robur in addition
to its acorns; and not only these, but mushrooms[2265] as well, of
better or worse quality, the most recent stimulants that have been
discovered for the appetite; these last are found growing about its
roots. Those of the quercus are the most highly esteemed, while those
of the robur, the cypress, and the pine are injurious.[2266] The robur
produces mistletoe[2267] also, and, if we may believe Hesiod,[2268]
honey as well: indeed, it is a well-known fact, that a honey-like[2269]
dew falling from heaven, as we have already mentioned,[2270] deposits
itself upon the leaves of this tree in preference to those of any
other. It is also well known that the wood of this tree, when burnt,
produces a nitrous[2271] ash.



CHAP. 12.—THE KERMES BERRY.


The holm oak, however, by its scarlet berry[2272] alone challenges
competition with all these manifold productions. This grain appears at
first sight to be a roughness on the surface of the tree, as it were,
a small kind of the aquifolia[2273] variety of holm oak, known as the
cusculium.[2274] To the poor in Spain it furnishes[2275] the means of
paying one half of their tribute. We have already, when speaking[2276]
of the purple of the murex, mentioned the best methods adopted for
using it. It is produced also in Galatia, Africa, Pisidia, and Cilicia:
the most inferior kind is that of Sardinia.



CHAP. 13.—AGARIC.


It is in the Gallic provinces more particularly that the glandiferous
trees produce agaric;[2277] such being the name given to a white fungus
which has a strong odour, and is very useful as an antidote. It grows
upon the top of the tree, and gives out a brilliant light[2278] at
night: this, indeed, is the sign by which its presence is known, and by
the aid of this light it may be gathered during the night. The ægilops
is the only one among the glandiferous trees that bears a kind of
dry cloth,[2279] covered with a white mossy shag, and this, not only
attached to the bark, but hanging down from the branches as well, a
cubit even in length: this substance has a strong odour, as we have
already[2280] stated, when speaking of the perfumes.

The cork is but a very small tree, and its acorn is of the very
worst[2281] quality, and rarely to be found as well: the bark[2282] is
its only useful product, being remarkably thick, and if removed it will
grow again. When straitened out, it has been known to form planks as
much as ten feet square. This substance is employed more particularly
attached as a buoy to the ropes[2283] of ships’ anchors and the
drag-nets of fishermen. It is employed also for the bungs of casks and
as a material for the winter shoes[2284] of females; for which reason
the Greeks not inappropriately call them[2285] “the bark of a tree.”

There are some writers who speak of it as the female of the holm oak;
and in the countries where the holm does not grow, they substitute for
it the wood of the cork-tree, more particularly in cartwrights’ work,
in the vicinity of Elis and Lacedæmon for instance. The cork-tree does
not grow throughout the whole of Italy, and in no[2286] part whatever
of Gaul.



CHAP. 14. (9.)—TREES OF WHICH THE BARK IS USED.


The bark also of the beech, the lime, the fir, and the pitch-tree is
extensively used by the peasantry. Panniers and baskets are made of
it, as also the large flat hampers which are employed for the carriage
of corn and grapes: roofs of cottages,[2287] too, are made of this
material. When a spy has been sent out he often leaves information for
his general, written upon fresh bark, by cutting letters in the parts
of it that are the most juicy. The bark of the beech is also employed
for religious purposes in certain sacred rites.[2288] This tree,
however, when deprived of its bark, will not survive.



CHAP. 15. (10.)—SHINGLES.


The best shingles are those made of the wood of the robur; the next
best being those furnished by the other glandiferous trees and the
beech. Those most easily made are cut from the wood of the resinous
trees, but they do not last,[2289] with the exception of those made
of pine. Cornelius Nepos informs us, that Rome was roofed solely with
shingles down to the time of the war with Pyrrhus, a period of four
hundred and seventy years. It is well known that it was remarkable for
the fine forests in its vicinity. Even at the present day, the name
of Jupiter Fagutalus points out in what locality there stood a grove
of beeches;[2290] the Querquetulan Gate shows where the quercus once
stood, and the Viminal Hill is the spot where the “vimen”[2291] was
sought in ancient times. In many other parts, too, there were groves to
be found, and sometimes as many as two. Q. Hortensius, the Dictator, on
the secession of the plebeians to the Janiculum, passed a law in the
Æsculetum,[2292] that what the plebeians had enacted should be binding
upon every Roman citizen.[2293]



CHAP. 16.—THE PINE.


In those days they regarded as exotics, because they did not exist in
the vicinity[2294] of the City, the pine and the fir, as well as all
the other varieties that produce pitch; of which we shall now proceed
to speak, in order that the method of seasoning wine, from the very
first, may be fully known. Whereas there are several among the trees
already mentioned in Asia or the East, that produce pitch, in Europe
there are but six varieties of kindred trees that supply it. In this
number there are the pine[2295] and the pinaster,[2296] which have
long thin leaves like hair, and pointed at the end. The pine yields
the least resin of them all: in the pine nut, indeed, of which we have
previously spoken,[2297] it is sometimes to be found, but hardly in
sufficient quantities to warrant us in reckoning the pine among the
resinous trees.



CHAP. 17.—THE PINASTER.


The pinaster is nothing else but a wild pine: it rises to a surprising
height, and throws out branches from the middle, just as the pine does
from the top. This tree yields a more copious supply of resin than
the pine: the mode in which this is done we shall set forth[2298] on
a future occasion. It grows also in flat countries. Many people think
that this is the same tree that grows along the shores of Italy, and
is known as the “tibulus;”[2299] but this last is slender, and more
compact than the pine; it is likewise free from knots, and hence is
used in the construction of light gallies;[2300] they are both almost
entirely destitute of resin.



CHAP. 18.—THE PITCH-TREE: THE FIR.


The pitch-tree[2301] loves the mountain heights and cold localities.
This is a funereal tree, and, as an emblem of death, is placed before
the door of the deceased, and is left to grow in the vicinity of the
funeral pile. Still, however, it is now some time since it was admitted
into our gardens, in consequence of the facility with which it is
clipped into various shapes. It gives out considerable quantities
of resin,[2302] which is intermingled with white granulations like
pearls, and so similar in appearance to frankincense, that when mixed,
it is impossible to distinguish them; hence the adulterations we find
practised in the Seplasia.[2303] All this class of trees have a short
bristly leaf, thick and hard, like that of the cypress. The branches of
the pitch-tree are of moderate size, and extend from almost the very
root of the tree, adhering to the sides like so many arms: the same is
the case with the fir,[2304] the wood of which is held in great esteem
for ship-building.

This tree grows upon the summits of lofty mountains, as though, in
fact, it had an antipathy to the sea, and it does not at all differ
from the pitch-tree in appearance: the wood is also very highly
esteemed for the construction of rafters, and many other appliances of
life. A flow of resin, which in the pitch-tree constitutes its great
merit, is looked upon as a defect in the fir,[2305] though it will
generally exude in some small quantity on exposure of the wood, to the
action of the sun. On the other hand, the wood which in the fir-tree is
remarkably fine, in the pitch-tree is only used for making shingles,
vats, and a few other articles of joiners’ work.



CHAP. 19.—THE LARCH: THE TORCH-TREE.


The fifth kind of resinous tree has the same localities, and is very
similar in appearance; it is known as the larch.[2306] The wood of
this tree is far more valuable, being unimpaired by time, and proof
against all decay; it is of a reddish colour, and of an acrid smell.
Resin[2307] flows from this wood in still greater quantities; it is of
the colour of honey, more viscous than the other varieties, and never
turns hard.

A sixth variety is the torch-tree,[2308] properly so called, which
gives out more resin than any of the others, with the exception of the
pitch-tree; but its resin is more liquid than that of this last. The
wood, too, of this tree is more particularly employed for kindling
fires and giving torch-light in religious ceremonials. Of this tree it
is the male only that bears what is known to the Greeks by the name of
“syce,”[2309] remarkable for its extremely powerful odour. When the
larch[2310] is changed into the torch-tree, it is a proof that it is in
a diseased state.

The wood of all these trees, when set fire to, gives out immoderate
volumes of sooty smoke,[2311] and sputters every now and then with
a sudden crackling noise, while it sends out red-hot charcoal to a
considerable distance—with the sole exception of that of the larch,
which will neither burn[2312] nor char, nor, in fact, suffer any more
from the action of fire than a stone. All these trees are evergreens,
and are not easily[2313] distinguished by the foliage, even by those
who are best acquainted with them, so nearly related are they to one
another. The pitch-tree, however, is not so high as the larch; which,
again, is stouter, and has a smoother bark, with a more velvety leaf,
more unctuous to the touch, thicker, and more soft and flexible.[2314]
The pitch-tree, again, has a leaf more sparsely scattered and drier;
it is thinner also, and of a colder nature, rougher all over in
appearance, and covered with a resinous deposit: the wood of this tree
is most like that of the fir. The larch, when the roots are once
burnt, will not throw out fresh shoots, which the pitch-tree will do,
as was found to be the case in the island of Lesbos, after the Pyrrhæan
grove had been burnt there.

In the same species too, the variety of sex[2315] is found to
constitute a considerable difference: the male is the shorter tree, and
has a harder wood; while the female is taller, and bears a leaf more
unctuous to the feel, smooth and free from all rigidity. The wood of
the male tree is hard and awry, and consequently not so well suited
for carpenters’ work; while that of the female is softer, as may be
very easily perceived on the application of the axe, a test, in fact,
which, in every variety, immediately shows us which trees are males;
the axe in such case meeting with a greater resistance, falling with
a louder noise, and being withdrawn from the wood with considerably
greater difficulty: the wood of the male tree is more parched too, and
the root is of a blacker hue. In the vicinity of Mount Ida, in Troas,
the circumstance whether the tree grows in the mountain districts or
on the sea-shore, makes another considerable difference. In Macedonia
and Arcadia, and in the neighbourhood of Elis, the names of the several
varieties have been totally altered, and it has not been agreed by
authors which name ought to be given to each: we have, therefore,
contented ourselves with employing the Roman denominations solely.

The fir is the largest of them all, the female being the taller of
the two; the wood, too, is softer and more easily worked. This tree
is of a rounder form than the others, and its leaves are closely
packed and feathered, so as not to admit of the passage of rain; the
appearance, too, of the tree is altogether more cheerful. From the
branches of these different varieties, with the sole exception of the
larch,[2316] there hang numbers of scaly nuts of compact shape, like
so many catkins. The nuts found upon the male fir have a kernel in the
fore-part, which is not the case with those on the female tree. In
the pitch-tree, again, these kernels, which are very small and black,
occupy the whole of the catkin, which is smaller and more slender than
in the other varieties; hence it is that the Greeks call this tree by
the name of phthirophoron.[2317] In this tree, too, the nuts on the
male are more compressed, and less moist with resin.



CHAP. 20.—THE YEW.


Not to omit any one of them, the yew[2318] is similar to these other
trees in general appearance. It is of a colour, however, but slightly
approaching to green, and of a slender form; of sombre and ominous
aspect, and quite destitute of juice: it is the only one, too, among
them all, that bears a berry. In the male tree the fruit is injurious;
indeed, in Spain more particularly, the berries contain a deadly
poison.[2319] It is an ascertained fact that travellers’ vessels,[2320]
made in Gaul of this wood, for the purpose of holding wine, have
caused the death of those who used them. Sextius says, that in Greece
this tree is known by the name of “smilax,” and that in Arcadia it is
possessed of so active a poison, that those who sleep beneath it, or
even take food[2321] there, are sure to meet their death from it. There
are authors, also, who assert that the poisons which we call at the
present day “toxica,” and in which arrows are dipped, were formerly
called taxica,[2322] from this tree. It has been discovered, also, that
these poisonous qualities are quite neutralized by driving a copper
nail into the wood of the tree.



CHAP. 21. (11.)—METHODS OF MAKING TAR—HOW CEDRIUM IS MADE.


In Europe, tar is extracted from the torch-tree[2323] by the agency
of fire; it is employed for coating ships and for many other useful
purposes.[2324] The wood of the tree is chopped[2325] into small
billets, and then put into a furnace, which is heated by fires lighted
on every side. The first steam that exudes flows in the form of water
into a reservoir made for its reception: in Syria this substance is
known as “cedrium;”[2326] and it possesses such remarkable strength,
that in Egypt the bodies of the dead, after being steeped in it, are
preserved from all corruption.[2327]



CHAP. 22.—METHODS BY WHICH THICK PITCH IS PREPARED.


The liquid that follows is of a thicker consistency, and constitutes
pitch, properly so called. This liquid, thrown again into a brazen
cauldron, and mixed with vinegar, becomes still[2328] thicker, and when
left to coagulate, receives the name of “Bruttian”[2329] pitch. It is
used, however, only for pitching the insides of dolia[2330] and other
vessels, it differing from the other kinds in being more viscous, of a
redder colour, and more unctuous than is usually the case. All these
varieties of pitch are prepared from the pitch-tree, by putting red-hot
stones, with the resinous wood, in troughs made of strong oak; or if
these troughs are not attainable, by piling up billets of the wood in
the method employed for the manufacture of charcoal.[2331] It is this
pitch that is used for seasoning wine, being first pounded and reduced
to a fine powder: it is of a blacker colour, too, than the other
sort. The same resin, if boiled gently with water, and then strained
off, becomes viscous, and assumes a red colour; it is then known as
“distilled[2332] pitch:” for making this, the refuse portions of the
resin and the bark of the tree are generally selected.

Another method is adopted for the manufacture of that used as
crapula.[2333] Raw flower of resin is taken, direct from the tree, with
a plentiful sprinkling of small, thin chips of the wood. These are then
pounded[2334] down and passed through a sieve, after which they are
steeped in water, which is heated till it comes to a boil. The unctuous
portion that is extracted from this is the best resin: it is but rarely
to be met with, and then only in a few places in Italy, in the vicinity
of the Alps: it is in considerable request for medicinal purposes. For
this, they generally boil a congius of white resin to two congii of
rain-water:[2335] some persons, however, think it better[2336] to boil
it without water for one whole day by a slow fire, taking care to use a
vessel of white copper.[2337] Some, again, are in the habit of boiling
the resin of the terebinth[2338] in a flat pan[2339] placed upon hot
ashes, and prefer it to any other kind. The resin of the mastich[2340]
is held in the next degree of estimation.[2341]



CHAP. 23. (12.)—HOW THE RESIN CALLED ZOPISSA IS PREPARED.


We must not omit, too, that the Greeks call by the name of
zopissa[2342] the pitch mixed with wax which has been scraped from
off the bottoms of sea-going ships;[2343] for there is nothing, in
fact, that has been left untried by mankind. This composition is found
much more efficient for all those purposes in which pitch and resin
are employed, in consequence of the superior hardness which has been
imparted to it by the sea-salt.

The pitch-tree is opened[2344] on the side that faces the sun, not by
means of an incision, but of a wound made by the removal of the bark:
this opening being generally two feet in width and one cubit from the
ground, at the very least. The body of the tree, too, is not spared in
this instance, as in others, for even the very chips from off it are
considered as having their use; those, however, from the lower part
of the tree are looked upon as the best, the wood of the higher parts
giving the resin a bitter[2345] taste. In a short time all the resinous
juices of the entire tree come to a point of confluence in the wound so
inflicted: the same process is adopted also with the torch-tree. When
the liquid ceases to flow, the tree is opened in a similar manner in
some other part, and then, again, elsewhere: after which the whole tree
is cut down, and the pith[2346] of it is used for burning.[2347]

So, too, in Syria they take the bark from off the terebinth; and,
indeed, in those parts they do not spare even the root or branches,
although in general the resin obtained from those parts is held in
disesteem. In Macedonia they subject the whole of the male larch to the
action of fire, but of the female[2348] only the roots. Theopompus
has stated in his writings that in the territory of the Apolloniates
there is found a kind of mineral pitch,[2349] not inferior to that
of Macedonia. The best pitch[2350] everywhere is that obtained from
trees planted on sunny spots with a north-east aspect; while that
which is produced from more shaded localities has a disagreeable
look and a repulsive odour. Pitch, too, that is produced amid the
cold of winter is of inferior quality, being in smaller quantity,
too, and comparatively colourless. Some persons are of opinion that
in mountainous localities this liquid is produced in the greatest
abundance, and that it is of superior colour and of a sweeter taste
and has a finer smell so long as it remains in a state of resin; but
that when, on the other hand, it is subjected to boiling, it yields
a smaller quantity of pitch, because so much of it goes[2351] off in
a serous shape. They say that the resinous trees, too, that grow on
mountains are thinner than those that are found on plains, but that
they are apt, both of them, to be unproductive in clear, dry weather.

Some trees, too, afford a flow of resinous juice the year after the
incision is made, some, again, in the second year, and others in the
third. The wound so made is filled with resin, but not with bark, or by
the cicatrization of the outer coat; for the bark in this tree never
unites. Among these varieties some authors have made the sappium[2352]
to constitute a peculiar kind, because it is produced from the seed
of a kindred variety, as we have already stated when speaking of the
nuts[2353] of trees; and they have given the name of tæda[2354] to
the lower parts of the tree; although in reality this tree is nothing
else but a pitch-tree, which by careful cultivation has lost some
small portion of its wild character. The name “sappinus” is also given
to the timber of these trees when cut, as we shall have occasion to
mention[2355] hereafter.



CHAP. 24. (13.)—TREES THE WOOD OF WHICH IS HIGHLY VALUED. FOUR
VARIETIES OF THE ASH.


It is for the sake of their timber that Nature has created the other
trees, and more particularly the ash,[2356] which yields it in greater
abundance. This is a tall, tapering tree, with a feather-like leaf: it
has been greatly ennobled by the encomiums of Homer, and the fact that
it formed the spear of Achilles:[2357] the wood of it is employed for
numerous purposes. The ash which grows upon Mount Ida, in Troas, is so
extremely like the cedar,[2358] that, when the bark is removed, it will
deceive a purchaser.

The Greeks have distinguished two varieties of this tree, the one long
and without knots, the other short, with a harder wood, of a darker
colour, and a leaf like that of the laurel. In Macedonia they give the
name of “bumelia”[2359] to an ash of remarkably large size, with a
wood of extreme flexibility. Some authors have divided this tree into
several varieties, according to the localities which it inhabits, and
say that the ash of the plains has a spotted wood, while that of the
mountain ash is more compact. Some Greek writers have stated that the
leaf of the ash is poisonous[2360] to beasts of burden, but harmless to
all the animals that ruminate.[2361] The leaves of this tree in Italy,
however, are not injurious to beasts of burden even; so far from it,
in fact, that nothing has been found to act as so good a specific for
the bites of serpents[2362] as to drink the juice extracted from the
leaves, and to apply them to the wounds. So great, too, are the virtues
of this tree, that no serpent will ever lie in the shadow thrown by
it, either in the morning or the evening, be it ever so long; indeed,
they will always keep at the greatest possible distance from it. We
state the fact from ocular demonstration,[2363] that if a serpent and
a lighted fire are placed within a circle formed of the leaves of the
ash, the reptile will rather throw itself into the fire than encounter
the leaves of the tree. By a wonderful provision of Nature, the ash has
been made to blossom before the serpents leave their holes, and the
fall of its leaf does not take place till after they have retired for
the winter.



CHAP. 25. (14.)—TWO VARIETIES OF THE LINDEN-TREE.


In the linden-tree the male[2364] and the female are totally different.
In the male the wood is hard and knotty, of a redder hue, and with
a stronger smell; the bark, too, is thicker, and, when taken off,
has no flexibility. The male bears neither seed nor blossom as the
female does, the trunk of which is thicker, and the wood white and of
excellent quality. It is a singular[2365] thing, but no animal will
touch the fruit of this tree, although the juice of the leaves and the
bark is sweet. Between the bark and the wood there are a number of
thin coats, formed by the union of numerous fine membranes; of these
they make those bands[2366] which are known to us as “tiliæ.” The
finer membranes are called “philyræ,” and are rendered famous by the
honourable mention that the ancients have made of them as ribbons for
wreaths[2367] and garlands. The wood of this tree is proof against the
attacks of worms:[2368] it is of moderate height[2369] only, but of
very considerable utility.



CHAP. 26. (15.)—TEN VARIETIES OF THE MAPLE.


The maple, which is pretty nearly of the same[2370] size as the lime,
is inferior to the citrus[2371] only for the beauty of its wood when
employed for cabinet work, and the exquisite finish it admits of.
There are numerous varieties[2372] of this tree; the light maple,
remarkable for the extreme whiteness of its wood, is known as the
“Gallic”[2373] maple in Italy beyond the Padus, being a native of the
countries beyond the Alps. Another kind is covered with wavy spots
running in all directions. In consequence of its superior beauty it
has received its name,[2374] from its strong resemblance to the marks
which are seen in the tail of the peacock; the finest kinds are those
which grow in Istria and Rhætia. An inferior sort of maple is known as
“crassivenium.”[2375]

The Greeks distinguish the varieties according to their respective
localities. The maple of the plains,[2376] they say, is white, and
not wavy; they give it the name of “glinon.” On the other hand, the
mountain maple,[2377] they say, is of a more variegated appearance,
and harder, the wood of the male tree being more particularly so, and
the best adapted for specimens of elegant workmanship. A third kind,
again, according to the Greeks, is the zygia,[2378] with a red wood,
which is easily split, and a pale, rough bark. Other authors, however,
prefer to make of this last a peculiar species, and give it in Latin
the name of “carpinus.”



CHAP. 27. (16.)—BRUSCUM: MOLLUSCUM; THE STAPHYLODENDRON.


But the most beautiful feature of all in the maple is what is known
as bruscum, and, even more particularly so, the molluscum. These are
both of them tuberosities of this tree, the bruscum presenting veins
more violently contorted, while those of the molluscum are disposed
in a more simple and uniform manner: indeed, if this last were of
sufficiently large size to admit of tables being made of it, there is
no doubt that it would be preferred to the wood of the citrus even. At
the present day, however, we find it but little used except for the
leaves of tablets, or as a veneer for couches.[2379] Tuberosities are
also found on the alder,[2380] but as much inferior to those already
mentioned, as the alder itself is to the maple. In the maple the male
tree[2381] is the first to blossom. The trees that frequent dry spots
are preferred to those that grow in watery localities, which is the
case also with the ash.

There is found in the countries beyond the Alps a tree, the wood of
which is very similar to that of the white maple, and which is known as
the staphylodendron.[2382] This tree bears a pod[2383] in which there
is found a kernel, which has the flavour of the hazel-nut.



CHAP. 28.—THREE VARIETIES OF THE BOX-TREE.


One of the most highly esteemed of all the woods is the box,[2384]
but it is seldom veined, and then only the wood of the root. In
other respects, it is a wood, so to say, of quiet and unpretending
appearance, but highly esteemed for a certain degree of hardness
and its pallid hue: the tree, too, is very extensively employed in
ornamental gardening.[2385] There are three[2386] varieties of it: the
Gallic[2387] box, which is trained to shoot upwards in a pyramidal
form, and attains a very considerable height; the oleaster,[2388] which
is condemned as being utterly worthless, and emits a disagreeable
odour; and a third, known as the “Italian” box,[2389] a wild variety,
in my opinion, which has been improved by cultivation. This last
spreads more than the others, and forms a thick hedge: it is an
evergreen, and is easily clipped.

The box-tree abounds on the Pyrenean[2390] range, the mountains of
Cytorus, and the country about Berecynthus.[2391] The trunk grows to
the largest size in the island of Corsica,[2392] and its blossom is
by no means despicable; it is this that causes the honey there to be
bitter.[2393] The seed of the box is held in aversion by all animals.
That which grows upon Mount Olympus in Macedonia is not more slender
than the other kinds, but the tree is of a more stunted growth. It
loves spots exposed to the cold winds and the sun: in fire, too, it
manifests all the hardness of iron; it gives out no flame, and is of no
use whatever for the manufacture of charcoal.[2394]



CHAP. 29. (17.)—FOUR VARIETIES OF THE ELM.


Midway between the preceding ones and the fruit-trees stands the elm,
partaking of the nature of the former in its wood, and being akin to
the latter in the friendship which it manifests for the vine.[2395]
The Greeks distinguish two varieties of this tree: the mountain[2396]
elm, which is the larger of the two, and that of the plains, which
is more shrubby. Italy gives the name of “Atinia”[2397] to the more
lofty kinds, and gives the preference to those which are of a dry
nature and will not grow in damp localities. Another variety is the
Gallic elm,[2398] and a third, the Italian,[2399] with leaves lying
closer together, and springing in greater numbers from a single
stalk. A fourth kind is the wild elm. The Atinia does not produce any
samara,[2400] that being the name given to the seed of the elm. All
the elms will grow from slips or cuttings, and all of them, with the
exception of the Atinia, may be propagated from seed.



CHAP. 30. (18.)—THE NATURES OF THE VARIOUS TREES ACCORDING TO THEIR
LOCALITIES: THE MOUNTAIN TREES, AND THE TREES OF THE PLAIN.


Having now made mention of the more remarkable trees, it remains for
me to state some general facts connected with them all. The cedar, the
larch, the torch-tree, and the other resinous trees prefer mountainous
localities:[2401] the same is the case also with the aquifolia, the
box, the holm-oak, the juniper, the terebinth, the poplar, the wild
mountain-ash, and the yoke-elm.[2402] On the Apennines there is also
found a shrub known as the “cotinus,”[2403] famous for imparting to
cloth a purple colour like that of the murex. The fir, the robur, the
chesnut, the lime, the holm-oak, and the cornel will grow equally well
on mountain or in valley; while the maple,[2404] the ash, the service,
the linden, and the cherry, more particularly prefer a watery spot on
the slope of a hilly declivity. It is not often that we see the plum,
the pomegranate, the olive, the walnut, the mulberry, or the elder,
growing on an elevated site: the cornel, too, the hazel, the quercus,
the wild ash, the maple, the ash, the beech, and the yoke-elm, descend
to the plains; while the elm, the apple, the pear, the laurel, the
myrtle, the blood-red[2405] shrub, the holm-oak, and the brooms[2406]
that are employed in dyeing cloths, all of them aspire to a more
elevated locality.

The sorb,[2407] and even still more the birch,[2408] are fond of a cold
site; this last is a native of Gaul, of singular whiteness and slender
shape, and rendered terrible as forming the fasces of the magistracy.
From its flexibility it is employed also in making circlets and the
ribs of panniers. In Gaul,[2409] too, they extract a bitumen from it
by boiling. To a cold site, also, belongs the thorn, which affords
the most auspicious torches[2410] of all for the nuptial ceremony;
from the circumstance, as Massurius assures us, that the shepherds, on
the occasion of the rape of the Sabine women, made their torches of
the wood of this tree: at the present day, however, the woods of the
yoke-elm and the hazel are more generally employed for this purpose.



CHAP. 31.—TREES WHICH GROW ON A DRY SOIL: THOSE WHICH ARE FOUND IN WET
LOCALITIES: THOSE WHICH ARE FOUND IN BOTH INDIFFERENTLY.


The cypress, the walnut, the chesnut, and the laburnum,[2411] are
averse to water. This last tree is also a native of the Alps, and
far from generally known: the wood is hard and white,[2412] and the
flowers, which are a cubit[2413] in length, no bee will ever touch. The
shrub, too, known as Jupiter’s beard,[2414] manifests an equal dislike
to water: it is often clipped, and is employed in ornamental gardening,
being of a round, bushy form, with a silvery leaf. The willow, the
alder, the poplar,[2415] the siler,[2416] and the privet,[2417] so
extensively employed for making tallies,[2418] will only grow in damp,
watery places; which is the case also with the vaccinium,[2419] grown
in Italy for drugging our slaves,[2420] and in Gaul for the purpose of
dyeing the garments of slaves a purple colour. All those trees[2421]
which are common to the mountains and the plains, grow to a larger
size, and are of more comely appearance when grown on the plains, while
those found on the mountains have a better wood and more finely veined,
with the exception of the apple and the pear.



CHAP. 32. (19.)—DIVISION OF TREES INTO VARIOUS SPECIES.


In addition to these particulars, some of the trees lose their leaves,
while others, again, are evergreens. Before, however, we treat of this
distinction, it will be necessary first to touch upon another. There
are some trees that are altogether of a wild nature, while there are
others, again, that are more civilized, such being the names[2422] by
which man has thought fit to distinguish the trees. Indeed, these last,
which by their fruits or some other beneficial property, or else by the
shade which they afford, show themselves the benefactors of man, are
not inappropriately called “civilized”[2423] trees.



CHAP. 33. (20.)—TREES WHICH DO NOT LOSE THEIR FOLIAGE. THE
RHODODENDRON. TREES WHICH DO NOT LOSE THE WHOLE OF THEIR FOLIAGE.
PLACES IN WHICH THERE ARE NO TREES.


Belonging to this last class, there are the following trees which do
not lose their leaves: the olive, the laurel, the palm, the myrtle,
the cypress, the pine, the ivy, the rhododendron,[2424] and, although
it may be rather called a herb than a tree, the savin.[2425] The
rhododendron, as its name indicates, comes from Greece. By some it is
known as the nerium,[2426] and by others as the rhododaphne. It is an
evergreen, bearing a strong resemblance to the rose-tree, and throwing
out numerous branches from the stem; to beasts of burden, goats, and
sheep it is poisonous, but for man it is an antidote[2427] against the
venom of serpents.

(21.) The following among the forest-trees do not lose their leaves:
the fir, the larch, the pinaster, the juniper, the cedar, the
terebinth, the box, the holm-oak, the aquifolia, the cork, the yew,
and the tamarisk.[2428] A middle place between the evergreens and
those which are not so, is occupied by the andrachle[2429] in Greece,
and by the arbutus[2430] in all parts of the world; as they lose all
their leaves with the exception of those on the top of the tree. Among
certain of the shrubs, too, the bramble and the calamus, the leaves do
not fall. In the territory of Thurii, where Sybaris formerly stood,
from the city there was a single oak[2431] to be seen that never lost
its leaves, and never used to bud before midsummer: it is a singular
thing that this fact, which has been so often alluded to by the Greek
writers, should have been passed over in silence by our own.[2432]
Indeed, so remarkable are the virtues that we find belonging to some
localities, that about Memphis in Egypt, and at Elephantina in Thebais,
the leaves[2433] fall from none of the trees, not the vine even.



CHAP. 34. (22.)—THE NATURE OF THE LEAVES WHICH WITHER AND FALL.


All the trees, with the exception of those already mentioned—a list
which it would be tedious to enumerate—lose their leaves, and it has
been observed that the leaf does not dry up and wither unless it is
thin, broad, and soft; while, on the other hand, the leaves that do
not fall are those which are fleshy, thick, and narrow.[2434] It is
an erroneous theory that the leaf does not fall in those trees the
juices of which are more unctuous than the rest; for who could make
out that such is the case with the holm-oak, for instance? Timæus, the
mathematician, is of opinion that the leaves fall while the sun is
passing through the sign of Scorpio, being acted upon by the influences
of that luminary, and a certain venom which exists in the atmosphere:
but then we have a right to wonder how it is that, the same reasons
existing, the same influence is not exercised equally on all.

The leaves of most trees fall in autumn, but in some at a later
period, remaining on the tree till the approach of winter, it making
no difference whether they have germinated at an earlier period or a
later, seeing that some that are the very first to bud are among the
last to lose their leaves—the almond, the ash, and the elder, for
instance: the mulberry, on the other hand, buds the last of all, and
loses its leaves among the very first. The soil, too, exercises a very
considerable influence in this respect: the leaves falling sooner where
it is dry and thin, and more particularly when the tree is old: indeed,
there are many trees that lose them before the fruit is ripe, as in
the case of the late fig, for instance, and the winter pear: on the
pomegranate, too, the fruit, when ripe, beholds nothing but the trunk
of the parent tree. And not even upon those trees which always retain
their foliage do the same leaves always remain, for as others shoot up
beneath them, the old leaves gradually wither away: this takes place
about the solstices more particularly.



CHAP. 35.—TREES WHICH HAVE LEAVES OF VARIOUS COLOURS; TREES WITH LEAVES
OF VARIOUS SHAPES. THREE VARIETIES OF THE POPLAR.


The leaves continue the same upon every species of tree, with the
exception of the poplar, the ivy, and the croton, which we have already
mentioned as being called the “cicus.”[2435]

(23.) There are three kinds of poplar; the white,[2436] the
black,[2437] and the one known as the Libyan[2438] poplar, with a very
diminutive leaf, and extremely black; much esteemed also for the fungi
which grow from it. The white poplar has a parti-coloured leaf, white
on the upper side and green beneath. This poplar, as also the black
variety, and the croton, have a rounded leaf when young, as though
it had been described with a pair of compasses, but when it becomes
older the leaf throws out angular projections. On the other hand, the
leaf of the ivy,[2439] which is angular at first, becomes rounder,
the older the tree. From the leaves of the poplar there falls a very
thick down;[2440] upon the white poplar, which, it is said, has a
greater quantity of leaves than the others, this down is quite white,
resembling locks of wool. The leaves of the pomegranate and the almond
are red.



CHAP. 36.—LEAVES WHICH TURN ROUND EVERY YEAR.


We find a most remarkable and, indeed, a marvellous peculiarity[2441]
existing in the elm, the lime, the olive, the white poplar, and the
willow; for immediately after the summer solstice the leaves of these
trees turn completely round; indeed, we have no sign which indicates
with greater certainty that that period has past.

(24.) These trees also present in their leaves the same difference
that is to be observed in those of all the rest: the underside, which
looks towards the ground, is of a green, grassy colour, and has a
smooth surface;[2442] while the veins, the callous skin, and the
articulations, lie upon the upper face, the veins making incisions in
the parts beneath, like those to be seen upon the human hand. The leaf
of the olive is whiter above, and not so smooth; the same is the case,
too, with that of the ivy. The leaves of all trees turn[2443] every day
towards the sun, the object being that the under side may be warmed by
its heat. The upper surface of them all has a down upon it, in however
small quantity it may be; in some countries this down is used as a kind
of wool.[2444]



CHAP. 37.—THE CARE BESTOWED ON THE LEAVES OF THE PALM, AND THE USES TO
WHICH THEY ARE APPLIED.


We have already said[2445] that in the East strong ropes are made of
the leaves of the palm, and that they are improved by lying in the
water. Among ourselves, too, the leaves of the palm are generally
plucked immediately after harvest, the best being those that have no
divisions in them. These leaves are left to dry under cover for four
days, after which they are spread out in the sun, and left out in the
open air all night, till they have become quite white and dry: after
this they are split before they are put to any use.



CHAP. 38.—REMARKABLE FACTS CONNECTED WITH LEAVES.


The broadest leaves are those of the fig, the vine, and the plane;
while those of the myrtle, the pomegranate, and the olive are narrow.
The leaf of the pine and the cedar is fine and resembles hair,
while that of the holly and one variety of the holm oak[2446] is
prickly—indeed, in the juniper, we find a thorn in place of a leaf.
The leaf of the cypress and the tamarisk[2447] is fleshy, and that
of the alder is remarkable for its thickness.[2448] In the reed, the
willow, and the palm,[2449] the leaf is long, and in the latter tree
it is double as well: that of the pear is rounded, and it is pointed
in the apple.[2450] In the ivy the leaf is angular, and in the plane
divided.[2451] In the pitch-tree[2452] and the fir the leaf is indented
like the teeth of a comb; while in the robur it is sinuous on the whole
of the outer margin: in the bramble it has a spiny surface. In some
plants the leaf has the property of stinging, the nettle for instance;
while in the pine,[2453] the pitch-tree, the fir, the larch, the cedar,
and the holly, it is prickly. In the olive and the holm-oak it has a
short stalk, in the vine a long one: in the poplar the stalk of the
leaf is always quivering,[2454] and the leaves of this tree are the
only ones that make a crackling noise[2455] when coming in contact with
another.

In one variety of the apple-tree[2456] we find a small leaf protruding
from the very middle of the fruit, sometimes, indeed, a couple of
them. Then, again, in some trees the leaves are arranged all round
the branches, and in others at the extremities of them, while in the
robur they are found upon the trunk itself. They are sometimes thick
and close, and at others thinly scattered, which is more particularly
the case where the leaf is large and broad. In the myrtle[2457] they
are symmetrically arranged, in the box, concave, and, upon the apple,
scattered without any order or regularity. In the apple and the pear
we find several leaves issuing from the same stalk, and in the elm and
the cytisus[2458] they are covered with ramified veins. To the above
particulars Cato[2459] adds that the leaves of the poplar and the
quercus should not be given to cattle after they have fallen and become
withered, and he recommends the leaves of the fig,[2460] the holm-oak,
and the ivy for oxen: the leaves, too, of the reed and the laurel are
sometimes given them to eat. The leaves of the service-tree fall all at
once, but in the others only by degrees. Thus much in reference to the
leaves.



CHAP. 39. (25.)—THE NATURAL ORDER OF THE PRODUCTION OF PLANTS.


The following is the order in which the operations of Nature take
place throughout the year. The first is fecundation, which takes place
when the west wind begins to prevail, generally about the sixth day
before the ides of February.[2461] By the agency of this wind all the
productions of the earth are impregnated; to such an extent, indeed,
that the mares even in Spain are impregnated by it, as we have already
stated.[2462] This is the generating principle of the universe, and it
receives its name of Favonius, as some think, from our word “fovere,”
which means “to warm and cherish:” it blows from due west at the
opening of the spring. The peasantry call this period of the year the
“time of heat,”[2463] because Nature is then longing to receive the
seeds of her various productions, and is imparting life to everything
that is planted. The vegetables conceive[2464] on various days, each
according to its respective nature: some immediately, as with animals,
others, again, more slowly, carrying with them for a longer period the
produce of their conception, a state which has from that circumstance
obtained the name of “germination.” When the plant flowers, it may be
said to bring forth, and the flower makes its appearance by bursting
its little capsule, which has acted to it as an uterus. The period of
training and education is the growth of the fruit. This, as well as
that of germination, is a laborious process.



CHAP. 40.—TREES WHICH NEVER BLOSSOM. THE JUNIPER.


The appearance of the blossom bespeaks the arrival of the spring and
the birth anew of the year; this blossom is the very pride and delight
of the trees. Then it is that they show themselves quite renewed, and
altogether different from what they really are; then it is that they
quite revel in the contest with each other which shall excel in the
various hues and tints which they display. This merit has, however,
been denied to many of them; for they do not all blossom, and there are
certain sombre trees which do not participate in this joyous season of
the year. The holm-oak, the pitch-tree, the larch, and the pine are
never bedecked with blossoms, and with them there is no particular
forerunner sent forth to announce the yearly birth of their respective
fruits. The same is the case, too, with the cultivated and the wild
fig,[2465] which immediately present their fruit in place of any
blossom. Upon the fig, too, it is remarkable that there are abortive
fruit to be seen which never ripen.

The juniper, also, is destitute[2466] of blossom; some writers,
however, distinguish two varieties of it, one of which blossoms but
bears no fruit,[2467] while the other has no blossom, but presents the
berries immediately, which remain on the tree for so long a period as
two years: this assertion, however, is utterly fallacious, and all the
junipers always present the same sombre appearance. So, too, in life,
the fortunes of many men are ever without their time of blossoming.



CHAP. 41.—THE FECUNDATION OF TREES. GERMINATION: THE APPEARANCE OF THE
FRUIT.


All trees germinate, however,[2468] even those which do not blossom.
In this respect there is a very considerable difference in relation to
the various localities; for in the same species we find that the tree,
when planted in a marshy spot, will germinate earlier than elsewhere;
next to that, the trees that grow on the plains, and last of all those
that are found in the woods: the wild pear, too, is naturally later
in budding than the other pears. At the first breath of the west
wind[2469] the cornel buds, and close upon it the laurel; then, a
little before the equinox, we find the lime and the maple germinating.
Among the earlier trees, too, are the poplar, the elm, the willow, the
alder, and the nut-trees. The plane buds, too, at an early period.

Others, again, germinate at the beginning of spring, the holly, for
instance, the terebinth, the paliurus,[2470] the chesnut, and the
glandiferous trees. On the other hand, the apple is late in budding,
and the cork-tree the very last of all. Some trees germinate twice,
whether it is that this arises from some exuberant fertility of the
soil, or from the inviting temperature of the atmosphere; this takes
place more particularly in the several varieties of the cereals.
Excessive germination, however, has a tendency to weaken and exhaust
the tree.

Besides the spring budding, some trees have naturally another
budding, which depends upon the influence of their own respective
constellations,[2471] a theory which we shall find an opportunity of
more conveniently discussing in the next Book but one.[2472] The winter
budding takes place at the rising of the Eagle, the summer at that of
the Dog-star, and a third budding[2473] again at that of Arcturus.
Some persons think that these two buddings are common to all trees,
but that they are to be remarked more particularly in the fig, the
vine, and the pomegranate; seeing that, when this is the case, the crop
of figs, in Thessaly and Macedonia more particularly, is remarkably
abundant: but it is in Egypt more especially that illustrations of this
vast abundance are to be met with. All the trees in general, when they
have once begun to germinate, proceed continuously with it; the robur,
however, the fir-tree, and the larch germinate intermittently, ceasing
thrice, and as many times[2474] beginning to bud again, and hence it is
that they shed the scales of their bark[2475] three several times; a
thing that takes place with all trees during the period of germination,
the outer coat of the tree bursting while it is budding.

With these last trees the first budding takes place[2476] at the
beginning of spring, and lasts about fifteen days; and they germinate a
second time when the sun is passing through the sign of Gemini: hence
it is that we see the points of the first buds pushed upwards by those
beneath, a joint marking the place where they unite.[2477] The third
germination of these trees takes place at the summer solstice, and
lasts no more than seven days: at this period we may very distinctly
detect the articulations by which the buds are joined to one another
as they grow. The vine is the only tree that buds twice; the first
time when it first puts forth the grape, and the second time when the
grape comes to maturity. In the trees which do not blossom there is
only the budding, and then the gradual ripening of the fruit. Some
trees blossom while they are budding, and pass rapidly through that
period; but the fruit is slow in coming to maturity, as in the vine,
for instance. Other trees, again, blossom and bud but late, while the
fruit comes to maturity with great rapidity, the mulberry,[2478] for
example, which is the very last to bud of all the cultivated trees, and
then only when the cold weather is gone: for this reason it has been
pronounced the wisest among the trees. But in this, the germination,
when it has once begun, bursts forth all over the tree at the very same
moment; so much so, indeed, that it is accomplished in a single night,
and even with a noise that may be audibly heard.[2479]



CHAP. 42.—IN WHAT ORDER THE TREES BLOSSOM.


Of the trees which, as we have already stated,[2480] bud in winter
at the rising of the Eagle, the almond blossoms the first of all, in
the month of January[2481] namely, while by March the fruit is well
developed. Next to it in blossoming is the plum[2482] of Armenia,
and then the tuber and the early peach,[2483] the first two being
exotics, and the latter forced by the agency of cultivation. Among
the forest trees, the first that blossoms in the course of nature is
the elder,[2484] which has the most pith of any, and the male cornel,
which has none[2485] at all. Among the cultivated trees we next have
the apple, and immediately after—so much so, indeed, that it would
almost appear that they blossom simultaneously—the pear, the cherry,
and the plum. Next to these is the laurel, and then the cypress, and
after that the pomegranate and the fig: the vine, too, and the olive
are budding when these last trees are in flower, the period of their
conception[2486] being the rising of the Vergiliæ,[2487] that being
their constellation.[2488] As for the vine, it blossoms at the summer
solstice, and the olive begins to do so a little later. All blossoms
remain on the trees seven days, and never fall sooner; some, indeed,
fall later, but none remain on more than twice seven days. The blossoms
are always off before the eighth day[2489] of the ides of July, the
period of the prevalence of the Etesian[2490] winds.



CHAP. 43. (26.)—AT WHAT PERIOD EACH TREE BEARS FRUIT. THE CORNEL.


Upon some trees the fruit does not follow immediately upon the fall of
the blossom. The cornel[2491] about the summer solstice puts forth a
fruit that is white at first, and after that the colour of blood. The
female[2492] of this tree, after autumn, bears a sour berry, which no
animal will touch; its wood, too, is spongy and quite useless, while,
on the other hand, that of the male tree is one of the very strongest
and hardest[2493] woods known: so great a difference do we find in
trees belonging to the same species. The terebinth, the maple, and the
ash produce their seed at harvest-time, while the nut-trees, the apple,
and the pear, with the exception of the winter or the more early kinds,
bear fruit in autumn. The glandiferous trees bear at a still later
period, the setting of the Vergiliæ,[2494] with the exception of the
æsculus,[2495] which bears in the autumn only; while some kinds of the
apple and the pear, and the cork-tree, bear fruit at the beginning of
winter.

The fir puts forth blossoms of a saffron colour about the summer
solstice, and the seed is ripe just after the setting of the Vergiliæ.
The pine and the pitch-tree germinate about fifteen days before the
fir, but their seed is not ripe till after the setting of the Vergiliæ.



CHAP. 44.—TREES WHICH BEAR THE WHOLE YEAR. TREES WHICH HAVE ON THEM THE
FRUIT OF THREE YEARS.


The citron-tree,[2496] the juniper, and the holm-oak are looked upon as
having fruit on them the whole year through, and upon these trees we
see the new fruit hanging along with that of the preceding year. The
pine, however, is the most remarkable of them all; for it has upon it
at the same moment the fruit that is hastening to maturity, the fruit
that is to come to maturity in the ensuing year, and the fruit that is
to ripen the next year but one.[2497] Indeed, there is no tree that is
more eager to develope its resources; for in the same month in which
a nut is plucked from it, another will ripen in the same place; the
arrangement being such, that there is no month in which the nuts of
this tree are not ripening. Those nuts which split while still upon the
tree, are known by the name of azaniæ;[2498] they are productive of
injury to the others, if not removed.



CHAP. 45.—TREES WHICH BEAR NO FRUIT: TREES LOOKED UPON AS ILL-OMENED.


The only ones among all the trees that bear nothing whatever, not so
much as any seed even, are the tamarisk,[2499] which is used only for
making brooms, the poplar,[2500] the alder, the Atinian elm,[2501] and
the alaternus,[2502] which has a leaf between that of the holm-oak
and the olive. Those trees are regarded as sinister,[2503] and are
considered inauspicious, which are never propagated from seed, and
bear no fruit. Cremutius informs us, that this tree, being the one
upon which Phyllis[2504] hanged herself, is never green. Those trees
which produce a gum open of themselves after germination: the gum never
thickens until after the fruit has been removed.



CHAP. 46.—TREES WHICH LOSE THEIR FRUIT OR FLOWERS MOST READILY.


Young trees are unproductive[2505] so long as they are growing. The
fruits which fall most readily before they come to maturity are the
date, the fig, the almond, the apple, the pear, and the pomegranate,
which last tree is also very apt to lose its blossom through excessive
dews and hoar frosts. For this reason it is, too, that the growers
bend the branches of the pomegranate, lest, from being straight, they
may receive and retain the moisture that is so injurious to them. The
pear and the almond,[2506] even if it should not rain, but a south
wind happen to blow or the weather become cloudy, are apt to lose
their blossoms, and their first fruit as well, if, after the blossom
has fallen, there is a continuance of such weather. But it is the
willow that loses its seed the most speedily of all, long, indeed,
before it is ripe; hence it is that Homer has given it the epithet of
“fruit-losing.”[2507] Succeeding ages, however, have given to this term
an interpretation conformable to their own wicked practices, it being a
well-known fact that the seed of the willow has the effect of producing
barrenness in females.

In this respect, however, Nature has employed her usual foresight,
bestowing but little care upon the seed of a tree which is produced so
easily, and propagated by slips. There is, however, it is said, one
variety of willow,[2508] the seed of which arrives at maturity: it is
found in the Isle of Crete, at the descent from the grotto of Jupiter:
the seed is unsightly and ligneous, and in size about as large as a
chick-pea.



CHAP. 47.—TREES WHICH ARE UNPRODUCTIVE IN CERTAIN PLACES.


Certain trees also become unproductive, owing to some fault in the
locality, such, for instance, as a coppice-wood in the island of
Paros, which produces nothing at all: in the Isle of Rhodes, too, the
peach-trees[2509] never do anything more than blossom. This distinction
may arise also from the sex; and when such is the case, it is the
male[2510] tree that never produces. Some authors, however, making a
transposition, assert that it is the male trees only that are prolific.
Barrenness may also arise from a tree being too thickly covered with
leaves.



CHAP. 48.—THE MODE IN WHICH TREES BEAR.


Some among the fruit-trees[2511] bear on both the sides of the branches
and the summit, the pear, for instance, the fig-tree, and the myrtle.
In other respects the trees are pretty nearly of a similar nature to
the cereals, for in them we find the ear growing from the summit, while
in the leguminous varieties the pod grows from the sides. The palm, as
we have already[2512] stated, is the only one that has fruit hanging
down in bunches enclosed in capsules.



CHAP. 49.—TREES IN WHICH THE FRUIT APPEARS BEFORE THE LEAVES.


The other trees, again, bear their fruit beneath the leaves, for the
purpose of protection, with the exception of the fig, the leaf of
which is very large, and gives a great abundance of shade; hence it is
that we find the fruit placed above it; in addition to which, the leaf
makes its appearance after the fruit. There is said to be a remarkable
peculiarity connected with one species of fig that is found in Cilicia,
Cyprus, and Hellas; the fruit grows beneath the leaves, while at the
same time the green abortive fruit, that never reaches maturity, is
seen growing on the top of them. There is also a tree that produces an
early fig, known to the Athenians by the name of “prodromos.”[2513] In
the Laconian varieties of this fruit more particularly, we find trees
that bear two crops[2514] in the year.



CHAP. 50. (27.)—TREES THAT BEAR TWO CROPS IN A YEAR. TREES THAT BEAR
THREE CROPS.


In the island of Cea there are wild figs that bear three times in
one year. By the first crop the one that succeeds is summoned forth,
and by that the third. It is by the agency of this last crop that
caprification[2515] is performed. In the wild fig, too, the fruit
grows on the opposite side of the leaves. There are some pears and
apples, too, that bear two crops in the year, while there are some
early varieties also. The wild apple bears twice[2516] in the year,
its second crop coming on after the rising of Arcturus,[2517] in sunny
localities more particularly. There are vines, too, that will even bear
three times in the year, a circumstance that has procured for them the
name of “frantic”[2518] vines. On these we see grapes just ripening,
others beginning to swell, and others, again, in blossom, all at the
same moment.

M. Varro[2519] informs us, that there was formerly at Smyrna,
near[2520] the Temple of the Mother of the Gods, a vine that bore two
crops in the year, as also an apple-tree of a similar nature in the
territory of Consentia. This, however, is constantly to be witnessed
in the territory of Tacapa,[2521] in Africa, of which we shall have
to speak more fully on another occasion,[2522] so remarkable is the
fertility of the soil. The cypress also bears three times in the year,
for its berries are gathered in the months of January, May, and
September, being all three of different size.

There are also certain peculiarities observed in the different modes
in which the trees bear their fruit, the arbutus and the quercus being
most fruitful in the upper part, the walnut and the marisca[2523] fig
in the lower. All trees, the older they grow, the more early they bear,
and this more particularly in sunny spots and where the soil is not
over-rich. All the forest-trees are slower in bringing their fruit to
maturity; and indeed, in some of them the fruit never becomes fully
ripe.[2524] Those trees, too, about the roots of which the earth is
ploughed or broken and loosened, bring their fruit to maturity more
speedily than those in which this has been neglected; by this process
they are also rendered more fruitful.



CHAP. 51.—WHICH TREES BECOME OLD WITH THE GREATEST RAPIDITY, AND WHICH
MOST SLOWLY.


There are great differences also in trees in respect to age. The
almond and the pear[2525] are the most fruitful when old, which is
the case also with the glandiferous trees and a certain species of
fig. Others, again, are most prolific when young, though the fruit is
later in coming to maturity, a thing particularly to be observed in
the vine; for in those that are old the wine is of better quality,
while the produce of the younger trees is given in greater abundance.
The apple-tree becomes old very early, and the fruit which it produces
when old is of inferior quality, being of smaller size and very liable
to be attacked by maggots: indeed, these insects will breed in the
tree itself. The fig is the only one of all the fruit-trees that is
submitted to any process with the view of expediting the ripening of
the fruit,[2526] a marvellous thing, indeed, that a greater value
should be set upon produce that comes out of its proper season!
All trees which bear their fruit before the proper time become
prematurely[2527] old; indeed, some of them wither and die all of a
sudden, being utterly exhausted by the too favourable influence of the
weather, a thing that happens to the vine more particularly.

(28.) On the other hand, the mulberry becomes aged[2528] but very
slowly, and is never exhausted by its crops. Those trees, too, the wood
of which is variegated, arrive at old age but slowly,—the palm, the
maple, and the poplar, for instance.

(29.) Trees grow old more rapidly when the earth is ploughed and
loosened about the[2529] roots; forest trees at a later period.
Speaking in general terms, we may say that care employed in the culture
of trees seems to promote their fertility, while increased fertility
accelerates old age. Hence it is that the carefully tended trees are
the first to blossom, and the first to bud; in a word, are the most
precocious in every respect: but all natural productions which are in
any way weakened are more susceptible of atmospheric influences.



CHAP. 52.—TREES WHICH BEAR VARIOUS PRODUCTS. CRATÆGUM.


Many trees bear more than one production, a fact which we have already
mentioned[2530] when speaking of the glandiferous trees. In the number
of these there is the laurel, which bears its own peculiar kind of
grape, and more particularly the barren laurel,[2531] which bears
nothing else; for which reason it is looked upon by some persons as the
male tree. The filbert, too, bears catkins, which are hard and compact,
but of no use[2532] whatever.

(30.) But it is the box-tree that supplies us with the greatest number
of products, not only its seed, but a berry also, known by the name of
cratægum;[2533] while on the north side it produces mistletoe, and on
the south hyphear; two products of which I shall shortly have to speak
more[2534] at length. Sometimes, indeed, this tree has all four of
these products growing upon it at the same moment.



CHAP. 53.—DIFFERENCES IN TREES IN RESPECT OF THE TRUNKS AND BRANCHES.


Some trees are of a simple form, and have but a single trunk rising
from the root, together with numerous branches; such as the olive, for
instance, the fig, and the vine; others again are of a shrubby nature,
such as the paliurus,[2535] the myrtle, and the filbert; which last,
indeed, is all the better, and the more abundant its fruit, the more
numerous its branches. In some trees, again, there is no trunk at all,
as is the case with one species of box,[2536] and the lotus[2537] of
the parts beyond sea. Some trees are bifurcated, while there are some
that branch out into as many as five parts. Others, again, divide in
the trunk but have no branches, as in the case of the elder; while
others have no division in the trunk but throw out branches, such as
the pitch-tree, for instance.

In some trees the branches are symmetrically arranged, the pitch-tree
and the fir, for example; while with others they are dispersed without
any order or regularity, as in the robur, the apple, and the pear. In
the fir the branches are thrown out from the trunk straight upwards,
pointing to the sky, and not drooping downwards from the sides of the
trunk. It is a singular thing,[2538] but this tree will die if the ends
of its branches are cut, though, if taken off altogether, no bad effect
is produced. If it is cut, too, below the place where the branches
were, the part of the tree which is left will continue to live; but if,
on the other hand, the top only of the tree is removed, the whole of it
will die.

Some trees, again, throw out branches from the roots, the elm for
example; while others are branchy at the top, the pine for instance,
and the lotus[2539] or Grecian bean, the fruit of which, though wild,
resembles the cherry very closely, and is called the lotus at Rome,
on account of its sweetness. For sheltering houses these trees are
more particularly esteemed, as they throw out their branches to a
considerable distance, from a short trunk, thus affording a very
extensive shade, and very frequently encroaching upon the neighbouring
mansions. There is no tree, however, the shade afforded by which is
less long-lived than this, and when it loses its leaves in winter, it
affords no shelter from the sun. No tree has a more sightly bark, or
one which has greater attractions for the eye; or branches which are
longer, stouter, or more numerous; indeed, one might almost look upon
them as forming so many trees. The bark[2540] of it is used for dyeing
skins, and the root for colouring wool.

The branches of the apple-tree have a peculiar conformation; knots are
formed which resemble the muzzles[2541] of wild beasts, several smaller
ones being united to a larger.



CHAP. 54.—THE BRANCHES OF TREES.


Some of the branches are barren, and do not germinate; this takes place
either from a natural deficiency of strength, or else some injury
received in consequence of having been cut, and the cicatrix impeding
the natural functions. The same that the branch is in the trees that
spread out, is the eye[2542] in the vine, and the joint in the reed.
All trees are naturally the thickest in the parts that are nearest the
ground. The fir, the larch, the palm, the cypress, and the elm, and,
indeed, every tree that has but a single trunk, develope themselves
in their remarkable height. Among the branchy trees the cherry is
sometimes[2543] found to yield a beam forty cubits in length by two in
thickness throughout. Some trees divide into branches from the very
ground, as in the apple-tree, for example.



CHAP. 55. (31.)—THE BARK OF TREES.


In some trees the bark[2544] is thin, as in the laurel and the lime; in
others, again, it is thick, as in the robur; in some it is smooth, as
in the apple and the fig, while in the robur and the palm it is rough:
in all kinds it becomes more wrinkled when the tree is old. In some
trees the bark bursts spontaneously, as in the vine for instance, while
in others it falls off even, as we see in the apple and the arbutus. In
the cork-tree and the poplar, the bark is substantial and fleshy; in
the vine and the reed it is membraneous. In the cherry it is similar to
the coats of the papyrus, while in the vine, the lime, and the fir, it
is composed of numerous layers. In others, again, it is single, the fig
and the reed for instance.



CHAP. 56.—THE ROOTS OF TREES.


There are great differences, too, in the roots of trees. In the fig,
the robur, and the plane, they are numerous; in the apple they are
short and thin, while in the fir and the larch they are single; and by
this single root is the tree supported, although we find some small
fibres thrown out from it laterally. They are thick and unequal in
the laurel and the olive, in which last they are branchy also; while
in the robur they are solid and fleshy.[2545] The robur, too, throws
its roots downwards to a very considerable depth. Indeed, if we are
to believe Virgil,[2546] the æsculus has a root that descends as deep
into the earth as the height to which the trunk ascends in the air.
The roots of the olive, the apple, and the cypress, creep almost upon
the very surface: in some trees they run straight and horizontally,
as in the laurel and the olive; while in others they have a sinuous
course—the fig for example. In some trees the roots are bristling with
small filaments, as in the fir, and many of the forest trees; the
mountaineers cut off these fine filaments, and weave with them very
handsome flasks,[2547] and various other articles.

Some writers say that the roots of trees do not descend below the level
to which the sun’s heat is able to penetrate; which, of course, depends
upon the nature of the soil, whether it happens to be thin or dense.
This, however, I look upon[2548] as a mistake: and, in fact, we find
it stated by some authors that a fir was transplanted, the roots of
which had penetrated eight cubits in depth, and even then the whole of
it was not dug up, it being torn asunder.[2549] The citrus has a root
that goes the very deepest of all, and is of great extent; next after
it come the plane, the robur, and the various glandiferous trees. In
some trees, the laurel for instance, the roots are more tenacious of
life the nearer they are to the surface: hence, when the trunk withers,
it is cut down, and the tree shoots again with redoubled vigour. Some
think that the shorter the roots are, the more rapidly the tree decays;
a supposition which is plainly contradicted by the fig, the root of
which is among the very largest, while the tree becomes aged at a
remarkably early period. I regard also as incorrect what some authors
have stated, as to the roots of trees diminishing[2550] when they are
old; for I once saw an ancient oak, uprooted by a storm, the roots of
which covered a jugerum of ground.



CHAP. 57.—TREES WHICH HAVE GROWN SPONTANEOUSLY FROM THE GROUND.


It is a not uncommon thing for trees when uprooted to receive new
strength when replanted, the earth about their roots forming a sort of
cicatrix[2551] there. This is particularly the case with the plane,
which, from the density of its branches, presents a remarkably broad
surface to the wind: when this happens, the branches are cut off, and
the tree, thus lightened, is replaced in its furrow: this, too, has
also been done before now with the walnut, the olive, and many others.

(32.) We have many instances cited also of trees falling to the ground
without there being any storm or other perceptible cause, but merely by
way of portentous omen, and then rising again of themselves. A prodigy
of this nature happened to the citizens of Rome during their wars
with the Cimbri: at Nuceria, in the grove consecrated to Juno, an elm
inclined to such a degree, even after the top had been cut off, as to
overhang the altar there, but it afterwards recovered itself to such an
extent as to blossom immediately: it was from that very moment, too,
that the majesty of the Roman people began to flourish once again after
it had been laid low by disaster and defeat. A similar circumstance is
said to have taken place also at Philippi, where a willow, which had
fallen down, and the top of which had been taken off, rose again; and
at Stagira, in the Museum[2552] there, where the same thing occurred
to a white poplar; all which events were looked upon as favourable
omens. But what is most wonderful of all, is the fact that a plane, at
Antandros, resumed its original position even after its sides had been
rough-hewn all round with the adze,[2553] and took root again: it was a
tree fifteen cubits long, and four ulnæ in thickness.



CHAP. 58.—HOW TREES GROW SPONTANEOUSLY—DIVERSITIES IN THEIR NATURE, THE
SAME TREES NOT GROWING EVERYWHERE.


The trees which we owe to Nature are produced in three different ways;
spontaneously, by seed sown, or by a slip which throws out a root. Art
has multiplied the methods of reproduction, as we shall have occasion
to state in its own appropriate Book:[2554] at present our sole subject
is the operations of Nature, and the manifold and marvellous methods
she adopts. The trees, as we have already stated,[2555] do not all of
them grow in every locality, nor will they live, many of them,[2556]
when transplanted: this happens sometimes through a natural antipathy
on the part of the tree, sometimes through an innate stubbornness, but
more frequently through the weakness of the variety so transplanted,
either the climate being unfavourable, or the soil repulsive to it.



CHAP. 59.—PLANTS THAT WILL NOT GROW IN CERTAIN PLACES.


Balsamum[2557] will grow nowhere but [in[2558] Judæa]: and the citron
of Assyria refuses to bear fruit in any other country. The palm, too,
will not grow everywhere, and even if it does grow in some places, it
will not bear: sometimes, indeed, it may make a show and promise of
bearing, but even then its fruit comes to nothing, it seeming to have
borne them thus far in spite of itself. The cinnamon[2559] shrub has
not sufficient strength to acclimatize itself in the countries that
lie in the vicinity of Syria. Amomum,[2560] too, and nard,[2561] those
most delicate of perfumes, will not endure the carriage from India
to Arabia, nor yet conveyance by sea; indeed, King Seleucus did make
the attempt, but in vain. But what is more particularly wonderful,
is the fact that most of the trees by care may be prevailed upon to
live when transplanted; for sometimes the soil may be so managed as
to nourish the foreigner and give support to the stranger plant;
climate, however, can never be changed. The pepper-tree[2562] will
live in Italy, and cassia[2563] in the northern climates even, while
the incense-tree[2564] has been known to live in Lydia: but how are
we to impart to these productions the requisite warmth of the sun, in
order to make all the crude juices go off by evaporation, and ripen the
resins that distil from them?

Nearly as great a marvel, too, is the fact that the nature of the tree
may be modified by circumstances, and yet the tree itself be none the
less vigorous in its growth. Nature originally gave the cedar[2565] to
localities of burning heat, and yet we find it growing in the mountains
of Lycia and Phrygia. She made the laurel, too, averse to cold, and
yet there is no tree that grows in greater abundance on Mount Olympus.
At the city of Panticapæum, in the vicinity of the Cimmerian Bosporus,
King Mithridates and the inhabitants of the place used every possible
endeavour, with a view to certain religious ceremonies, to cultivate
the myrtle[2566] and the laurel: they could not succeed, however,
although trees abound there which require a hot climate, such as the
pomegranate and the fig, as well as apples and pears of the most
approved quality. In the same country, too, the trees that belong to
the colder climates, such as the pine, the fir, and the pitch-tree,
refuse to grow. But why go search for instances in Pontus? In the
vicinity of Rome itself it is only with the greatest difficulty[2567]
that the cherry and the chesnut will grow, and the peach-tree, too, at
Tusculum: the Greek nut, too, is grown there from grafts only at a cost
of considerable labour, while Tarracina abounds with whole woods of it.



CHAP. 60. (33.)—THE CYPRESS.


The cypress[2568] is an exotic, and has been reckoned one of the
trees that are naturalized with the greatest difficulty; so much so,
indeed, that Cato[2569] has expatiated upon it at greater length and
more frequently than any of the others. This tree is naturally of a
stubborn[2570] disposition, bears a fruit that is utterly useless,
a berry that causes a wry[2571] face when tasted, and a leaf that is
bitter: it also gives out a disagreeable pungent smell,[2572] and its
shade is far from agreeable. The wood that it furnishes is but scanty,
so much so indeed, that it may be almost regarded as little more than a
shrub. This tree is sacred to Pluto, and hence it is used as a sign of
mourning[2573] placed at the entrance of a house: the female[2574] tree
is for a long time barren. The pyramidal appearance that it presents
has caused it not to be rejected, but for a long time it was only used
for marking the intervals between rows of pines: at the present day,
however, it is clipped and trained to form hedge-rows, or else is
thinned and lengthened out in the various designs[2575] employed in
ornamental gardening, and which represent scenes of hunting, fleets,
and various other objects: these it covers with a thin small leaf,
which is always green.

There are two varieties of the cypress; the one[2576] tapering and
pyramidal, and which is known as the female; while the male tree[2577]
throws its branches straight out from the body, and is often pruned
and employed as a rest for the vine. Both the male and the female are
permitted to throw out their branches, which are cut and employed for
poles and props, being worth, after thirteen years’ growth, a denarius
a-piece. In respect of income, a plantation of cypress is remarkably
profitable, so much so, indeed, that it was a saying in old times that
a cypress-wood is a dowry for a daughter.[2578] The native country
of this tree is the island of Crete, although Cato[2579] calls it
Tarentine, Tarentum being the first place, I suppose, in which it was
naturalized: in the island of Ænaria,[2580] also, if the cypress is
cut down, it will grow again[2581] from the root. But, in the Isle
of Crete, in whatever place the earth is moved, this tree will shoot
up[2582] of its own natural vigour, and immediately appear above the
soil; indeed, in that island there is no occasion even to solicit
the soil, for it grows spontaneously there, on the mountains of Ida
more particularly, and those known as the White Mountains. On the
very summit of these elevations, from which the snows never depart,
we find the cypress growing in great abundance; a thing that is truly
marvellous—seeing that, in other countries, it will only grow in warm
localities; from which it would appear to have a great dislike to its
native climate.



CHAP. 61.—THAT THE EARTH OFTEN BEARS PRODUCTIONS WHICH IT HAS NEVER
BORNE BEFORE.


It is not only the quality of the soil and the unchanging influences
of the climate that affect the nature of trees, but wet and showery
weather also, temporarily at least. Indeed, the torrents very often
bring down with them seeds, and sometimes we find those of unknown
kinds even floating along. This took place in the territory of
Cyrenaica, at the period when laser was first grown there, as we shall
have occasion to mention when we speak of the nature of the various
herbs.[2583] A forest, too, sprang[2584] up in the vicinity of the city
of Cyrene, just after a shower of rain, of a dense, pitchy nature,
about the year of the City of Rome 430.



CHAP. 62. (34.)—THE IVY.—TWENTY VARIETIES OF IT.


It is said that the ivy now grows in Asia,[2585] though
Theophrastus[2586] has denied that such is the fact, and asserts that
it grows nowhere in India, except upon Mount Meros.[2587] He says, too,
that Harpalus used every possible exertion to naturalize it in Media,
but to no purpose; and that Alexander, in consequence of the rarity of
this plant, had himself crowned[2588] with it, after the example of
Father Liber, when returning victorious with his army from India: and
at the present day even, it is used to decorate the thyrsus of that
god, and the casques and bucklers employed by the nations of Thrace in
their sacred ceremonials. The ivy is injurious[2589] to all trees and
plants, and makes its way through tombs and walls; it forms a haunt
much frequented by serpents, for its refreshing coolness; so that it is
a matter for astonishment that there should have been such remarkable
veneration for this plant.

The two principal kinds in the ivy, as in other plants, are the male
tree and the female.[2590] The male is said to have a larger trunk
than the female, and a leaf that is harder and more unctuous, with a
flower nearly approaching to purple: indeed, the flower of both the
male and female tree strongly resembles the wild[2591]-rose, were it
not destitute of smell. Each of these kinds of ivy is divided into
three other varieties; the white[2592] ivy, the black,[2593] and a
third known as the helix.[2594] These varieties are again subdivided
into others, as there is one in which the fruit only is white, and
another in which it is only the leaf that is so. In those which have
a white fruit, the berry in some cases is closely packed and large,
the clusters, which are known as “corymbi,” being of a spherical form.
So, too, with the selenitium, which has a smaller berry, and fewer
clusters; and the same is the case with the black ivy. One kind has a
black seed, and another a seed of a saffron[2595] colour—it is this
last that poets use for their chaplets,[2596] and the leaves of it
are not so black as in the other kinds: by some it is known as the
ivy of Nysa, by others as that of Bacchus:[2597] it is the one that
among the black varieties has the largest clusters of all. Some of
the Greek writers even distinguish in this last kind two varieties,
according to the colour of the berries, the erythranum[2598] and the
chrysocarpus.[2599]

It is the helix, however, that has the most peculiarities of all,
and in the appearance of the leaf more particularly, which is small,
angular, and of a more elegant shape, the leaf in all the other kinds
being plain and simple. It differs, too, in the distance between the
joints, and in being barren more especially, as it never bears fruit.
Some authors, however, think that this difference exists solely in
respect of age and not of kind, and are of opinion that what is the
helix when young, becomes the ordinary ivy when old. This, however,
is clearly proved to be an error upon their part, for we find more
varieties of the helix than one, and three in particular—that of a
grass-green colour, which is the most abundant of all, the kind with
a white leaf, and a third, which is parti-coloured, and known as
the Thracian helix. In that of a grass-green colour, the leaves are
smaller, more closely packed together, and symmetrically arranged;
while in the other kinds the features are altogether different. In the
parti-coloured kind, also, one variety has a smaller leaf than usual,
similarly arranged, and lying closer together, while in the other none
of these features are observed. The leaves, too, are either greater or
smaller and differ in the disposition of the spots upon them, and in
the white helix some of them are whiter than others: the grass-green
variety, however, is the one that grows to the greatest height.

The white helix is in the habit of killing trees by depriving them of
their juices, and increases to such a degree of density as to be quite
a tree itself. Its characteristics are, a very large, broad, leaf, and
projecting buds, which in all the other kinds are bent inwards; its
clusters, too, stand out erect. Although, too, all the ivies have arms
that throw out a root, those of this variety are particularly branchy
and strong; next to it in strength, are those of the black ivy.

It is a peculiarity of the white ivy to throw out arms from the middle
of the leaves, with which it invariably embraces any object that may be
on either side of it; this is the case, too, with walls, even though it
should not be able to clasp them. If the trunk is cut across in ever so
many places, it will still live and thrive, having as many fresh roots
as it has arms, by means of which it ensures safety and impunity, while
at the same time it sucks and strangles the trees to which it clings.
There are great differences also in the fruit of both the white ivy
and the black; for in some of them the berry is so bitter that birds
will not touch it. There is an ivy also which grows upright,[2600] and
stands without any support; being the only one that does so among all
the varieties, it has thence obtained the distinctive name of “cissos.”
The chamæcissos,[2601] on the other hand, is never found except
creeping upon the ground.



CHAP. 63. (35.)—THE SMILAX.


Very similar to the ivy is a plant which first came from Cilicia,
but is now more commonly found in Greece, and known by the name of
smilax.[2602] It has numerous thick stalks covered with joints, and
thorny branches of a shrub-like form: the leaf resembles that of the
ivy, but is not angular, while from the foot-stalk it throws out
tendrils; the flower is white, and has the smell of the lily. It bears
clusters like those of the wild vine and not the ivy, and of a reddish
colour. The larger berries contain three stones, the smaller but one
only: these berries are black and hard. This plant is looked upon as
ill-omened, and is consequently banished from all sacred rites, and
is allowed to form no part of chaplets; having received this mournful
character from the maiden Smilax, who upon her love being slighted by
the youth Crocus, was transformed into this shrub. The common people,
being mostly ignorant of this, not unfrequently take it for ivy, and
pollute their festivities with its presence; for who, in fact, is
unaware that the ivy is used as a chaplet by poets, as also by Father
Liber and Silenus? Tablets are made[2603] of the wood of the smilax,
and it is a peculiarity of this wood to give out a slight sound,[2604]
if held close to the ear. It is said that ivy is remarkably efficacious
for testing wine, and that a vessel made of this wood will let the wine
pass through it, while the water will remain behind, if there has been
any mixed with it.[2605]



CHAP. 64. (36.)—WATER PLANTS: THE RUSH: TWENTY-EIGHT VARIETIES OF THE
REED.


Among those plants which thrive best in cold localities, it will be
only proper to mention the aquatic shrubs.[2606] In the first rank, we
find the reed, equally indispensable for the emergencies of war and
peace, and used among the appliances[2607] of luxury even. The northern
nations make use of reeds for roofing their houses, and the stout
thatch thus formed will last for centuries even; in other countries,
too, they make light vaulted ceilings with them. Reeds are employed,
too, for writing upon paper, those of Egypt more particularly, which
have a close affinity to the papyrus: the most esteemed, however, are
the reeds of Cnidos, and those which grow in Asia, on the margin of the
Anaitic Lake[2608] there.

The reed of our country is naturally of a more fungous nature, being
formed of a spongy cartilage, which is hollow within, and covered by a
thin, dry, woody coat without; it easily breaks into splinters, which
are remarkably sharp at the edge. In other respects, it is of a thin,
graceful shape, articulated with joints, and tapering gradually towards
the top, which ends in a thick, hairy tuft. This tuft is not without
its uses, as it is employed for filling the beds used in taverns,
in place of feathers; or else, when it has assumed a more ligneous
consistency, it is pounded, as we see done among the Belgæ, and
inserted between the joints of ships, to close the seams, a thing that
it does most effectually, being more tenacious than glue, and adhering
more firmly than pitch.



CHAP. 65.—REEDS USED FOR ARROWS, AND FOR THE PURPOSE OF WRITING.


It is by the aid of the reed[2609] that the nations of the East decide
their wars; fixing in it a barbed point, they inflict a wound from
which the arrow cannot be withdrawn. By the addition of feathers they
accelerate the flight of this instrument of death, and the weapon, if
it breaks in the wound, furnishes the combatants with a weapon afresh.
With these missiles the warriors darken the very rays of the sun.[2610]
It is for this reason more particularly that they desire a clear and
serene sky, and hold in abhorrence all windy and rainy weather, which
has the effect of compelling them, in spite of themselves, to be at
peace with one another.

If a person were carefully to enumerate the peoples of Æthiopia, Egypt,
Arabia, India, Scythia, Bactria, and Sarmatia, together with all the
numerous peoples of the East, and the vast realms of the Parthians, he
would find that fully one-half of mankind throughout the whole world
live under a dominion imposed by the agency of the arrow. It was their
surpassing excellence in this arm that so ennobled the warriors of
Crete, though in this respect, as well as in all others, Italy has
gained the mastery; there being no reed in existence better adapted for
making arrows than that found in the Rhenus, a river of the territory
of Bononia: filled with a greater quantity of pith than any of the
others, it is light, and easily cleaves the air, while at the same
time it has sufficient weight to resist the action of the wind; an
advantage that is not possessed in an equal degree by those employed
among the Belgæ. These advantages, however, are possessed by the most
approved kinds that are found in Crete, although those of India are
preferred; in the opinion of some persons, however, these last are of
a totally different nature, for by adding a point to them, the natives
are able to use them as lances even. Indeed, we find that in India the
reed grows to the thickness of a tree, a fact which is proved by the
specimens which are everywhere to be seen in our temples. The Indians
assure us that in this plant, too, there is the distinction of male and
female; the body of the male being more compact, and that of the female
of a larger size. In addition to this, if we can credit the fact, a
single compartment between the joints is sufficiently large to answer
the purposes of a boat.[2611] These reeds are found more particularly
on the banks of the river Acesines.

In every variety of the reed a single root gives birth to numerous
stems, and if cut down, they will shoot again with increased fecundity.
The root, which is naturally tenacious of life, is also jointed as well
as the stem. The reeds of India are the only ones in which the leaves
are short; but in all the varieties these leaves take their rise at
the joints, and surround the stem with a fine tissue about half way
upwards to the next joint, and then leave the stem and droop downwards.
The reed, as well as the calamus, although rounded, has two sides,
which throw out leaves alternately from above the joints, in such a
way that when one springs from the right side, the next issues from
the joint above it on the left, and so in turns. Branches, too, shoot
occasionally from the stem, being themselves reeds of diminutive growth.



CHAP. 66.—FLUTE REEDS: THE REED OF ORCHOMENUS; REEDS USED FOR FOWLING
AND FISHING.


The varieties of the reed are numerous. Some are more compact than
others, thicker at the joints, and with a shorter interval between
them; while others, again, are less compact, with longer intervals
between the joints, and not so straight. Another kind of reed is quite
hollow; it is known as the “syringia,”[2612] and is particularly useful
for making flutes, having neither pith in it nor any fleshy substance.
The reed of Orchomenus has a passage in it open from one end to the
other, and is known as the auleticon;[2613] this last is best for
making pipes,[2614] the former[2615] for the syrinx. There is another
reed, the wood of which is thicker, and the passage very contracted,
being entirely filled with a spongy kind of pith. One kind, again, is
shorter, and another longer, the one thinner, the other more thick.
That known as the donax, throws out the most shoots, and grows only in
watery localities; indeed, this is a point which constitutes a very
considerable difference, those reeds being greatly preferred which
grow in a dry soil. The archer’s reed forms a peculiar species, as we
have already stated;[2616] but that of Crete[2617] has the longest
intervals between the joints, and when subjected to heat is capable of
being rendered perfectly pliable[2618] at pleasure. The leaves, too,
constitute different varieties, not only by their number, but their
colour also. The reed of Laconia is spotted,[2619] and throws out a
greater number of shoots at the lower extremities; being very similar
in nature, it is thought, to the reeds that we find growing about
stagnant waters, and unlike those of the rivers, in being covered with
leaves of considerable length; which, climbing upwards, embrace the
stem to a considerable distance above the joints. There is also an
obliquely-spreading reed, which does not shoot upwards to any height,
but spreads out like a shrub, keeping close to the earth; this reed
is much sought by animals when young, and is known by some persons as
the elegia.[2620] There is in Italy, too, a substance found in the
marsh-reeds, called by the name of adarca:[2621] it is only to be found
issuing from the outer skin, below the flossy head of the plant, and is
particularly beneficial to the teeth, having, in fact, an equal degree
of pungency with mustard.

The terms of admiration in which they are spoken of by the ancients
compels me to enter into some more minute details relative to the
reed-beds of Lake Orchomenus. Characias[2622] was the name given there
to a reed of stout and compact quality, while a thinner one was known
as the plotias; this last was to be found growing on the floating
islands there, while the former grew upon the banks that were covered
by the waters of the lake. A third kind again, which had the name of
“auleticon,” was the same that is now known as the musical pipe[2623]
reed. This reed used to take nine years to grow, as it was for that
period that the waters of the lake were continually on the increase;
it used to be looked upon as a prodigy of evil omen, if at the end of
its rise its waters remained overflowing so long as a couple of years;
a thing that was observed at the period of the Athenian disasters at
Cheronæa, and on various other occasions. This lake has the name of
Lebaida, at the part where the river Cephisus enters it.

When this inundation has lasted so long as a year, the reed is found
large enough to be available for the purposes of fowling: at this
period it used to be called zeugites.[2624] On the other hand, when
the waters subsided at an earlier period, the reeds were known as
bombyciæ,[2625] being of a more slender form. In this variety, too,
the leaf of the female plant was broader and whiter than that of the
others, while that upon which there was little or no down bore the
name of the eunuch reed. The stem of this last variety was used for
the manufacture of concert[2626] flutes. I must not here pass by in
silence the marvellous care which the ancients lavished upon these
instruments, a thing which will, in some measure, plead as an apology
for the manufacture of them at the present day of silver in preference.
The reed used to be cut, as it was then looked upon as being in the
best condition, at the rising of Arcturus;[2627] an usage which
prevailed down to the time of Antigenides, the musician, and while
flute-playing was of a more simple style. Being thus prepared, the
reeds became fit for use in the course of a few years. At that period
even the reed required considerable seasoning to render it pliable,
and to be instructed, as it were, in the proper modulation of its
sounds; the mouth-piece and stops[2628] being naturally contracted,
and so producing a music better adapted to the theatrical taste of
the day. But in later times, when the music became more varied, and
luxury began to exercise its influence upon the musical taste, it
became the general usage to cut the reeds before the summer solstice,
and to make them fit for use at the end of three months; the stops and
mouth-piece being found, when the reeds were cut at that period, to be
more open and better adapted for the modifications of sound: it is in
this state that the reed is used for similar purposes at the present
day. In those times it was a very general persuasion also, that every
pipe ought to have the tongue of its own mouth-piece cut from the same
reed as itself, and that a section from the part nearest the root
was best adapted to form the left-handed flute,[2629] and from the
part adjoining the top the right-handed one: those reeds, too, were
considered immeasurably superior, which had been washed by the waters
of Cephisus itself.

At the present day the sacrificial pipes used by the Tuscans are
made of box-wood, while those employed at the games are made of the
lotus,[2630] the bones of the ass, or else silver. The fowler’s reeds
of the best quality are those of Panormus,[2631] and the best reeds for
fishing-rods come from Abarita in Africa.[2632]



CHAP. 67.—THE VINE-DRESSERS’ REED.


The reed is employed in Italy more particularly, as a support for
the vine. Cato[2633] recommends that it should be planted in a damp
situation, the soil being first turned up with a double mattock, and a
distance of three feet left between the young[2634] layers; he says,
too, that the wild asparagus[2635] from which the cultivated species is
produced, may be planted together with it, as they agree particularly
well together.

(37.) He says also that the willow may be planted in its vicinity, than
which there is no aquatic plant of more general utility, although the
poplar may be preferred for the training of the vine, and the support
of the Cæcuban grape; although, too, the alder affords a more efficient
protection by the hedges it forms, and, planted in the very water,
makes a rampart along the banks in defence of the adjoining country
against the violence of the rivers when they overflow; when cut down,
too, this last tree is useful for the innumerable suckers which it
throws out.



CHAP. 68.—- THE WILLOW: EIGHT VARIETIES OF IT.


Of the willow, too, there are several varieties. One[2636] of them
throws out its branches to a considerable height; and these, coupled
together, serve as perches for the vine, while the bark around the
tree itself is used for withes.[2637] Others,[2638] again, of a more
pliable nature, supply a flexible twig, which is used for the purpose
of tying; while others throw out osiers of remarkable thinness, adapted
by their suppleness and graceful slenderness for the manufacture of
wicker-work.[2639] Others, again, of a stouter make, are used for
weaving panniers, and many other utensils employed in agriculture;
while from a whiter willow the bark is peeled off, and, being
remarkably tractable, admits of various utensils being made of it,
which require a softer and more pliable material than leather: this
last is also found particularly useful in the construction of those
articles of luxury, reclining chairs. The willow, when cut, continues
to thrive, and, indeed, throws out more thickly from the top, which,
when closely clipped, bears a stronger resemblance to a closed fist
than the top of a stump. It is a tree, which, in my opinion, deserves
to be placed by no means in the lowest rank of trees; for there is none
that will yield a more certain profit, which can be cultivated at less
expense, or which is less liable to be influenced by changes in the
weather.



CHAP. 69.—TREES IN ADDITION TO THE WILLOW, WHICH ARE OF USE IN MAKING
WITHES.


Cato[2640] considers the culture of the willow as deserving to hold the
third rank in estimation, and he gives it precedence to the cultivation
of the olive, tillage for corn, or laying out land for pasture. It is
not, however, because the willow is the only tree that produces withes;
for they may be procured also from the broom, the poplar, the elm,
the blood-red cornel, the birch, and the reed itself when split, or
else the leaves of that plant, as we know to be the case in Liguria.
The vine, also, will furnish them; the bramble, too, with the thorns
removed, as well as the twisted hazel. It is a very singular thing,
that a wood after it has been beaten and pounded should be found all
the stronger for making withes, but such is a striking peculiarity that
exists in the willow. The Greek red[2641] willow is split for this
purpose: while the willow[2642] of Ameria is whiter but more brittle,
for which reason it is used in an uncut state for tying. In Asia there
are three varieties known of the willow; the black[2643] willow, which
is best adapted for making withes, the white willow, employed for
various agricultural purposes, and a third, which is shorter than the
others, and known as the helix.[2644]

With us, also, there is the same number of denominations given to as
many varieties of the willow; one being known as the viminal or purple
willow,[2645] another as the nitelina,[2646] from its resemblance to
the colour of the nitela, thinner in the trunk than the preceding one,
and the third as the Gallic[2647] kind, being the thinnest of them all.



CHAP. 70.—RUSHES: CANDLE-RUSHES: RUSHES FOR THATCHING.


The rush,[2648] so frail in form, and growing in marshy spots, cannot
be reckoned as belonging to the shrubs, nor yet to the brambles or the
stalk plants; nor, indeed, in strict justice, to any of the classes of
plants except one that is peculiarly its own. It is extensively used
for making thatch and matting, and, with the outer coat taken off, for
making candles and funeral torches. In some places, however, the rush
is more hard and firm: thus, for instance, it is employed not only
by the sailors on the Padus for making the sails of boats, but for
the purposes of sea-fishing as well, by the fishermen of Africa, who,
in a most preposterous manner, hang the sails made of it behind the
masts.[2649] The people, too, of Mauritania thatch their cottages[2650]
with rushes; indeed, if we look somewhat closely into the matter, it
will appear that the rush is held in pretty nearly the same degree
of estimation there as the papyrus is in the inner regions of the
world.[2651]



CHAP. 71.—THE ELDER: THE BRAMBLE.


Of a peculiar nature, too, though to be reckoned among the
water[2652]-plants, is the bramble, a shrub-like plant, and the elder,
which is of a spongy nature, though not resembling giant fennel,
from having upon it a greater quantity of wood. It is a belief among
the shepherds that if they cut a horn or trumpet from the wood of
this tree, it will give all the louder sound if cut in a spot where
the shrub has been out of hearing of the crowing of the cock. The
bramble bears mulberries,[2653] and one variety of it, known as the
cynosbatos,[2654] bears a flower similar to the rose. There is a third
variety, known to the Greeks as the Idæan[2655] bramble, from the place
where it grows: it is slighter than the others, with smaller thorns,
and not so hooked. Its flower, mixed with honey, is employed as an
ointment for sore eyes and erysipelas: and an infusion of it in water
is used for diseases of the stomach.[2656]

The elder[2657] bears a small black berry, which contains a viscous
juice, employed more particularly for staining[2658] the hair. The
berries, too, are boiled in water and eaten.[2659]



CHAP. 72. (38.)—THE JUICES OF TREES.


There is a juice in the bark of trees, which must be looked upon as
their blood, though it is not of a similar nature in all. In the fig it
is of a milky consistency, and has the peculiar property of curdling
milk, and so forming cheese.[2660] In the cherry-tree this juice is
gummy, in the elm clammy, in the apple viscous and fatty, while in the
vine and the pear it is watery. The more viscous this humour is, the
more long-lived the tree. In a word, we find in the bodies of trees—as
with all other beings that are animated—skin, blood, flesh, sinews,
veins, bones, and marrow; the bark serving them in place of skin. It is
a singular fact connected with the mulberry-tree, that when the medical
men wish to extract its juice, if the incision is lightly made, by a
blow with a stone, and at the second hour of the day in spring, the
juice will flow: but if, on the other hand, a wound is inflicted to any
depth, it has all the appearance of being dried up.

Immediately beneath the bark in most trees there is a fatty substance,
which, from its colour, has obtained the name of alburnum:[2661] it is
soft, and is the very worst part of the wood, and in the robur even
will very easily rot, being particularly liable to wood-worm, for which
reason it is invariably removed. Beneath this fat lies the flesh[2662]
of the tree, and then under that, its bones, or, in other words, the
choicest part of the wood. Those trees which have a dry wood, the
olive, for instance, bear fruit every other year only: this is more the
case with them than with those the wood of which is of a fleshy nature,
such as the cherry, for instance. It is not all trees, too, that have
this fat and flesh in any abundance, the same as we find to be the
case among the more active animals. The box, the cornel, and the olive
have none at all, nor yet any marrow, and a very small proportion,
too, of blood. In the same way, too, the service-tree has no bones,
and the elder no flesh, while both of them have marrow in the greatest
abundance. Reeds, too, have hardly any flesh.



CHAP. 73.—THE VEINS AND FIBRES OF TREES.


In the flesh of some trees we find both fibres[2663] and veins: they
are easily distinguished. The veins[2664] are larger, while the fibres
are of whiter material, and are to be found in those woods more
particularly which are easily split. Hence it is that if the ear is
applied to the extremity of a beam of wood, however long, a tap with
a graver[2665] even upon the other end may be distinctly heard, the
sound penetrating by the passages which run straight through it: by
these means it is that we ascertain whether timber runs awry, or is
interrupted by knots. The tuberosities which we find on trees resemble
the kernels[2666] that are formed in flesh: they contain neither
veins nor fibres, but only a kind of tough, solid flesh, rolled up in
a sort of ball: it is these tuberosities that are the most esteemed
parts[2667] in the citrus and the maple. As to the other kinds of wood
which are employed for making tables, the trees are split into planks
lengthwise, and the parts are then selected along which the fibres
run, and properly rounded; for the wood would be too brittle to use if
it were cut in segments crosswise.[2668] In the beech, the grain of
the fibrous part runs crosswise;[2669] hence it is that the ancients
held in such high esteem all vessels made with the wood of it. Manius
Curius made oath, on one occasion, that he had not touched an article
of all the spoil except a single oil cruet[2670] of beech, to use for
sacrificing. Wood is always put lengthwise into the water to season,
as that part which was nearest the root will sink to a greater[2671]
depth than the other. In some wood there is fibre, without veins,
and merely consisting of filaments slightly knit together: wood of
this nature is remarkably fissile. Other wood, again, is more easily
broken across than split, such as the wood of those trees that have no
fibre, the olive and the vine, for instance: on the other hand, in the
fig-tree, the whole of the body consists of flesh.[2672] The holm-oak,
the cornel, the robur, the cytisus, the mulberry, the ebony, the lotus,
and the other trees which we have mentioned[2673] as being destitute
of marrow, consist entirely of bone.[2674] All these woods are of a
blackish colour, with the exception of the cornel, of which glossy
yellow hunting-spears are made, marked with incisions for their further
embellishment. In the cedar, the juniper, and the larch, the wood is
red.

(39.) In Greece the female larch furnishes a wood[2675] which is known
as ægis, and is just the colour of honey. This wood has been found to
be proof against decay, and forms the pannels used by painters, being
never known to gape or split; the portion thus employed is that which
lies nearest to the pith. In the fir-tree this part is called “leuson”
by the Greeks. In the cedar, too, the hardest part is the wood that
lies nearest to the sap: after the slimy[2676] pith has been carefully
removed, it has a similar degree of hardness to the bones in the bodies
of animals. It is said, too, that in Greece the inner part of the elder
is remarkably firm: indeed, those whose business it is to make hunting
spears, prefer this material to all others, it being a wood composed
wholly of skin and bone.



CHAP. 74.—THE FELLING OF TREES.


The proper time for felling trees that are wanted for barking, the
round, tapering trees, for instance, that are employed in temples and
for other purposes, is at the period of germination:[2677] for at
other times it is quite impossible to detach the bark from the rotten
wood that adheres to it, while the wood itself assumes a blackish
hue. Squared logs, and wood from which the bark has been lopped, are
generally cut in the period that intervenes between the winter solstice
and the prevalence of the west winds; or else, if it is necessary to
anticipate that period, at the setting of Arcturus and before that of
the Lyre, the very earliest period being the summer solstice: the days
of these respective constellations will be mentioned in the appropriate
place.[2678]

In general it is looked upon as quite sufficient to use all due
precaution that a tree is not rough-hewn before it has borne its
yearly crop. The robur, if cut in spring, is subject to the attacks
of wood-worm, but if cut in winter, will neither rot nor warp:
otherwise it is very liable to bend and become awry, as well as to
crack; the same is the case, too, with the cork-tree, even if cut
down at the proper time. The state of the moon,[2679] too, is of
infinite importance, and it is generally recommended that trees
should be cut only between the twentieth and the thirtieth days of
the month. It is generally agreed, however, by all, that it is the
very best time for felling timber, when the moon is in conjunction
with the sun, a day which is called by some persons the interlunium,
and by others the moon’s silence. At all events, it was under these
circumstances that Tiberius Cæsar gave orders for the larches to be
cut in Rhætia, that were required for the purpose of rebuilding the
bridge of the Naumachia[2680] after it had been destroyed by fire.
Some persons say that the moon ought not only to be in conjunction,
but below the horizon as well, a thing that can only happen in the
night. If the conjunction should chance to fall on the very day of the
winter solstice, the timber, they say, that is then felled will be of
everlasting duration; the next best being the timber that is cut when
the conjunction coincides with the constellations previously mentioned.
There are some, too, who add the rising of the Dog-star as a favourable
time, and say that it was at this period that the timber was cut which
was employed in building the Forum of Augustus.

Wood which is intended for timber ought to be cut neither when too
young nor too old. Some persons, too—and the practice is by no means
without its utility—cut round[2681] the tree as far as the pith, and
then leave the timber standing, so that all the juices may be enabled
to escape. Going back to ancient times, it is a remarkable fact, that
in the first Punic War the fleet commanded by Duillius was on the water
within sixty days from the time the timber was cut: and, what is still
more so, Piso relates that King Hiero had two hundred and twenty ships
wholly constructed in forty-five days: in the second Punic War, too,
the fleet of Scipio was at sea the fortieth day after the axe had been
put to the tree. Such is the energy and dispatch that can be displayed
on occasions of emergency.



CHAP. 75.—THE OPINION OF CATO ON THE FELLING OF TIMBER.


Cato,[2682] a man of consummate authority in all practical matters,
expresses himself in relation to timber to the following effect:—“For
making presses, employ the wood of the sappinus in preference. When
you root up the elm, the pine, the nut-tree, or, indeed, any other
kind of tree, mind and do so when the moon is on the wane, after
midday, and when there is no south wind blowing. The proper time for
cutting a tree is when the seed[2683] is ripe, but be careful not to
draw it away or plane it while the dew is falling.” He then proceeds
to say[2684]—“Never touch the timber, except when the moon is on the
change, or else at the end of the second quarter: at those periods you
may either root up the tree, or fell it as it stands. The next seven
days after the full moon are the best of all for grubbing up a tree. Be
particularly careful, too, not to rough-hew timber, or, indeed, to cut
or touch it, unless it is perfectly dry; and by no means while it is
covered with frost or dew.”

The Emperor Tiberius used also to observe the changes of the moon for
cutting his hair.[2685] M. Varro[2686] has recommended that the hair
should be cut at full moon only, if we would avoid baldness.



CHAP. 76.—THE SIZE OF TREES: THE NATURE OF WOOD: THE SAPPINUS.


From the larch, and still more the fir, after it has been cut, a
liquid[2687] flows for a considerable period: these are the loftiest
and straightest of all the trees. The fir is preferred for making the
masts and sailyards of ships, on account of its comparative lightness.
It is a common feature with these trees, in common with the pine,
to have four rows of veins running along the wood, or else two, or
sometimes only one. The heart[2688] of these trees is peculiarly well
adapted for joiners’ work, and the best wood of all is that which has
four layers of veins, it being softer than the rest: men of experience
in these matters can instantly form a judgment of the quality from
the bark. That part in the fir which is nearest to the ground is free
from knots: when soaked in river water in the way we have already
mentioned,[2689] and then barked, the wood of this part is known[2690]
as sappinus; while that of the upper part, which is harder and knotty,
goes by the name of “fusterna.” In trees, the side which looks towards
the north-east is the most robust, and it is universally the case, that
those which grow in moist and damp localities are of inferior quality,
while in those which grow in warm and sunny spots, the wood is more
compact and durable; hence it is, that at Rome the fir is preferred
that grows on the shores of the Tyrrhenian Sea to that of the shores of
the Adriatic.

There are also considerable differences in the qualities of these trees
according to the country of their growth: the most esteemed are those
of the Alps and the Apennines; in Gaul, those of Jura[2691] and Mount
Vogesus; those also of Corsica, Bithynia, Pontus, and Macedonia; while
the firs of Ænea[2692] and Arcadia are of inferior quality. Those,
however, of Parnassus and Eubœa are the worst of all, the trees being
branchy and knotted, and the wood very apt to rot. As for the cedar,
those of Crete, Africa, and Syria are the most esteemed. Wood, if well
rubbed with oil of cedar, is proof against wood-worm and decay. The
juniper, too, has the same[2693] virtues as the cedar; in Spain it
grows to a very considerable size, in the territory of the Vaccæi[2694]
more particularly: the heart of this tree, too, is universally more
firm and solid than cedar even. A general fault in all wood is that
known as cross-grain, which is formed by contortions of the knots
and veins.[2695] In the wood of some trees there are to be found
knurs,[2696] like those in marble; these knurs are remarkably hard, and
offer a resistance like that of a nail, to the great injury of the saw:
in some cases, also, they are formed accidentally, from either a stone,
or the branch of another tree lodging there, and being absorbed in the
body of the tree.

In the Forum at Megara there long stood a wild olive upon which
warriors who had distinguished themselves by their martial powers
had been in the habit of suspending their arms. In the lapse of time
the bark of this tree had closed, and quite concealed these arms from
view. Upon it, however, depended the fate of the city; for it had been
announced by an oracle, that when a tree there should bring forth arms,
the fall of the city would be close at hand: and such, in fact, was
the result, when the tree was cut down and greaves and helmets were
found within the wood.[2697] It is said that stones found under these
circumstances have the property of preventing abortion.

(40.) It is generally thought that the largest[2698] tree that has ever
been seen, was the one that was exhibited at Rome, by Tiberius Cæsar,
as an object of curiosity, upon the bridge of the Naumachia previously
mentioned.[2699] It had been brought thither along with other timber,
and was preserved till the construction of the amphitheatre of the
Emperor Nero:[2700] it was a log of larch, one hundred and twenty feet
long, and of an uniform thickness of a couple of feet. From this fact
we can form an estimate of the original height of the tree; indeed,
measured from top to bottom it must have been originally of a length
that is almost incredible. In our own time, too, in the porticos of the
Septa,[2701] there was a log which had been left there by M. Agrippa,
as being equally an object of curiosity, having been found too large to
be used in the building of the vote office[2702] there: it was twenty
feet shorter than the one previously mentioned, and a foot-and-a-half
in thickness. There was a fir, too, that was particularly admired, when
it formed the mast of the ship, which brought from Egypt, by order of
the Emperor Caius,[2703] the obelisk[2704] that was erected in the
Vaticanian Circus, with the four blocks of stone intended for its base.
It is beyond all doubt that there has been seen nothing on the sea
more wonderful than this ship: one hundred and twenty thousand modii
of lentils formed its ballast; and the length of it took up the greater
part of the left side of the harbour at Ostia. It was sunk at that spot
by order of the Emperor Claudius, three moles, each as high as a tower,
being built upon it; they were constructed with cement[2705] which the
same vessel had conveyed from Puteoli. It took the arms of four men
to span the girth of this tree, and we not unfrequently hear of the
price of masts for such purposes, as being eighty thousand sesterces or
more: rafts, too, of this wood are sometimes put together, the value
of which is forty thousand. In Egypt and Syria, it is said, the kings,
for want of fir, used to employ cedar[2706] for building their ships:
the largest cedar that we find mentioned is said to have come from
Cyprus, where it was cut to form the mast of a galley of eleven tiers
of oars that belonged to Demetrius: it was one hundred and thirty feet
in length, and took three men to span its girth. The pirates of Germany
navigate their seas in vessels formed of a single tree hollowed[2707]
out: some of these will hold as many as thirty men.

Of all woods, the most compact, and consequently the heaviest, are the
ebony and the box, both of them of a slender make. Neither of these
woods will float in water, nor, indeed, will that of the cork tree,
if the bark is removed; the same is the case, too, with the wood of
the larch. Of the other woods, the driest is that of the tree known at
Rome as the lotus,[2708] and next, that of the robur, when the white
sap has been removed. The wood of the robur is dark, and that of the
cytisus[2709] still more so, approaching, in fact, the nearest of all
to the colour of ebony; though there are not wanting writers who assert
that the wood of the Syrian terebinth is darker.[2710] An artist of the
name of Thericles is highly spoken of for his skill in turning goblets
from the wood of the terebinth: and, indeed, that fact is a proof of
the goodness of the wood. Terebinth is the only wood that requires to
be rubbed with oil, and is improved thereby. Its colour is imitated
remarkably well with the walnut and the wild pear, which have its
peculiar tint imparted to them by being boiled in colouring liquid.
The wood of all the trees of which we have here made mention is firm
and compact. Next after them comes the cornel, although it can hardly
be looked upon as timber, in consequence of its remarkable slimness;
the wood of it, in fact, is used for hardly any other purpose than the
spokes of wheels, or else for making wedges for splitting wood, and
pins or bolts, which have all the hardness of those of iron. Besides
these, there are the holm-oak, the wild and the cultivated olive, the
chesnut, the yoke-elm, and the poplar. This last is mottled similarly
to the maple, and would be used for joiners’ work if wood could be good
for anything when the branches are so often lopped: that acting upon
the tree as a sort of castration, and depriving it of its strength.
In addition to these facts, most of these trees, but the robur more
particularly, are so extremely hard, that it is quite impossible to
bore the wood till it has been soaked in water; and even then, a nail
once driven home cannot be drawn out again. On the other hand, a nail
has no[2711] hold in cedar. The wood of the lime is the softest of all,
and, as it would appear, the hottest by nature; a proof of this, they
say, is the fact that it will turn the edge of the adze sooner than any
other wood.[2712] In the number, also, of the trees that are hot by
nature, are the mulberry, the laurel, the ivy, and all those woods from
which fire is kindled by attrition.



CHAP. 77.—METHODS OF OBTAINING FIRE FROM WOOD.


This is a method[2713] which has been employed by the outposts of
armies, and by shepherds, on occasions when there has not been a stone
at hand to strike fire with. Two pieces of wood are rubbed briskly
together, and the friction soon sets them on fire; which is caught on
dry and inflammable substances, funguses and leaves being found to
ignite the most readily. There is nothing superior to the wood of the
ivy for rubbing against, or to that of the laurel for rubbing with.
A species of wild vine,[2714] too—not the same as the labrusca—which
climbs up other trees like the ivy, is highly approved of. The
coldest[2715] woods of all are those of the aquatic trees; but they are
the most flexible also, and for that reason the best adapted for the
construction of bucklers. On an incision being made in them, they will
contract immediately, and so close up their wounds, at the same time
rendering it more difficult for the iron to penetrate: in the number of
these woods are the fig, the willow, the lime, the birch, the elder,
and both varieties of the poplar.

The lightest of all these woods, and consequently the most useful, are
the fig and the willow. They are all of them employed, however, in the
manufacture of baskets and other utensils of wicker-work; while, at
the same time, they possess a degree of whiteness and hardness which
render them very well adapted for carving. The plane has considerable
flexibility, but it is moist and slimy like the alder. The elm, too,
the ash, the mulberry, and the cherry, are flexible, but of a drier
nature; the wood, however, is more weighty. The elm is the best of all
for retaining its natural toughness, and hence it is more particularly
employed for socket beams for hinges, and cases for the pannelling of
doors, being proof against warping. It is requisite, however, that the
beam to receive the hinge should be inverted when set up, the top of
the tree answering to the lower hinge, the root to the upper. The wood
of the palm and the cork-tree is soft, while that of the apple and the
pear is compact. Such, however, is not the case with the maple, its
wood being brittle, as, in fact, all veined woods are. In every kind
of tree, the varieties in the wood are still more augmented by the
wild trees and the males. The wood, too, of the barren tree is more
solid than that of the fruit-bearing ones, except in those species in
which the male trees[2716] bear fruit, the cypress and the cornel, for
instance.



CHAP. 78.—TREES WHICH ARE PROOF AGAINST DECAY: TREES WHICH NEVER SPLIT.


The following trees are proof against decay and the otherwise
injurious effects of age—the cypress, the cedar, the ebony, the lotus,
the box, the yew, the juniper, and both the wild and cultivated olive.
Among the others, the larch, the robur, the cork-tree, the chesnut, and
the walnut are also remarkably durable. The cedar, cypress, olive, and
box are never known to split or crack spontaneously.



CHAP. 79.—HISTORICAL FACTS CONNECTED WITH THE DURABILITY OF WOOD.


Of all the woods, the ebony, the cypress, and the cedar are considered
to be the most durable, a good proof of which is to be seen in the
timber of which the Temple of Diana at Ephesus is built: it being now
four hundred years since it was erected, at the joint expense of the
whole of Asia;[2717] and, what is a well-known fact, the roof is wholly
constructed of planks of cedar. As to the statue of the goddess, there
is some doubt of what wood it is made; all the writers say that it is
ebony, with the exception of Mucianus, who was three times consul, one
of the very latest among the writers that have seen it; he declares
that it is made of the wood of the vine, and that it has never been
changed all the seven times that the temple has been rebuilt. He says,
too, that it was Endæus who made choice of this wood, and even goes
so far as to mention the artist’s name, a thing that really surprises
me very much, seeing that he attributes to it an antiquity that dates
before the times of Father Liber, and of Minerva even. He states, also,
that, by the aid of numerous apertures, it is soaked with nard, in
order that the moist nature of that drug may preserve the wood and keep
the seams[2718] close together: I am rather surprised, however, that
there should be any seams in the statue, considering the very moderate
size it is. He informs us, also, that the doors are made of cypress,
and that the wood, which has now lasted very nearly four hundred years,
has all the appearance of new.[2719] It is worthy of remark, too, that
the wood of these doors, after the pieces had been glued together, was
left to season four years before they were put up: cypress was made
choice of from the circumstance that it is the only kind of wood that
maintains its polish to all future time.

And have we not the statue of Vejovis,[2720] also, made of cypress,
still preserved in the Capitol, where it was consecrated in the year
of the City 661? The Temple of Apollo, too, at Utica, is equally
celebrated: there we may see beams of cedar still in existence, and in
just the same condition in which they were when erected at the first
building of that city, eleven hundred and seventy-eight years ago. At
Saguntum, too, in Spain, there is a temple of Diana, which was brought
thither by the original founders of the place, from the island of
Zacynthus, in the year 200 before the taking of Troy, Bocchus says—It
is preserved beneath the town, they say. Hannibal, being induced
thereto by feelings of religious veneration, spared this temple, and
its beams, made of juniper, are still in existence at this very day.
But the most memorable instance of all is that of the temple which
was dedicated to the same goddess at Aulis, several ages before the
Trojan War: of what wood, however, it was originally built is a fact
that has been long lost in oblivion. Speaking in general terms, we may
say that those woods are of the greatest durability which are the most
odoriferous.[2721]

Next to those woods of which we have just spoken, that of the mulberry
is held in the highest degree of esteem, and it will even turn black
when old. There are some trees, again, that are more durable than
others, when employed for certain purposes. The wood of the elm lasts
the best in the open air, that of the robur when buried in the ground,
and that of the quercus when exposed to the action of water: indeed,
the wood of this last, if employed in works above ground, is apt to
split and warp. The wood of the larch thrives best in the midst of
moisture; the same is the case, too, with that of the black alder. The
wood of the robur spoils by exposure to the action of sea-water. The
beech and the walnut are far from disapproved of for constructions
under water, and, in fact, these are the principal woods, too, that
are used for works under ground: the same is the case, also, with the
juniper; which is equally serviceable when exposed to the atmosphere.
The woods of the beech and the cerrus[2722] very quickly deteriorate,
and that of the æsculus will not withstand the action of water. On
the other hand, the alder, when driven into the ground in marshy
localities, is of everlasting duration, and able to support the very
heaviest weights. The wood of the cherry is strong, while those of
the elm and the ash are pliable, though apt to warp: these last will
still retain their flexibility, and be less liable to warp, if the wood
is left to stand and dry upon the trunk after the pith has been cut
around.[2723] It is said that the larch, when used for sea-going ships,
is liable to the attacks[2724] of the teredo, as, in fact, all the
woods are, with the exception of the wild and cultivated olive. It is a
fact, too, that there are some woods that are more liable to spoil in
the sea, and others in the ground.



CHAP. 80. (41.)—VARIETIES OF THE TEREDO.


There are four kinds of insects that attack wood. The teredo has a
head remarkably large in proportion to the other part of the body, and
gnaws away the wood with its teeth: its attacks, however, are confined
solely to the sea, and it is generally thought that this is the only
insect that is properly so called. The wood-worm that prevails on the
land is known as the “tinea,” while those which resemble a gnat in
appearance are called “thripes.” The fourth kind of wood-worm belongs
to the maggot class; some of them being engendered by the corruption
of the juices of the wood itself, and others being produced, just
as in the trees, by the worm known as the cerastes.[2725] When this
worm has eaten away enough of the wood to enable it to turn round, it
gives birth to another. The generation of these insects is prevented,
however, by the bitterness that exists in some woods, the cypress, and
the hardness of others, the box, for instance.

It is said, too, that the fir, if barked about the time of budding, and
at the period of the moon already mentioned,[2726] will never spoil in
water. The followers of Alexander the Great have left a statement that,
at Tylos, an island in the Red Sea, there are trees, of which ships
are built, the wood of which has been found uninjured at the end of two
hundred years,[2727] even if it has been under water all that time.
They say, also, that in the same island there is a certain shrub,[2728]
about the thickness of a walking-stick only, and spotted like a tiger’s
skin: it is very heavy, and will break like glass if it happens to fall
upon a hard substance.



CHAP. 81. (42.)—THE WOODS USED IN BUILDING.


We have in Italy some woods that are apt to split of themselves: to
prevent this, architects recommend that they should be first seasoned
in manure[2729] and then dried, in order to render them proof against
the action of the atmosphere. The woods of the fir and larch are well
adapted, even when used transversely, for the support of heavy burdens;
while the robur and the olive are apt to bend and give way under a
weight. The wood of the poplar and the palm are also strong, but this
last will bend, though in a manner different from the others; for,
while in all other instances the wood bends downwards, in the palm it
bends in the contrary direction,[2730] and forms an arch. The woods
of the pine and the cypress are proof against decay and all attacks
of wood-worm. The walnut is easily warped, but we sometimes see beams
even made of it. It gives warning, however, before it breaks, by a loud
cracking noise; such was the case at Antandros, at the public baths
there—the bathers took the alarm upon hearing the beams crack, and made
their escape. The pine, the pitch-tree, and the alder are employed for
making hollow pipes for the conveyance of water, and when buried in the
earth will last for many years. If, however, they are not well covered
over, they will very soon rot; and the resistance they offer to decay
will increase in a most surprising degree if the outer surface as well
is left in contact with the water.



CHAP. 82.—CARPENTERS’ WOODS.


The wood of the fir is strongest in a vertical[2731] position: it is
remarkably well adapted for the pannels of doors, and all kinds of
in-door joiners’ work, whether in the Grecian, the Campanian, or the
Sicilian style. The shavings of this wood when briskly planed, always
curl up in circles like the tendrils of the vine. This wood, too,
unites particularly well with glue: it is used in this state for making
vehicles, and is found to split sooner in the solid parts than in a
place where the pieces have been glued together.



CHAP. 83. (43.)—WOODS UNITED WITH GLUE.


Glue, too, plays one of the principal parts in all veneering and works
of marqueterie. For this purpose, the workmen usually employ wood
with a threaded vein, to which they give the name of “ferulea,” from
its resemblance to the grain of the giant fennel,[2732] this part of
the wood being preferred from its being dotted and wavy. In every
variety there are some woods to be found that will not take the glue,
and which refuse to unite either with wood of the same kind or of any
other; the wood of the robur for example. Indeed, it is mostly the case
that substances will not unite unless they are of a similar nature; a
stone, for instance, cannot be made to adhere to wood. The wood of the
service-tree, the yoke-elm, the box, and, in a less degree, the lime,
have a particular aversion to uniting with the cornel. All the yielding
woods which we have already spoken[2733] of as flexible readily adapt
themselves to every kind of work; and in addition to them, the mulberry
and the wild fig. Those which are moderately moist are easily sawn
and cut, but dry woods are apt to give way beyond the part that is
touched by the saw; while, on the other hand, the green woods, with the
exception of the robur and the box, offer a more obstinate resistance,
filling the intervals between the teeth of the saw with sawdust, and
rendering its edge uniform and inert; it is for this reason that the
teeth are often made to project right and left in turns, a method by
which the saw-dust is discharged. The ash is found the most pliable
wood of all for working; and, indeed, for making[2734] spears it is
better even than the hazel, being lighter than the cornel, and more
pliable than the wood of the service-tree. The Gallic variety is so
supple, that it is employed in the construction of vehicles even. The
elm would rival the trunk of the vine[2735] for some purposes, were it
not that its weight is so much against it.



CHAP. 84.—VENEERING.


The wood, too, of the beech is easily worked, although it is brittle
and soft. Cut into thin layers of veneer, it is very flexible, but is
only used for the construction of boxes and desks. The wood, too, of
the holm-oak is cut into veneers of remarkable thinness, the colour
of which is far from unsightly; but it is more particularly where it
is exposed to friction that this wood is valued, as being one to be
depended upon; in the axle-trees of wheels, for instance; for which the
ash is also employed, on account of its pliancy, the holm-oak for its
hardness, and the elm, for the union in it of both those qualities.
There are also various workman’s tools made of wood, which, though
but small, are still remarkably useful; in this respect, it is said
that the best materials for making auger handles are the wild olive,
the box, the holm-oak, the elm, and the ash. Of the same woods also
mallets are made; the larger ones, however, are made of the pine and
the holm-oak. These woods, too, have a greater degree of strength
and hardness if cut in season than when hewn prematurely; indeed, it
has been known for hinge-jambs, made of olive, a wood of remarkable
hardness, after having remained a considerable time on the spot, to
put out buds[2736] like a growing plant. Cato[2737] recommends levers
to be made of holly, laurel, or elm; and Hyginus speaks highly of the
yoke-elm, the holm-oak, and the cerrus, for the handles of agricultural
implements.

The best woods for cutting into layers, and employing as a veneer for
covering others, are the citrus, the terebinth, the different varieties
of the maple, the box, the palm,[2738] the holly, the holm-oak, the
root of the elder, and the poplar. The alder furnishes also, as already
stated,[2739] a kind of tuberosity, which is cut into layers like those
of the citrus and the maple. In all the other trees the tuberosities
are of no value whatever. It is the central part of trees that is most
variegated, and the nearer we approach to the root the smaller are the
spots and the more wavy. It was in this appearance that originated that
requirement of luxury which displays itself in covering one tree with
another, and bestowing upon the more common woods a bark of higher
price. In order to make a single tree sell many times over, laminæ
of veneer have been devised; but that was not thought sufficient—the
horns of animals must next be stained of different colours, and their
teeth cut into sections, in order to decorate wood with ivory, and, at
a later period, to veneer it all over. Then, after all this, man must
go and seek his materials in the sea as well! For this purpose he has
learned to cut tortoise-shell into sections; and of late, in the reign
of Nero, there was a monstrous invention devised of destroying its
natural appearance by paint, and making it sell at a still higher price
by a successful imitation of wood.

It is in this way that the value of our couches is so greatly enhanced;
it is in this way, too, that they bid the rich lustre of the terebinth
to be outdone, a mock citrus to be made that shall be more valuable
than the real one, and the grain of the maple to be feigned. At one
time luxury was not content with wood; at the present day it sets us on
buying tortoise-shell in the guise of wood.



CHAP. 85. (44.)—THE AGE OF TREES. A TREE THAT WAS PLANTED BY THE FIRST
SCIPIO AFRICANUS. A TREE AT ROME FIVE HUNDRED YEARS OLD.


The life of some trees might really be looked upon as of infinite[2740]
duration, if we only think of the dense wilds and inaccessible forests
in some parts of the world. In relation, however, to those, the date
of which is still within the memory of man, there are some olive-trees
still in existence at Liternum, which were planted by the hand of the
first Scipio Africanus, as also a myrtle there of extraordinary size;
beneath them there is a grotto, in which, it is said, a dragon keeps
watch over that hero’s shade. There is a lotus[2741] tree in the open
space before the Temple of Lucina at Rome, which was built in the year
of the City 379, a year in which the republic had no[2742] magistrates.
How much older the tree is than the temple, is a matter of doubt; but
that it is older is quite certain, for it was from that same grove that
the goddess Lucina[2743] derived her name; the tree in question is now
about four hundred and fifty years old. The lotus tree, which is known
as the Capillata, is still older than this, though it is uncertain what
is its age; it received that name from the circumstance of the Vestal
Virgins suspending locks of their hair[2744] from it.



CHAP. 86.—TREES AS OLD AS THE CITY.


There is another lotus in the Vulcanal,[2745] which Romulus erected
with the tenth part of the spoil taken from the enemy: according to
Massurius, it is generally considered to be as old as the City. The
roots of this tree penetrate as far as the Forum of Cæsar, right across
the meeting-places of the municipalities.[2746] There was a cypress of
equal age growing with it till towards the latter part of Nero’s reign,
when it fell to the ground, and no attempts were made to raise it again.



CHAP. 87.—TREES IN THE SUBURBAN DISTRICTS OLDER THAN THE CITY.


Still older than the City is the holm-oak that stands on the Vaticanian
Hill: there is an inscription in bronze upon it, written in Etruscan
characters, which states that even in those days it was an object of
religious veneration. The foundation of the town of Tibur, too, dates
many years before that of the City of Rome: there are three holm-oaks
there, said to be more ancient than Tiburnus even, who was the
founder of that place; the tradition is that in their vicinity he was
inaugurated. Tradition states also that he was a son of Amphiaraüs, who
died before Thebes, one generation before the period of the Trojan war.



CHAP. 88.—TREES PLANTED BY AGAMEMNON THE FIRST YEAR OF THE TROJAN WAR:
OTHER TREES WHICH DATE FROM THE TIME THAT THE PLACE WAS CALLED ILIUM,
ANTERIOR TO THE TROJAN WAR.


There are some authors, too, who state that a plane-tree at Delphi was
planted by the hand of Agamemnon, as also another at Caphyæ, a sacred
grove in Arcadia. At the present day, facing the city of Ilium, and
close to the Hellespont, there are trees growing over the tomb[2747]
of Protesilaüs there, which, in all ages since that period, as soon as
they have grown of sufficient height to behold Ilium, have withered
away, and then begun to flourish again. Near the city, at the tomb of
Ilus, there are some oaks[2748] which are said to have been planted
there when the place was first known by the name of Ilium.



CHAP. 89.—TREES PLANTED AT ARGOS BY HERCULES: OTHERS PLANTED BY APOLLO.
A TREE MORE ANCIENT THAN ATHENS ITSELF.


At Argos[2749] an olive-tree is said to be still in existence, to
which Argus fastened Io, after she had been changed into a cow. In the
vicinity of Heraclea in Pontus, there are certain altars called after
Jupiter surnamed Stratios; two oaks there were planted by Hercules. In
the same country, too, is the port of Amycus,[2750] rendered famous by
the circumstance that King Bebryx was slain there. Since the day of
his death his tomb has been covered by a laurel, which has obtained
the name of the “frantic laurel,” from the fact that if a portion of
it is plucked and taken on board ship, discord and quarrelling are
the inevitable result, until it has been thrown overboard. We have
already made mention[2751] of Aulocrene, a district through which you
pass in going from Apamia into Phrygia: at this place they show a
plane upon which Marsyas was hanged, after he had been conquered by
Apollo, it having been chosen even in those days for its remarkable
height. At Delos, also, there is a palm[2752] to be seen which dates
from the birth of that divinity, and at Olympia there is a wild olive,
from which Hercules received his first wreath: at the present day it
is preserved with the most scrupulous veneration. At Athens, too, the
olive produced by Minerva, is said still to exist.



CHAP. 90.—TREES WHICH ARE THE MOST SHORT-LIVED.


On the other hand, the pomegranate,[2753] the fig, and the apple are
remarkably short-lived; the precocious trees being still more so than
the later ripeners, and those with sweet fruit than those with sour:
among the pomegranates, too, that variety which bears the sweetest
fruit lives the shortest time. The same is the case, too, with the
vine,[2754] and more particularly the more fruitful varieties. Græcinus
informs us that vines have lasted so long as sixty years. It appears,
also, that the aquatic trees die the soonest. The laurel,[2755] the
apple, and the pomegranate age rapidly, it is true, but then they throw
out fresh shoots at the root. The olive must be looked upon, then, as
being one of the most long-lived, for it is generally agreed among
authors that it will last two hundred years.



CHAP. 91.—TREES THAT HAVE BEEN RENDERED FAMOUS BY REMARKABLE EVENTS.


In the territory about the suburbs of Tusculum, upon a hill known by
the name of Corne, there is a grove which has been consecrated to Diana
by the people of Latium from time immemorial; it is formed of beeches,
the foliage of which has all the appearance of being trimmed by art.
Passienus Crispus, the orator, who in our time was twice consul, and
afterwards became still more famous as having Nero for his step-son, on
marrying his mother Agrippina, was passionately attached to a fine tree
that grew in this grove, and would often kiss and embrace it: not only
would he lie down, too, beneath it, but he would also moisten its roots
with wine.[2756] In the vicinity of this grove there is a holm-oak,
likewise of very considerable celebrity, the trunk of which is no
less[2757] than thirty-four feet in circumference; giving birth to ten
other trees of remarkable size, it forms of itself a whole forest.



CHAP. 92.—PLANTS THAT HAVE NO PECULIAR SPOT FOR THEIR GROWTH: OTHERS
THAT GROW UPON TREES, AND WILL NOT GROW IN THE GROUND. NINE VARIETIES
OF THEM: CADYTAS, POLYPODION, PHAULIAS, HIPPOPHÆSTON.


It is a well-known fact that trees are killed by ivy.[2758] The
mistletoe also has a similar influence, although it is generally
thought that its injurious effects are not so soon perceptible: and,
indeed, this plant, apart from the fruit that it bears, is looked
upon as by no means the least remarkable. There are certain vegetable
productions which cannot be propagated in the ground, and which grow
nowhere but on trees; having no domicile of their own, they live upon
others; such, for instance, is the case with the mistletoe, and a herb
that grows in Syria, and is known as the “cadytas.”[2759] This last
entwines around not only trees, but brambles even; in the neighbourhood
of Tempe, too, in Thessaly, there is found a plant which is called
“polypodion;”[2760] the dolichos[2761] is found also, and wild
thyme.[2762] After the wild olive has been pruned there springs up a
plant that is known as “phaulias;”[2763] while one that grows upon the
fuller’s thistle is called the “hippophæston;”[2764] it has a thin,
hollow stem, a small leaf, and a white root, the juice of which is
considered extremely beneficial as a purgative in epilepsy.



CHAP. 93.—THREE VARIETIES OF MISTLETOE. THE NATURE OF MISTLETOE AND
SIMILAR PLANTS.


There are three varieties of the mistletoe.[2765] That which grows upon
the fir and the larch has the name of[2766] stelis in Eubœa; and there
is the hyphear[2767] of Arcadia. It grows also upon the quercus,[2768]
the robur, the holm-oak, the wild plum, and the terebinth, but upon no
other tree.[2769] It is most plentiful of all upon the quercus, and is
then known as “adasphear.” In all the trees, with the exception of the
holm-oak and the quercus, there is a considerable difference in its
smell and pungency, and the leaf of one kind has a disagreeable odour;
both varieties, however, are sticky and bitter. The hyphear is the
best for fattening[2770] cattle with; it begins, however, by purging
off all defects, after which it fattens all such animals as have been
able to withstand the purging. It is generally said, however, that
those animals which have any radical malady in the intestines cannot
withstand its drastic effects. This method of treatment is generally
adopted in the summer for a period of forty days.

Besides the above, there is yet another difference[2771] in the
mistletoe; that which grows upon the trees which lose their leaves,
loses its leaves as well; while, on the other hand, that which grows
upon evergreens always retains its leaves. In whatever way the seed
may have been sown, it will never come to anything, unless it has been
first swallowed[2772] and then voided by birds, the wood-pigeon more
particularly, and the thrush: such being the nature of the plant, that
it will not come to anything unless the seed is first ripened in the
crop of the bird. It never exceeds a single cubit in height, and is
always green and branchy. The male[2773] plant is fruitful, the female
barren; sometimes, indeed, the male even bears no berry.



CHAP. 94.—THE METHOD OF MAKING BIRDLIME.


Birdlime is made of the berries of the mistletoe, which are gathered
at harvest, and while in an unripe state; for if the rainy season
comes on, though they increase in size, the viscous juice is apt to
lose its virtues. They are then dried,[2774] and when brought to a
state of perfect aridity, are first pounded, and then put in water,
in which they are left to rot for twelve days; this being, in fact,
the only thing that finds improvement in decay. After this, they are
again beaten in running water with a mallet, and after losing the outer
coat there is only the viscous inner pulp remaining. This substance
is birdlime; and after it has been thinned by the addition of walnut
oil, it is found particularly useful for catching birds, it being quite
sufficient if they only touch it with the wings.



CHAP. 95.—HISTORICAL FACTS CONNECTED WITH THE MISTLETOE.


Upon this occasion we must not omit to mention the admiration that is
lavished upon this plant by the Gauls. The Druids—for that is the name
they give to their magicians[2775]—held nothing more sacred than the
mistletoe and the tree that bears it, supposing always that tree to
be the robur.[2776] Of itself the robur is selected by them to form
whole groves, and they perform none of their religious rites without
employing branches of it; so much so, that it is very probable that
the priests themselves may have received their name from the Greek
name[2777] for that tree. In fact, it is the notion with them that
everything that grows on it has been sent immediately from heaven, and
that the mistletoe upon it is a proof that the tree has been selected
by God himself as an object of his especial favour.

The mistletoe, however, is but rarely found upon the robur; and when
found, is gathered with rites replete with religious awe. This is done
more particularly on the fifth day of the moon, the day which is the
beginning of their months and years, as also of their ages, which, with
them, are but thirty years. This day they select because the moon,
though not yet in the middle of her course, has already considerable
power and influence; and they call her by a name which signifies, in
their language, the all-healing.[2778] Having made all due preparation
for the sacrifice and a banquet beneath the trees, they bring thither
two white bulls, the horns of which are bound then for the first
time. Clad in a white robe the priest ascends the tree, and cuts the
mistletoe with a golden sickle, which is received by others in a white
cloak.[2779] They then immolate the victims, offering up their prayers
that God will render this gift of his propitious to those to whom he
has so granted it. It is the belief with them that the mistletoe, taken
in drink, will impart fecundity to all animals that are barren, and
that it is an antidote for all poisons.[2780] Such are the religious
feelings which we find entertained towards trifling objects among
nearly all nations.


SUMMARY.—Remarkable facts, narratives, and observations, one
thousand one hundred and thirty-five.


ROMAN AUTHORS QUOTED.—M. Varro,[2781] Fetialis,[2782] Nigidius,[2783]
Cornelius Nepos,[2784] Hyginus,[2785] Massurius,[2786] Cato,[2787]
Mucianus,[2788] L. Piso,[2789] Trogus,[2790] Calpurnius Bassus,[2791]
Cremutius,[2792] Sextius Niger,[2793] Cornelius Bocchus,[2794]
Vitruvius,[2795] Græcinus.[2796]


FOREIGN AUTHORS QUOTED.—Alexander Polyhistor,[2797] Hesiod,[2798]
Theophrastus,[2799] Democritus,[2800] Homer, Timæus[2801] the
mathematician.



BOOK XVII.

THE NATURAL HISTORY OF THE CULTIVATED TREES.



CHAP. 1. (1.)—TREES WHICH HAVE BEEN SOLD AT ENORMOUS PRICES.


We have described the trees which grow spontaneously on land and in
the sea,[2802] and it now remains for us to speak of those which owe
their formation, properly speaking, rather than birth, to art and the
inventive genius of man.[2803] Here, however, I cannot but express my
surprise, that after the state of penury in which man lived, as already
described,[2804] in primitive times, holding the trees of the forest in
common with the wild beasts, and disputing with them the possession of
the fruits that fell, and with the fowls of the air that of the fruits
as they hung on the tree, luxury has now attached to them prices so
enormous.

The most famous instance, in my opinion, of this excess, was that
displayed by L. Crassus and Cneius Domitius Ahenobarbus. Crassus
was one of the most celebrated of the Roman orators; his house was
remarkable for its magnificence, though in some measure surpassed even
by that of Q. Catulus,[2805] also upon the Palatine Hill; the same
Catulus, who, in conjunction with C. Marius, defeated the Cimbri.
But by far the finest house of all that period, it was universally
acknowledged, was that of C. Aquilius, a Roman of Equestrian rank,
situate upon the Viminal Hill; a house, indeed, that conferred a
greater degree of celebrity upon him than even his acquaintance
with the civil law. This, however, did not prevent Crassus being
reproached with the magnificence of his. Crassus and Domitius, members,
both of them, of the most illustrious families, after holding the
consulship,[2806] were appointed jointly to the censorship, in the year
from the building of the City 662, a period of office that was fruitful
in strife, the natural result of their dissimilarity of character. On
one occasion, Cneius Domitius, naturally a man of hasty temper, and
inflamed besides by a hatred that rivalry only tends to stimulate,
gravely rebuked Crassus for living, and he a Censor too, in a style of
such magnificence, and in a house for which, as he said, he himself
would be ready to pay down ten millions of sesterces. Crassus, a man
who united to singular presence of mind great readiness of wit, made
answer that, deducting six trees only, he would accept the offer; upon
which Domitius replied, that upon those terms he would not give so much
as a single denarius for the purchase. “Well then, Domitius,” was the
rejoinder of Crassus, “which of the two is it that sets a bad example,
and deserves the reproof of the censorship; I, who live like a plain
man in a house that has come to me by inheritance, or you, who estimate
six trees at a value of ten millions of sesterces?”[2807] These trees
were of the lotus[2808] kind, and by the exuberance of their branches
afforded a most delightful shade. Cæcina Largus, one of the grandees
of Rome, and the owner of the house, used often to point them out to
me in my younger days; and, as I have already made mention[2809] of
the remarkable longevity of trees, I would here add, that they were
in existence down to the period when the Emperor Nero set fire to the
City, one hundred and eighty years after the time of Crassus; being
still green and with all the freshness of youth upon them, had not that
prince thought fit to hasten the death of the very trees even.

Let no one, however, imagine that the house of Crassus was of no value
in other respects, or that, from the rebuke of Domitius, there was
nothing about it worthy of remark with the exception of these trees.
There were to be seen erected in the atrium four columns of marble
from Mount Hymettus,[2809] which in his ædileship he had ordered to be
brought over for the decoration of the stage;[2810] and this at a time,
too, when no public buildings even as yet possessed any pillars made
of that material. Of such recent date is the luxury and opulence which
we now enjoy, and so much greater was the value which in those days
trees were supposed to confer upon a property! A pretty good proof of
which, was the fact that Domitius even, with all his enmity, would not
keep to the offer he had made, if the trees were not to be included in
the bargain.

The trees have furnished surnames also to the ancients,[2811] such,
for instance, as that of Fronditius to the warrior who swam across
the Volturnus with a wreath of leaves on his head, and distinguished
himself by his famous exploits in the war against Hannibal; and that
of Stolo[2812] to the Licinian family, such being the name given by
us to the useless suckers that shoot from trees; the best method of
clearing away these shoots was discovered by the first Stolo, and hence
his name. The ancient laws also took the trees under their protection;
and by the Twelve Tables it was enacted, that he who should wrongfully
cut down trees belonging to another person, should pay twenty-five
asses for each. Is it possible then to imagine that they, who estimated
the fruit-trees at so low a rate as this, could ever have supposed
that so exorbitant a value would be put upon the lotus as that which
I have just mentioned? And no less marvellous, too, are the changes
that have taken place in the value of fruit; for at the present day
we find the fruit alone of many of the trees in the suburbs valued at
no less a sum than two thousand sesterces; the profits derived from
a single tree thus being more than those of a whole estate in former
times. It was from motives of gain that the grafting of trees and the
propagation thereby of a spurious offspring was first devised, so that
the growth of the fruits even might be a thing interdicted to the poor.
We shall, therefore, now proceed to state in what way it is that such
vast revenues are derived from these trees, and with that object shall
set forth the true and most approved methods of cultivation; not taking
any notice of the more common methods, or those which we find generally
adopted, but considering only those points of doubt and uncertainty,
in relation to which practical men are most apt to find themselves at
a loss: while, at the same time, to affect any scrupulous exactness
in cases where there is no necessity for it, will be no part of our
purpose. In the first place, however, we will consider in a general
point of view, those influences of soil as well as weather which are
exercised upon all the trees in common.



CHAP. 2. (2.)—THE INFLUENCE OF WEATHER UPON THE TREES: WHAT IS THE
PROPER SITUATION FOR THE VINE.


Trees are fond of a site more particularly that faces the
north-east;[2813] the breezes rendering their foliage more thick and
exuberant, and imparting additional solidity to the wood. This is a
point, however, upon which most people are very greatly deceived; thus
in vineyards, for instance, the props ought not to be placed in such
a position as to shelter the stems from the wind in that quarter, it
being only against the northern blasts that this precaution should
be taken. Nay, even more than this—if the cold weather only comes on
in due season, it contributes very materially to the strengthening
of the trees, and promotes the process of germination; while, on the
other hand, if at that period the southern[2814] breezes should caress
them, they will grow weak and languid, and more particularly so, if
the blossom is just coming on. If rainy weather, too, should happen to
follow close upon blossoming, the total destruction of the fruit is
the necessary result: indeed, if the weather should be only cloudy, or
south winds happen to prevail, it is quite sufficient to ensure the
loss of the fruit in the almond and the pear.[2815] Rains, if prevalent
about the rising of the Vergiliæ,[2816] are most injurious to the vine
and the olive,[2817] as it is at that season that germination[2818]
is commencing with them; indeed, this is a most critical four days
for the olive, being the period at which the south wind, as we have
already[2819] stated, brings on its dark and lowering clouds. The
cereals, too, ripen more unfavourably when south winds prevail, though
at the same time it proceeds with greater rapidity. All cold, too, is
injurious to vegetation, which comes with the northern winds, or out of
the proper season. It is most advantageous to all plants for north-east
winds[2820] to prevail throughout the winter.

In this season, too, showers are very necessary, and the reason is
self-evident—the trees, being exhausted by the fruit they have borne,
and weakened by the loss of their leaves, are, of course, famished and
hungry; and it is the showers that constitute their aliment. Experience
has led us to believe that there is nothing more detrimental than a
warm winter; for it allows the trees, the moment they have parted with
their fruits, to conceive again, or, in other words, to germinate, and
then exhaust themselves by blossoming afresh. And what is even worse
than this, should there be several years of such weather in succession,
even the trees themselves will die; for there can be little doubt
that the effort must of necessity be injurious, when they put forth
their strength, and are at the same time deprived of their natural
sustenance. The poet[2821] then, who has said that serene winters are
to be desired, certainly did not express those wishes in favour of the
trees. And no more does rain, if prevalent at the summer-solstice,
conduce to the benefit[2822] of the vine: while, at the same time, to
say that a dusty winter produces a luxuriant harvest, is certainly
the mistake of a too fertile imagination. It is a thing greatly to
be wished, too, both in behalf of the trees as well as the cereals,
that the snows should lie for a considerable time upon the ground; the
reason being that they check the escape of the spirit of the earth by
evaporation, and tend to throw it back again upon the roots of the
plants, adding greatly to their strength thereby; and not only this,
but they afford a gradual supply of moisture as well, that is both pure
and of remarkable lightness, from the fact that snow is only the foam
of the waters of heaven. Hence it is that the moisture of snow does
not drench and engulph everything all at once, but gradually trickles
downwards, in proportion to the thirst of the plant, nurturing it as
though from the breast, instead of producing an inundation. The earth,
too, ferments under this influence, and becomes filled with her own
emanations: not exhausted by the seeds in her bosom, swollen as they
are with milk,[2823] she smiles in the warm and balmy hours, when the
time comes for opening it. It is in this way, more particularly, that
corn fattens apace, except, indeed, in those climates in which the
atmosphere is always warm, Egypt for example; for there the continuance
of the same temperature and the force of habit are productive of the
same effects as the modifications of temperature in other countries.

At the same time it is equally necessary in every climate that there
should be no noxious influence in existence. Thus, for instance, in the
greater part of the world, that precocious germination which has been
encouraged by the indulgent temperature of the weather, is sure to be
nipped by the intense colds that ensue. Hence it is that late winters
are so injurious, and such they prove to the trees of the forest even;
indeed, these last are more particularly exposed to the ill effects of
a late winter, oppressed as they are by the density of their foliage,
and human agency being unable to succour them; for it would be quite
impossible to cover[2824] the more tender forest trees with wisps of
straw. Rains, then, are favourable to vegetation—first of all, during
the winter season, and next, just previously to germination; the third
period for them being that of the formation of the fruit, though not
immediately, and only, in fact, when the produce of the tree shows
itself strong and healthy.

Those trees which are the slowest in bringing their fruits to
maturity, and require a more prolonged supply of nutriment, receive
benefit also from late rains, such as the vine, the olive, and the
pomegranate, for instance. These rains, however, are required at
different seasons by the different trees, some of them coming to
maturity at one period and some at another; hence it is that we see
the very same rain productive of injury to some trees and beneficial
to others, even when they are of the very same species, as in the
pear for instance: for the winter pear stands in need of rain at one
period, and the early pear at another, though at the same time they,
all of them, require it in an equal degree. Winter precedes the period
of germination, and it is this fact that makes the north-east wind
more beneficial than the south, and renders the parts that lie in the
interior preferable to those near the coast,—the former being generally
the coldest,—mountainous districts better than level ones, and rain
at night better than showers in the day. Vegetation, too, receives
a greater degree of benefit from the water when the sun does not
immediately soak it up.

Connected, too, with this subject is the question of the best
situation for planting vines, and the trees which support them.
Virgil[2825] condemns a western aspect, while there are some persons,
again, who prefer it to an easterly one: I find, however, that most
authors approve of the south, though I do not think that any abstract
precepts[2826] can be given in relation to the point. The most careful
attention on the part of the cultivator ought to be paid to the
nature of the soil, the character of the locality, and the respective
influences of climate. The method of giving to the vine a southern
aspect, as practised in Africa and * * * * is injurious to the tree, as
well as unhealthy for the cultivator, from the very circumstance that
the country itself lies under a southern meridian: hence it is, that
he who selects for his plants there a western or a northerly aspect,
will combine on the most advantageous terms the benefits of soil with
those of climate. When Virgil condemns a western aspect, there can be
no doubt that he includes in his censure a northern aspect as well: and
yet, in Cisalpine Italy, where most of the vineyards have an aspect to
the north, it has been found by experience that there are none that are
more prolific.

The winds are also a very important consideration. In the provinces
of Gallia Narbonensis, and in Liguria and part of Etruria, it is
considered a proof of great want of skill to plant the vine on a site
that lies in the teeth of the wind Circius,[2827] while, on the other
hand, it is a mark of prudence to catch its breezes in an oblique
direction; it is this wind, in fact, that modifies the heat in those
countries, though at the same time it is usually so violent, as to
sweep away the roofs of the houses.

(3.) There are some persons who employ a method of making the question
of weather dependent upon the nature of the soil; thus in the case of
a vineyard, for instance, in a dry locality, they give it an eastern
or a northern aspect; but where it is planted on a humid site, it is
made to face the south. From the varieties of the vine also, they
borrow various modifications in reference to site; taking care to plant
the early vine in a cold locality, in order that the fruit may ripen
before the frosts come on; while such fruit trees and vines as have
an antipathy to dews are exposed to the east, that the sun may carry
off their humidity at the earliest moment. On the other hand, such
as manifest a partiality to dews are planted with a western or even
a northern aspect, to give them an opportunity of enjoying them all
the longer. Others, again, borrowing their notions pretty nearly from
Nature, have recommended that vines and trees should be planted facing
the north-east; indeed Democritus is of opinion, that by so doing the
fruit will be all the more odoriferous.

(4.) We have already spoken, in the Second Book,[2828] of the points
of the north-east and other winds, and shall have occasion in the
succeeding one to make mention of several more of the heavenly
phænomena. In the mean time, however, we may observe that it would
appear to be a manifest proof of the salubrity of a north-east site,
that the leaves are always the first to fall in the trees that have
an aspect towards the south.[2829] A similar reason exists, too, in
the maritime districts; in certain localities the sea breezes are
detrimental, though in most they are nutritious. For some plants,
again, it is pleasant to behold the sea at a distance, while at the
same time they will gain nothing by approaching closer to its saline
exhalations. The same, too, is the influence exercised by rivers and
lakes; they will either scorch the vegetation by the fogs they emit,
or else modify by their coolness the excess of heat. We have already
mentioned[2830] the plants that thrive in the shade, and in the cold
even; but in all these matters experience will be found the best of
guides.



CHAP. 3.—WHAT SOILS ARE TO BE CONSIDERED THE BEST.


Next after the influences of the heavens, we have to treat of those of
the earth, a task that is in no way more easy than the previous one.
It is but rarely that the same soil is found suited to trees as well
as corn: indeed, the black[2831] earth which prevails in Campania is
not everywhere found suited to the vine, nor yet that which emits light
exhalations, or the red[2832] soil that has been so highly praised
by many. The cretaceous earth that is found in the territory of Alba
Pompeia, and an argillaceous soil, are preferred to all others for
the vine, although, too, they are remarkably rich, a quality that is
generally looked upon as not suited to that plant. On the other hand,
again, the white sand of the district of Ticinum, the black sand of
many other places, and the red sand as well, even though mixed with a
rich earth, will prove unproductive.

The very signs, also, from which we form our judgment are often very
deceptive; a soil that is adorned with tall and graceful trees is not
always a favourable one, except, of course, for those trees. What tree,
in fact, is there that is taller than the fir? and yet what other plant
could possibly exist in the same spot? Nor ought we always to look upon
verdant pastures as so many proofs of richness of soil; for what is
there that enjoys a greater renown than the pastures of Germany? and
yet they consist of nothing but a very thin layer of turf, with sand
immediately beneath. Nor yet is the soil which produces herbage[2833]
of large growth always to be looked upon as humid; no, by Hercules!
no more than a soil is to be looked upon as unctuous and rich, which
adheres to the fingers—a thing that is proved in the case of the
argillaceous earths.[2834] The earth when thrown back into the hole
from which it has just been dug will never[2835] fill it, so that it is
quite impossible by that method to form any opinion as to its density
or thinness. It is the fact, too, that every[2836] soil, without
exception, will cover iron with rust. Nor yet can we determine[2837]
the heaviness or lightness of soils in relation to any fixed and
ascertained weight: for what are we to understand as the standard
weight of earth? A soil, too, that is formed from the alluvion[2838] of
rivers is not always to be recommended, for there are some crops that
decay all the sooner in a watery soil; indeed, those soils even of this
description which are highly esteemed, are never found to be long good
for any kind of vegetation but the willow.

Among other proofs of the goodness of soil, is the comparative
thickness of the stem in corn. In Laborium, a famous champaign country
of Campania, the stalk is of such remarkable thickness, that it may be
used even to supply the place of wood:[2839] and yet this very soil,
from the difficulty that is everywhere experienced in cultivating it,
and the labour required in working it, may be almost said to give the
husbandman more trouble by its good qualities than it could possibly
have done by reason of any defects. The soil, too, that is generally
known as charcoal earth, appears susceptible of being improved by being
planted with a poor meagre vine: and tufa,[2840] which is naturally
rough and friable, we find recommended by some authors. Virgil,[2841]
too, does not condemn for the vine a soil which produces fern:[2842]
while a salted earth[2843] is thought to be much better entrusted with
the growth of vegetation than any other, from the fact of its being
comparatively safe from noxious insects breeding there. Declivities,
too, are far from unproductive, if a person only knows how to dig
them properly; and it is not all[2844] champaign spots that are less
accessible to the sun and wind than is necessary for their benefit. We
have already[2845] alluded to the fact, that there are certain vines
which find nutriment in hoar frosts and fogs.

In every subject there are certain deep and recondite secrets, which
it is left to the intelligence of each to penetrate. Do we not,
for instance, find it the fact, that soils which have long offered
opportunities for a sound judgment being formed on their qualities
have become totally altered? In the vicinity of Larissa, in Thessaly,
a lake was drained;[2846] and the consequence was, that the district
became much colder, and the olive-trees which had formerly borne
fruit now ceased to bear. When a channel was cut for the Hebrus, near
the town of Ænos, the place was sensible of its nearer approach, in
finding its vines frost-bitten, a thing that had never happened before;
in the vicinity, too, of Philippi, the country having been drained
for cultivation, the nature of the climate became entirely altered.
In the territory of Syracuse, a husbandman, who was a stranger to
the place, cleared the soil of all the stones, and the consequence
was, that he lost his crops from the accumulation of mud; so that at
last he was obliged to carry the stones back again. In Syria again,
the plough-share which they use is narrow, and the furrows are but
very superficial, there being a rock beneath the soil that in summer
scorches up the seeds.

Then, too, the effects of excessive cold and heat in various places
are similar; thus, for instance, Thrace is fruitful in corn, by reason
of the cold, while Africa and Egypt are so in consequence of the heat
that prevails there. At Chalcia,[2847] an island belonging to the
Rhodians, there is a certain place which is so remarkably fertile,
that after reaping the barley that has been sown at the ordinary time,
and gathering it in, they immediately sow a fresh crop, and reap it at
the same time as the other corn. A gravelly soil is found best suited
for the olive in the district of Venafrum,[2848] while one of extreme
richness is required for it in Bætica. The wines of Pucinum[2849] are
ripened upon a rock, and the vines of Cæcubum[2850] are moistened by
the waters of the Pomptine[2851] marshes; so great are the differences
that have been detected by human experience in the various soils. Cæsar
Vopiscus, when pleading a cause before the Censors, said that the
fields of Rosia[2852] are the very marrow[2853] of Italy, and that a
stake, left in the ground there one day, would be found covered by the
grass the next:[2854] the soil, however, is only esteemed there for the
purposes of pasturage. Still, however, Nature has willed that we should
not remain uninstructed, and has made full admission as to existing
defects in soil, even in cases where she has failed to give us equal
information as to its good qualities: we shall begin, therefore, by
speaking of the defects that are found in various soils.

(5.) If it is the wish of a person to test whether a soil is bitter,
or whether it is thin and meagre, the fact may be easily ascertained
from the presence of black and undergrown herbs. If, again, the herbage
shoots up dry and stunted, it shows that the soil is cold, and if sad
and languid, that it is moist and slimy. The eye, too, is able to judge
whether it is a red earth or whether it is argillaceous, both of them
extremely difficult to work, and apt to load the harrow or ploughshare
with enormous clods; though at the same time it should be borne in
mind that the soil which entails the greatest amount of labour is not
always productive of the smallest amount of profit. So, too, on the
other hand, the eye can distinguish a soil that is mixed with ashes or
with white sand, while earth that is sterile and dense may be easily
detected by its peculiar hardness, at even a single stroke of the
mattock.

Cato,[2855] briefly and in his peculiar manner, characterizes the
defects that exist in the various soils. “Take care,” he says, “where
the earth is rotten not to shake it either with carts or by driving
cattle over it.” Now what are we to suppose that this term “rotten”
means, as applied to a soil, about which he is so vastly apprehensive
as to almost forbid our setting foot upon it? Let us only form a
comparison by thinking what it is that constitutes rottenness in
wood, and we shall find that the faults which are held by him in such
aversion are the being arid, full of holes, rough, white, mouldy,
worm-eaten, in fact, just like pumice-stone; and thus has Cato said
more in a single word than we could have possibly found means to
express in a description, however long. Indeed, if we could find means
of expressing the various defects that exist in soils, we should
find that there are some of them that are old, not with age (for age
cannot[2856] be concerned in relation to the earth), but of their own
nature, and are hence unfruitful and powerless for every purpose from
the first. The same writer,[2857] too, considers that as the very best
of soils, which, situate at the foot of a declivity, runs out into a
champaign country, taking a southward direction; such, in fact, being
the aspect of the whole of Italy:[2858] he says[2859] also, that the
earth generally known as black[2860] earth is of a tender nature,
and is consequently the most easily worked and the best for cereals.
If we only appreciate with due care the signification of this word
“tender,”[2861] we shall find that it expresses its intended meaning
remarkably well, and that in this word is comprised every quality that
is desirable for the purposes of cultivation. In a tender soil we
shall find fertility combined with moderation, a softness and a pliancy
easily adapted to cultivation, and an equal absence of humidity and of
dryness. Earth of this nature will shine again after the plough-share
has passed through it, just as Homer,[2862] that great fountain-head of
all genius, has described it sculptured by the Divinity[2863] upon the
arms [of Achilles], adding, too, a thing that is truly marvellous, that
it was of a blackish hue, though gold was the material in which it was
wrought. This, too, is that kind of earth, which, when newly turned up,
attracts the ravenous birds that follow the plough-share, the ravens
even going so far as to peck at the heels of the ploughman.

We may in this place appropriately make mention of an opinion that has
been pronounced by an Italian writer also with reference to a matter of
luxury. Cicero,[2864] that other luminary of literature, has made the
following remark: “Those unguents which have a taste of earth[2865] are
better,” says he, “than those which smack of saffron;” it seeming to
him more to the purpose to express himself by the word “taste”[2866]
than “smell.” And such is the fact, no doubt; that soil is the best
which has the flavour of a perfume.[2867] If the question should be put
to us, what is this odour of the earth that is held in such estimation,
our answer is, that it is the same that is often to be recognized at
the moment of sunset, without the necessity even of turning up the
ground, at the spots where the extremities of the rainbow[2868] have
been observed to meet the earth; as also when, after long-continued
drought, the rain has soaked the ground. Then it is that the earth
exhales this divine odour, that is so peculiarly its own, and to which,
imparted to it by the sun, there is no perfume, however sweet, that can
possibly be compared. It is this odour that the earth, when turned up,
ought to emit, and which, when once found, can never deceive a person;
and this will be found the best criterion for judging of the quality of
the soil. Such, too, is the odour that is usually perceived on land
newly cleared,[2869] when an ancient forest has been just cut down; its
excellence is a thing that is universally admitted.

For the culture of the cereals, too, the same land is generally looked
upon as the more improved the oftener it has been allowed to rest[2870]
from cultivation, a thing that is not the case with vineyards; for
which reason all the greater care is required in the selection of
their site, if we would not have the opinions of those to appear well
founded who entertain the notion that the soil of Italy is already
worn out.[2871] In other kinds of soil the work of cultivation depends
entirely upon the weather; as, for instance, in those which cannot
be ploughed just after rain, because the natural exuberance of the
earth renders it viscous and cloggy. On the other hand, in Byzacium, a
district of Africa, and a champaign country of such singular fertility
as to render grain one hundred and fifty fold,[2872] the soil is such,
that in time of drought, not even bulls are able to plough it; while,
on another occasion, just after a shower of rain, one poor ass, with
an old woman to guide it, is quite sufficient,[2873] as ourselves we
have witnessed, to do the ploughing. But as to amending one soil by
the agency of another, as some persons recommend, by throwing rich
earth over one that is poor and thin, or by laying a soaking light
soil over one that is humid and unctuous, it is a labour of perfect
madness.[2874] What can a man possibly hope for who cultivates such a
soil as this?



CHAP. 4. (6.)—THE EIGHT KINDS OF EARTH BOASTED OF BY THE GAULS AND
GREEKS.


There is another method, which has been invented both in Gaul and
Britain, of enriching earth by the agency of itself, being * * * * and
that kind known as marl.[2875] This soil is looked upon as containing a
greater amount of fecundating principles, and acts as a fat in relation
to the earth, just as we find glands existing in the body, which are
formed by a condensation of the fatty particles into so many kernels.
(7.) This mode of proceeding, too, has not been overlooked by the
Greeks; indeed, what subject is there that they have not touched upon?
They call by the name of leucargillon[2876] a white argillaceous earth
which is used in the territory of Megara, but only where the soil is of
a moist, cold nature.

It is only right that I should employ some degree of care and
exactness in treating of this marl, which tends so greatly to enrich
the soil of the Gallic provinces and the British islands. There were
formerly but two varieties known, but more recently, with the progress
of agricultural knowledge, several[2877] others have begun to be
employed; there being, in fact, the white, the red, the columbine, the
argillaceous, the tufaceous, and the sandy marls. It has also one of
these two peculiarities, it is either rough or greasy to the touch; the
proper mode of testing it being by the hand. Its uses, too, are of a
twofold nature—it is employed for the production of the cereals only,
or else for the enrichment of pasture land as well. The tufaceous[2878]
kind is nutrimental to grain, and so is the white; if found in the
vicinity of springs, it is fertile to an immeasurable extent; but if it
is rough to the touch, when laid upon the land in too large a quantity,
it is apt to burn up the soil. The next kind is the red marl, known
as acaunumarga,[2879] consisting of stones mingled with a thin sandy
earth. These stones are broken upon the land itself, and it is with
considerable difficulty during the earlier years that the stalk of the
corn is cut, in consequence of the presence of these stones; however,
as it is remarkably light, it only costs for carriage one-half of the
outlay required in using the other varieties. It is laid but very
thinly on the surface, and it is generally thought that it is mixed
with salt. Both of these varieties, when once laid on the land, will
fertilize it for fifty[2880] years, whether for grain or for hay.

(8.) Of the marls that are found to be of an unctuous nature, the best
is the white. There are several varieties of it: the most pungent
and biting being the one already mentioned. Another kind, is the
white chalk that is used for cleaning[2881] silver; it is taken from
a considerable depth in the ground, the pits being sunk, in most
instances, as much as one hundred feet. These pits are narrow at the
mouth, but the shafts enlarge very considerably in the interior, as is
the case in mines; it is in Britain more particularly that this chalk
is employed. The good effects of it are found to last full eighty
years; and there is no instance known of an agriculturist laying it
twice on the same land during his life.[2882] A third variety of white
marl is known as glisomarga;[2883] it consists of fullers’ chalk[2884]
mixed with an unctuous earth, and is better for promoting the growth
of hay than grain; so much so, in fact, that between harvest and the
ensuing seed-time there is cut a most abundant crop of grass. While the
corn is growing, however, it will allow no other plant to grow there.
Its effects will last so long as thirty years; but if laid too thickly
on the ground, it is apt to choke up the soil, just as if it had been
covered with Signine[2885] cement. The Gauls give to the columbine marl
in their language the name of eglecopala;[2886] it is taken up in
solid blocks like stone, after which it is so loosened by the action of
the sun and frost, as to split into laminæ of extreme thinness; this
kind is equally beneficial for grass and grain. The sandy[2887] marl is
employed if there is no other at hand, and on moist slimy soils, even
when other kinds can be procured.

The Ubii are the only people that we know of, who, having an extremely
fertile soil to cultivate, employ methods of enriching it; wherever
the land may happen to be, they dig to a depth of three feet, and,
taking up the earth, cover the soil with it in other places a foot
in thickness; this method, however, to be beneficial, requires to
be renewed at the end of every ten years. The Ædui and the Pictones
have rendered their lands remarkably fertile by the aid of limestone,
which is also found to be particularly beneficial to the olive and
the vine.[2888] Every marl, however, requires to be laid on the land
immediately after ploughing, in order that the soil may at once imbibe
its properties; while at the same time, it requires a little manure as
well, as it is apt, at first, to be of too acrid a nature, at least
where it is not pasture land that it is laid upon; in addition to
which, by its very freshness it may possibly injure the soil, whatever
the nature of it may be; so much so, indeed, that the land is never
fertile the first year after it has been employed. It is a matter of
consideration also for what kind of soil the marl is required; if the
soil is moist, a dry marl is best suited for it; and if dry, a rich
unctuous marl. If, on the other hand, the land is of a medium quality,
chalk or columbine[2889] marl is the best suited for it.



CHAP. 5. (9.)—THE EMPLOYMENT OF ASHES.


The agriculturists of the parts of Italy beyond the river Padus, are
such admirers of ashes[2890] for this purpose, that they even prefer
it as a manure to the dung of beasts of burden; indeed, they are in
the habit of burning dung for this purpose, on account of its superior
lightness. They do not, however, use them indiscriminately upon the
same soil, nor do they employ ashes for promoting the growth of shrubs,
nor, in fact, of some of the cereals, as we shall have occasion[2891]
to mention hereafter. There are some persons who are of opinion also
that dust[2892] imparts nutriment to grapes, and cover them with it
while they are growing, taking care to throw it also upon the roots
of the vines and other trees. It is well known that this is done in
the province of Gallia Narbonensis, and it is a fact even better
ascertained that the grape ripens all the sooner for it; indeed, the
dust there contributes more to its ripeness than the heat of the sun.



CHAP. 6.—MANURE.


There are various kinds of manure, the use of which is of very ancient
date. In the times of Homer[2893] even, the aged king is represented
as thus enriching the land by the labour of his own hands. Tradition
reports that King Augeas was the first in Greece to make use of it, and
that Hercules introduced the practice into Italy; which country has,
however, immortalized the name of its king, Stercutus,[2894] the son
of Faunus, as claiming the honour of this invention. M. Varro[2895]
assigns the first rank for excellence to the dung of thrushes kept in
aviaries, and lauds it as being not only good for land, but excellent
food for oxen and swine as well; indeed, he goes so far as to assert
that there is no food that they will grow fat upon more speedily. We
really have some reason to augur well of the manners of the present
day, if it is true that in the days of our ancestors there were
aviaries of such vast extent as to be able to furnish manure for the
fields.

Columella[2896] gives the second rank to pigeon manure,[2897] and the
next to that of the poultry-yard; but he condemns that of the aquatic
birds. Some authors, again, are agreed in regarding the residue of the
human food[2898] as the very best of all manures; while others would
only employ the superfluous portion of our drink,[2899] mixing with it
the hair that is to be found in the curriers’ workshops. Some, however,
are for employing this liquid by itself, though they would mix water
with it once more, and in larger quantities even than when originally
mixed with the wine at our repasts; there being a double share of
noxious qualities to correct, not only those originally belonging to
the wine,[2900] but those imparted to it by the human body as well.
Such are the various methods by which we vie with each other in
imparting nutriment to the earth even.

Next to the manures above mentioned, the dung of swine is highly
esteemed, Columella being the only writer that condemns it. Some,
again, speak highly of the dung of all quadrupeds that have been fed
on cytisus, while there are others who prefer that of pigeons. Next
to these is the dung of goats, and then of sheep; after which comes
that of oxen, and, last of all, of the beasts of burden. Such were
the distinctions that were established between the various manures
among the ancients, such the precepts that they have left us, and
these I have here set forth as being not the mere subtle inventions
of genius, but because their utility has been proved in the course of
a long series of years. In some of the provinces, too, which abound
more particularly in cattle, by reason of their prolific soil, we
have seen the manure passed through a sieve like so much flour, and
perfectly devoid, through lapse of time,[2901] of all bad smell or
repulsive look, being changed in its appearance to something rather
agreeable than otherwise. In more recent times it has been found that
the olive thrives more particularly in soil that has been manured with
the ashes[2902] of the lime-kiln. To the ancient rules Varro[2903] has
added, that corn land should be manured with horse-dung, that being
the lightest manure of all, while meadow land, he says, thrives better
with a manure of a more heavy nature, and supplied by beasts that have
been fed upon barley; this last tending more particularly to the better
growth of grass.[2904] Some persons, indeed, prefer the dung of the
beasts of burden to that of oxen even, the manure of the sheep to that
of the goat, and the manure of the ass to all others, the reason being
that that animal masticates the most slowly of them all. Experience,
however, has pronounced against these dicta of Varro and Columella;
but it is universally agreed by all writers that there is nothing more
beneficial than to turn[2905] up a crop of lupines, before they have
podded, with either the plough or the fork, or else to cut them and
bury them in heaps at the roots of trees and vines. It is thought,
also, that in places where no cattle are kept, it is advantageous to
manure the earth with stubble or even fern. “You can make manure,”
Cato[2906] says, “of litter, or else of lupines, straw, beanstalks, or
the leaves of the holm-oak and quercus. Pull up the wallwort from among
the crops of corn, as also the hemlock that grows there, together with
the thick grass and sedge that you find growing about the willow-plots;
of all this, mixed with rotten leaves,[2907] you may make a litter for
sheep and oxen. If a vine should happen to be but poor and meagre,
prune[2908] the shoots of it, and plough them in round about it.” The
same author says, also,[2909] “When you are going to sow corn in a
field, fold your sheep[2910] there first.”



CHAP. 7.—CROPS WHICH TEND TO IMPROVE THE LAND: CROPS WHICH EXHAUST IT.


Cato[2911] says, also, that there are some crops which tend to nourish
the earth: thus, for instance, corn land is manured by the lupine, the
bean, and the vetch; while, on the other hand, the chick-pea exercises
a contrary influence, both because it is pulled up by the roots and is
of a salt nature; the same is the case, too, with barley, fenugreek,
and fitches, all of which have a tendency to burn up[2912] corn land,
as, in fact, do all those plants which are pulled up by the roots. Take
care, too, not to plant stone-fruits on corn land. Virgil[2913] is of
opinion, also, that corn land is scorched by flax, oats, and poppies.



CHAP. 8.—THE PROPER MODE OF USING MANURE.


It is recommended,[2914] also, that the dung-heap should be kept in the
open air, in a spot deep sunk and well adapted to receive the moisture:
it should be covered, too, with straw, that it may not dry up with
the sun, care being taken to drive a stake of robur into the ground,
to prevent serpents from breeding[2915] there. It is of the greatest
consequence that the manure should be laid upon the land while[2916]
the west winds prevail, and during a dry moon. Most persons, however,
misunderstand this precept, and think this should be done when the west
winds are just beginning to blow, and in the month of February only;
it being really the fact that most crops require manuring in other
months as well. At whatever period, however, it may be thought proper
to manure the land, the greatest care should be taken that the wind is
blowing due west at the time, and that the moon is on the wane, and
quite dry. Such precautions as these will increase in a most surprising
degree the fertilizing effects of manure.



CHAP. 9. (10.)—THE MODES IN WHICH TREES BEAR.


Having now treated at sufficient length of the requisite conditions
of the weather and the soil, we shall proceed to speak of those trees
which are the result of the care and inventive skill of man. Indeed,
the varieties of them are hardly less numerous than of those which are
produced by Nature,[2917] so abundantly have we testified our gratitude
in return for her numerous bounties. For these trees, we find, are
reared either from seed, or else by transplanting, by layers, by slips
torn from the stock, by cuttings, by grafting, or by cutting into the
trunk of the tree. But as to the story that the leaves of the palm
are planted by the Babylonians, and so give birth[2918] to a tree, I
am really surprised that Trogus should have ever believed it. Some of
the trees are reproduced by several of the methods above enumerated,
others, again, by all of them.



CHAP. 10.—PLANTS WHICH ARE PROPAGATED BY SEED.


It is Nature herself that has taught us most of these methods, and more
particularly that of sowing seed, as it was very soon evident how the
seed on falling to the ground revived again in germination. Indeed,
there are some trees that are capable of being propagated in no other
way, the chesnut[2919] and the walnut, for instance; with the sole
exception, of course, of such as are employed for coppice wood. By this
method, too, as well as the others, some trees are propagated, though
from a seed of a different nature, such, for instance, as the vine, the
apple, and the pear;[2920] the seed being in all these cases in the
shape of a pip, and not the fruit itself, as in that of the chesnut
and the walnut. The medlar, too, can also be propagated by the agency
of seed. All trees, however, that are grown by this method are very
slow in coming to maturity,[2921] degenerate[2922] very rapidly, and
must often be renewed by grafting: indeed, the chesnut even sometimes
requires to be grafted.



CHAP. 11.—TREES WHICH NEVER DEGENERATE.


On the other hand, there are some trees which have the property of
never degenerating, in whatever manner they are reproduced, the
cypress, palm, and laurel,[2923] for instance: for we find that the
laurel is capable of being propagated in several ways. We have already
made mention[2924] of the various kinds of laurel; those known as the
Augustan, the baccalis, and the tinus[2925] are all reproduced in a
similar manner. The berries are gathered in the month of January,
after they have been dried by the north-east winds which then prevail;
they are then kept[2926] separate and exposed to the action of the
air, being liable to ferment if left in a heap. After this, they are
first seasoned with smoke, and then steeped in urine, preparatory to
sowing.[2927] Some persons put them in baskets of osier, and tread
them down with the feet in running water, until the outer skin is
removed, as it is found that the moisture[2928] which they contain is
detrimental to them, and prevents them from germinating. A trench is
then dug, about a palm in depth, and somewhere about twenty of the
berries are then put into it, being laid in a heap: this is usually
done in the month of March. These kinds of laurel admit of being
propagated from layers also; but the triumphal[2929] laurel can be
reproduced from cuttings only.

All the varieties of the myrtle[2930] are produced in Campania from the
berry only, but at Rome from layers. Democritus, however, says that the
Tarentine myrtle may be re-produced another way.[2931] They take the
largest berries and pound them lightly so as not to crush the pips:
with the paste that is thus made a rope is covered, and put lengthwise
in the ground; the result of which is that a hedge is formed as thick
as a wall, with plenty of slips for transplanting. In the same way,
too, they plant brambles to make a hedge, by first covering a rope of
rushes with a paste made of bramble-berries. In case of necessity, it
is possible at the end of three years to transplant the suckers of the
laurel and the myrtle that have been thus re-produced.

With reference to the plants that are propagated from seed, Mago treats
at considerable length of the nut-trees—he says that the almond[2932]
should be sown in a soft argillaceous earth, upon a spot that looks
towards the south—that it thrives also in a hard, warm soil, but
that in a soil which is either unctuous or moist, it is sure to die,
or else to bear no fruit. He recommends also for sowing those more
particularly which are of a curved shape like a sickle, and the produce
of a young tree, and he says that they should be steeped for three
days in diluted manure, or else the day before they are sown in honey
and water.[2933] He says, also, that they should be put in the ground
with the point downwards, and the sharp edge towards the north-east;
and that they should be sown in threes and placed triangularly, at the
distance of a palm from each other, care being taken to water them for
ten days, until such time as they have germinated.

Walnuts when sown are placed lengthwise,[2934] lying upon the sides
where the shells are joined; and pine nuts are mostly put, in sevens,
into perforated pots, or else sown in the same way as the berries are
in the laurels which are re-produced by seed. The citron[2935] is
propagated from pips as well as layers, and the sorb from seed, by
sucker, or by slip: the citron, however, requires a warm site, the sorb
a cold and moist one.



CHAP. 12.—PROPAGATION BY SUCKERS.


Nature, too,[2936] has taught us the art of forming nurseries; when
from the roots of many of the trees we see shooting up a dense forest
of suckers, an offspring that is destined to be killed by the mother
that has borne them. For by the shade of the tree these suckers are
indiscriminately stifled, as we often see the case in the laurel, the
pomegranate, the plane, the cherry, and the plum. There are some few
trees, the elm and the palm for instance, in which the branches spare
the suckers; however, they never make their appearance in any of the
trees except those in which the roots, from their fondness for the sun
and rain, keep close, as they range, to the surface of the ground. It
is usual not to place all these suckers at once in the ground upon the
spot which they are finally to occupy, but first to entrust them to
the nursery, and to allow them to grow in seed-plots, after which they
are finally transplanted. This transplanting softens down, in a most
remarkable manner, those trees even which grow wild; whether it is that
trees, like men, are naturally fond of novelty and change of scene, or
that, on leaving the spots of their original growth, or to which they
have been transplanted, they lay aside their bad qualities and become
tame, like the wild animals, the moment they are separated from the
parent stock.



CHAP. 13.—PROPAGATION BY SLIPS AND CUTTINGS.


Nature has also discovered another method, which is very similar to
the last—for slips torn away from the tree will live. In adopting
this plan, care should be taken to pull out the haunch[2937] of the
slip where it adheres to the stock, and so remove with it a portion
of the fibrous body of the parent tree. It is in this way that the
pomegranate, the hazel, the apple, the sorb, the medlar, the ash,
the fig, and more particularly the vine, are propagated. The quince,
however, if planted in this way will degenerate,[2938] and it has
been consequently found a better plan to cut slips and plant them: a
method which was at first adopted for making hedges, with the elder,
the quince, and the bramble, but came afterwards to be applied to
cultivated trees, such as the poplar, the alder, and the willow, which
last will grow if even the slip is planted upside down.[2939] In the
case of cuttings, they are planted at once in the spot which it is
intended they should occupy: but before we pass on to the other methods
of propagation, it seems as well to mention the care that should be
expended upon making seed-plots.[2940]



CHAP. 14.—SEED-PLOTS.


In laying out a seed-plot it is necessary that a soil of the very
highest quality should be selected; for it is very often requisite
that a nurse should be provided for the young plants, who is more
ready to humour them than their parent soil. The ground should
therefore be both dry and nutritious, well turned up with the mattock,
replete with hospitality to the stranger plants, and as nearly as
possible resembling the soil to which it is intended they should be
transplanted. But, a thing that is of primary importance, the stones
must be carefully gathered from off the ground, and it should be
walled in, to ensure its protection from the depredations of poultry;
the soil, too, should have as few chinks and crannies as possible, so
that the sun may not be enabled to penetrate and burn up the roots.
The young trees should be planted at distances[2941] of a foot and
a-half, for if they happen to touch one another, in addition to other
inconveniences, they are apt to breed worms; for which reason it is
that they should be hoed as often as possible, and all weeds pulled up,
the young plants themselves being carefully pruned, and so accustomed
to the knife.

Cato[2942] recommends, too, that hurdles should be set up upon forks,
the height of a man, for the purpose of intercepting the rays of
the sun, and that they should be covered with straw to keep off the
cold.[2943] He says that it is in this way that the seeds of the apple
and the pear are reared, the pine-nut also, and the cypress,[2944]
which is propagated from seed as well. In this last, the seed is
remarkably[2945] small, so much so, in fact, as to be scarcely
perceptible. It is a marvellous fact, and one which ought not to be
overlooked, that a tree should be produced from sources so minute,
while the grains of wheat and of barley are so very much larger, not
to mention the bean. What proportion, too, is there between the apple
and the pear tree, and the seeds from which they take their rise? It
is from such beginnings, too, as these that springs the timber that is
proof against the blows of the hatchet, presses[2946] that weights of
enormous size even are unable to bend, masts that support the sails
of ships, and battering-rams that are able to shake even towers and
walls! Such is the might, such is the power that is displayed by
Nature. But, a marvel that transcends all the rest, is the fact of a
vegetable receiving its birth from a tear-like drop, as we shall have
occasion to mention[2947] in the appropriate place.

To resume, however: the tiny balls which contain the seed are collected
from the female cypress—for the male, as I have already[2948] stated,
is barren. This is done in the months which I have previously[2949]
mentioned, and they are then dried in the sun, upon which they soon
burst, and the seed drops out, a substance of which the ants are
remarkably fond; this fact, too, only serves to enhance the marvel,
when we reflect that an insect so minute is able to destroy the first
germ of a tree of such gigantic dimensions. The seed is sown in the
month of April, the ground being first levelled with rollers, or else
by means of rammers;[2950] after which the seed is thickly sown, and
earth is spread upon it with a sieve, about a thumb deep. If laid
beneath a considerable weight, the seed is unable to spring up, and
is consequently thrown back again into the earth; for which reason
it is often trodden only into the ground. It is then lightly watered
after sunset every three days, that it may gradually imbibe the
moisture until such time as it appears above ground. The young trees
are transplanted at the end of a year, when about three-quarters of
a foot in length, due care being taken to watch for a clear day with
no wind, such being the best suited for the process of transplanting.
It is a singular thing, but still it is a fact, that if, on the day
of transplanting, and only that day, there is the slightest drop of
rain or the least breeze stirring, it is attended with danger[2951]
to the young trees; while for the future they are quite safe from
peril, though at the same time they have a great aversion to all
humidity.[2952] The jujube-tree[2953] is propagated from seed sown in
the month of April. As to the tuber,[2954] it is the best plan to graft
it upon the wild plum, the quince, and the calabrix,[2955] this last
being the name that is given to a wild thorn. Every kind of thorn, too,
will receive grafts remarkably well from the myxa plum,[2956] as well
as from the sorb.

(11.) As to recommending transferring the young plants from the
seed-plot to another spot before finally planting them out, I look
upon it as advice that would only lead to so much unnecessary trouble,
although it is most confidently urged that by this process the leaves
are sure to be considerably larger than they otherwise would.



CHAP. 15.—THE MODE OF PROPAGATING THE ELM.


The elm seed is collected about the calends of March,[2957] before the
tree is covered with leaves, but is just beginning to have a yellow
tint. It is then left to dry two days in the shade, after which it is
thickly sown in a broken soil, earth that has been riddled through
a fine sieve being thrown upon it, to the same thickness as in the
case of the cypress.[2958] If there should happen to be no rain, it
is necessary to water the seed. From the nursery the young plants are
carried at the end of a year to the elm-plots, where they are planted
at intervals of a foot each way. It is better to plant elms in autumn
that are to support the vine, as they are destitute[2959] of seed and
are only propagated from plants. In the vicinity of the City, the
young elms are transplanted into the vineyard at five years old, or,
according to the plan adopted by some, when they are twenty feet in
height. A furrow is first drawn for the purpose, the name given to
which is “novenarius,”[2960] being three feet in depth, and the same
in breadth or even more; into this the young tree is put, and the
earth is moulded up around it to the height of three feet every way.
These mounds are known by the name of “arula”[2961] in Campania. The
intervals are arranged according to the nature of the spot; but where
the country is level, it is requisite that the trees should be planted
wider apart. Poplars and ashes, too, as they germinate with greater
rapidity, ought to be planted out at an earlier period, or, in other
words, immediately after the ides of February.[2962] In arranging trees
and shrubs for the support of the vine, the form of the quincunx[2963]
is the one that is generally adopted, and, indeed, is absolutely
necessary: it not only facilitates the action of the wind, but presents
also a very pleasing appearance, for whichever way you look at the
plantation, the trees will always present themselves in a straight
line. The same method is employed in propagating the poplar from seed
as the elm, and the mode of transplanting it from the seed-plot is the
same as that adopted in transplanting it from the forests.



CHAP. 16.—THE HOLES FOR TRANSPLANTING.


But it is more particularly necessary in transplanting, that the
trees should always be removed to a soil that is similar, or else
superior,[2964] to the one in which they grew before. If taken from
warm or early ripening localities, they ought not to be removed to cold
or backward sites, nor yet, on the other hand, from these last to the
former. If the thing can possibly be done, the holes for transplanting
should be dug sufficiently long before to admit of their being covered
throughout with a thick coat of grass. Mago recommends that they should
be dug a whole year beforehand, in order that they may absorb the heat
of the sun and the moisture of the showers; or, if circumstances do not
admit of this, that fires should be made in the middle of them some two
months before transplanting, that being only done just after rain has
fallen. He says, too, that in an argillaceous[2965] or a hard soil, the
proper measurement is three cubits every way, and on declivitous spots
one palm more, care being taken in every case to make the hole like the
chimney of a furnace, narrower at the orifice than at the bottom. Where
the earth is black, the depth should be two cubits and a palm, and the
hole dug in a quadrangular form.

The Greek writers agree in pointing out much the same proportions, and
are of opinion that the holes ought not to be more than two feet and a
half in depth, or more than two feet wide: at the same time, too, they
should never be less than a foot and a half in depth, even though the
soil should be wet, and the vicinity of water preclude the possibility
of the soil going any deeper. “If the soil is watery,” says Cato,[2966]
“the hole should be three feet in width at the orifice, and one palm
and a foot at the bottom, and the depth four feet. It should be paved,
too, with stones,[2967] or, if they are not at hand, with stakes of
green willow, or, if these cannot be procured, with a layer of twigs;
the depth of the layer so made being a foot and a half.”

It appears to me that I ought here to add, after what has been said
with reference to the nature of trees, that the holes should be sunk
deeper for those which have a tendency to run near the surface of the
earth, such as the ash and the olive, for instance. These trees, in
fact, and others of a similar nature, should be planted at a depth of
four feet, while for the others three feet will be quite sufficient.
“Cut down that stump,” said Papirius Cursor, the general,[2968] when to
the great terror of the prætor of Præneste, he had ordered the lictors
to draw[2969] their axes. And, indeed, there is no harm in cutting away
those portions [of the root] which have become exposed. Some persons
recommend that a bed should be formed at the bottom, of potsherds or
round pebbles,[2970] which both allow the moisture to pass and retain
as much as is wanted; while at the same time they are of opinion that
flat stones are of no use in such a case, and only prevent the root
from penetrating[2971] the earth. To line the bottom with a layer of
gravel would be to follow a middle course between the two opinions.

Some persons recommend that a tree should not be transplanted before
it is two years old, nor yet after three, while others, again, are of
opinion that if it is one year old it is quite sufficient; Cato[2972]
thinks that it ought to be more than five fingers in thickness at the
time. The same author, too, would not have omitted, if it had been of
any importance, to recommend that a mark[2973] should be made on the
bark for the purpose of pointing out the southern aspect of the tree;
so that, when transplanted, it may occupy exactly the same position
that it has previously done; from an apprehension that the north side
of the tree, on finding itself opposite to a southern sun, might split,
and the south side be nipped by the north-eastern blasts. Indeed, there
are some persons who follow a directly opposite practice even in the
vine and the fig,[2974] by placing the north side of the tree, when
transplanted, towards the south, and vice versâ; being of opinion that
by adopting this plan the foliage becomes all the thicker[2975] and
the better able to protect the fruit, which is less liable to fall
off in consequence, and that the tree is rendered all the better for
climbing. Most people, however, take the greatest care to turn to the
south that part of the tree from which the branches have been lopped
at the top, little thinking that they expose it thereby to a chance
of splitting[2976] from the excessive heat. For my own part, I should
prefer that this part of the tree should face that point of the heavens
which is occupied by the sun at the fifth[2977] or even the eighth
hour of the day. People are also equally unaware that they ought not,
through neglect, to let the roots be exposed to the air long enough to
get dry; and that the ground should not be worked about the roots of
trees while the wind is blowing from the north, or, indeed, from any
point of the heavens that lies between north and south-east; or, at
all events, that the roots should not be left to lie exposed to these
winds; the result of such modes of proceeding being, that the trees
die, the grower being all the while in total ignorance of the cause.

Cato[2978] disapproves, too, of all wind and rain whenever the work of
transplanting is going on. When this is the case, it will be beneficial
to let as much adhere to the roots as possible of the earth in which
the tree has grown, and to cover them all round with clods[2979] of
earth: it is for this reason that Cato[2980] recommends that the
young trees should be conveyed in baskets, a very desirable method,
no doubt. The same writer, too, approves of the earth that has been
taken from the surface being laid at the bottom of the hole. Some
persons say,[2981] that if a layer of stones is placed beneath the root
of the pomegranate, the fruit will not split while upon the tree. In
transplanting, it is the best plan to give the roots a bent position,
but it is absolutely necessary that the tree should be placed in such
a manner as to occupy exactly the centre of the hole. The fig-tree, if
the slip when planted is stuck in a squill[2982]—such being the name
of a species of bulb—is said to bear with remarkable rapidity, while
the fruit is exempt from all attacks of the worm: the same precaution,
too, in planting, will preserve the fruit of all other trees in a
similar manner. Who is there, too, that can entertain a doubt that the
very greatest care ought to be taken of the roots of the fig-tree when
transplanted?—indeed, it ought to bear every mark of being taken, and
not torn, from out of the earth. Upon this subject I omit various other
practical precepts, such, for instance, as the necessity of moulding
up the roots with a rammer, a thing that Cato[2983] looks upon as of
primary importance; while, at the same time, he recommends that the
wound made in the stock should be first covered with dung, and then
bound with a layer of leaves.[2984]



CHAP. 17. (12.)—THE INTERVALS TO BE LEFT BETWEEN TREES.


The present seems to me to be the proper occasion for making some
mention of the intervals[2985] that ought to be left between the trees.
Some persons have recommended that pomegranates, myrtles, and laurels
should be planted closer together than the other trees, leaving,
however, a space of nine feet between them. Apple-trees, they say,
should be planted a little wider apart, and pear-trees, almonds, and
figs even still more so. The best rule, however, is to consult the
length of the branches, and the nature of the spot, as well as the
shade that is formed by the tree; for it is of great importance to take
this last into consideration. The shadow thrown by the large trees even
is but of small dimensions, when the branches are disposed around the
body of the tree in a spherical form, as in the apple and the pear, for
instance. In the cherry, on the other hand, and the laurel, the shadow
projected is of enormous extent.



CHAP. 18.—THE NATURE OF THE SHADOW THROWN BY TREES.


The shadows of trees are possessed of certain properties. That of the
walnut is baneful[2986] and injurious to man, in whom it is productive
of head-ache, and it is equally noxious to everything that grows in its
vicinity. The shadow, too, of the pine has the effect of killing[2987]
the grass beneath it; but in both of these trees the foliage presents
an effectual resistance to the winds, while, at the same time, the
vine is destitute of such protection.[2988] The drops of water that
fall from the pine, the quercus, and the holm-oak are extremely heavy,
but from the cypress none fall; the shadow, too, thrown by this last
tree is extremely small, its foliage being densely packed.[2989] The
shadow of the fig, although widely spread, is but light, for which
reason it is allowed to be planted among vines. The shadow of the
elm is refreshing and even nutrimental to whatever it may happen to
cover; though, in the opinion of Atticus, this tree is one of the most
injurious of them all; and, indeed, I have no doubt that such may be
the case when the branches are allowed to become too long; but at the
same time I am of opinion that when they are kept short it can be
productive of no possible harm. The plane also gives a very pleasant
shade,[2990] though somewhat dense: but in this case we must look more
to the luxuriant softness of the grass beneath it than the warmth of
the sun; for there is no tree that forms a more verdant couch on which
to recline.

The poplar[2991] gives no shade whatever, in consequence of the
incessant quivering of its leaves: while that of the alder is very
dense, but remarkably nutritive to plants. The vine affords sufficient
shade for its wants, the leaf being always in motion, and from its
repeated movement tempering the heat of the sun with the shadow that
it affords; at the same time too it serves as an effectual protection
against heavy rains. In nearly all trees the shade is thin, where the
footstalks of the leaves are long.

This branch of knowledge is one by no means to be despised or deserving
to be placed in the lowest rank, for in the case of every variety of
plant the shade is found to act either as a kind nurse or a harsh
step-mother. There is no doubt that the shadow of the walnut, the pine,
the pitch-tree, and the fir is poisonous to everything it may chance to
light upon.



CHAP. 19.—THE DROPPINGS OF WATER FROM THE LEAVES.


A very few words will suffice for the water that drops from the
leaves of trees. In all those which are protected by a foliage so
dense that the rain will not pass through, the drops are of a noxious
nature.[2992] In our enquiries, therefore, into this subject it will be
of the greatest consequence what will be the nature developed by each
tree in the soil in which we are intending to plant it. Declivities,
taken by themselves, require smaller[2993] intervals between the trees,
and in localities that are exposed to the wind it is beneficial to
plant them closer together. However, it is the olive that requires
the largest intervals to be left, and on this point it is the opinion
of Cato,[2994] with reference to Italy, that the very smallest
interval ought to be twenty-five feet, and the largest thirty: this,
however, varies according to the nature of the site. The olive is the
largest[2995] of all the trees in Bætica: and in Africa—if, indeed,
we may believe the authors who say so—there are many olive-trees that
are known by the name of milliariæ,[2996] being so called from the
weight of oil that they produce each year. Hence it is that Mago has
prescribed an interval between these trees of no less than seventy-five
feet every way, or of forty-five at the very lowest, when the soil
happens to be meagre, hard, and exposed to the winds. There is no
doubt, however, that Bætica reaps the most prolific harvests from
between her olives.

It will be generally agreed that it is a most disgraceful piece of
ignorance to lop away the branches more than is absolutely necessary in
trees of vigorous growth, and so precipitate old age; as also, on the
other hand, what is generally tantamount to an avowal of unskilfulness
on the part of those who have planted them, to have to cut them down
altogether. Nothing can reflect greater disgrace upon agriculturists
than to have to undo what they have done, and it is therefore much the
best to commit an error in leaving a superfluity of room.



CHAP. 20. (13.)—TREES WHICH GROW BUT SLOWLY: THOSE WHICH GROW WITH
RAPIDITY.


Some trees are naturally slow in their growth; and those in particular
which grow solely from seed[2997] and are long-lived. On the other
hand, those that are short-lived grow with great rapidity, such as the
fig, pomegranate, plum, apple, pear, myrtle, and willow, for instance;
and yet these are the very first to display their productions, for they
begin to bear at three years old, and make some show of it even before
that period. The pear is the slowest in bearing of all the trees above
enumerated. The cypirus,[2998] however, and the shrub known as the
pseudo-cypirus[2999] are the earliest in coming to maturity, for they
flower almost immediately, and then produce their seed. All trees will
come to maturity more rapidly when the suckers are removed, and the
nutrimental juices are thrown into the stock only.



CHAP. 21.—TREES PROPAGATED FROM LAYERS.


Nature, too, has taught us the art of reproduction from layers. The
bramble, by reason of its thinness and the excessive length to which
it grows, bends downwards, and throws the extremities of its branches
into the earth; these immediately take root again, and would fill
every place far and wide, were it not that the arts of cultivation put
a check to it; so much so, indeed, that it would almost appear that
men are born for nothing else but to take care of the earth. Hence it
is, that a thing that is in itself most noxious and most baneful, has
taught us the art of reproduction by layers and quicksets. The ivy,
too, has a similar property.

Cato[3000] says, that in addition to the vine, the fig, as well as the
olive, the pomegranate, every variety of the apple, the laurel, the
plum, the myrtle, the filbert, the nut of Præneste, and the plane, are
capable of being propagated by layers.

Layers[3001] are of two kinds; in the one, a branch, while still
adhering to the tree, is pressed downwards into a hole that measures
four feet every way: at the end of two years it is cut at the part
where it curves, and is then transplanted at the expiration of three
years more. If it is intended to carry the plant to any distance, it
is the best plan to place the layer, directly it is taken up, either
in an osier basket or any earthen vessel, for its better security
when carried. The other[3002] mode of reproduction by layers is a
more costly one, and is effected by summoning forth a root from the
trunk of the tree even. For this purpose, earthen vessels or baskets
are provided, and are then well packed with earth; through these
the extremities of the branches are passed, and by this mode of
encouragement a root is obtained growing amid the fruit itself, and at
the very summit of the tree; for it is at the summit that this method
is generally adopted. In this way has a bold and daring inventiveness
produced a new tree aloft and far away from the ground. At the end of
two years, in the manner already stated, the layer is cut asunder, and
then planted in the ground, basket and all.

The herb savin[3003] is reproduced by layers, as also by slips; it is
said, too, that lees of wine or pounded wall-bricks make it thrive
wonderfully well. Rosemary[3004] also is reproduced in a similar
manner, as also from cuttings of the branches; neither savin nor
rosemary having any seed. The rhododendrum[3005] is propagated by
layers and from seed.



CHAP. 22. (14.)—GRAFTING: THE FIRST DISCOVERY OF IT.


Nature has also taught us the art of grafting by means of seed. We
see a seed swallowed whole by a famished bird; when softened by the
natural heat of the crop, it is voided, with the fecundating juices of
the dung, upon some soft couch formed by a tree; or else, as is often
the case, is carried by the winds to some cleft in the bark of a tree.
Hence[3006] it is that we see the cherry growing upon the willow,
the plane upon the laurel, the laurel upon the cherry, and fruits of
various tints and hues all springing from the same tree at once. It
is said, too, that the jack-daw, from its concealment of the seeds
of plants in holes which serve as its store-houses, gives rise to a
similar result.



CHAP. 23.—INOCULATION OR BUDDING.


In this, too, the art of inoculating[3007] took its rise. By the aid of
an instrument similar to a shoe-maker’s paring-knife an eye is opened
in a tree by paring away the bark, and another bud is then enclosed
in it, that has been previously removed with the same instrument from
another tree. This was the ancient mode of inoculation with the fig and
the apple. That again, described by Virgil,[3008] requires a slight
fissure to be made in the knot of a bud which has burst through the
bark, and in this is enclosed a bud taken from another tree. Thus far
has Nature been our instructor in these matters.



CHAP. 24.—THE VARIOUS KINDS OF GRAFTING.


A different mode of engrafting, however, has been taught us by chance,
another great instructor, and one from whom, perhaps, we have learnt
a still greater number of lessons. A careful husbandman,[3009] being
desirous, for its better protection, to surround his cottage with a
palisade, thrust the stakes into growing ivy, in order to prevent them
from rotting. Seized by the tenacious grasp of the still living ivy,
the stakes borrowed life from the life of another wood, and it was
found that the stock of a tree acted in place of earth.

For this method of grafting the surface is made level with a saw, and
the stock carefully smoothed with the pruning-knife. This done, there
are two modes of proceeding, the first of which consists in grafting
between the bark and the wood. The ancients were fearful at first of
cutting into the wood, but afterwards they ventured to pierce it to
the very middle, and inserted the graft in the pith, taking care to
enclose but one, because the pith, they thought, was unable to receive
more. An improved method has, however, in more recent times, allowed
of as many as six grafts being inserted, it being considered desirable
by additional numbers to make a provision for the contingency of some
of them not surviving. With this view, an incision is carefully made
in the middle of the stock, a thin wedge being inserted to prevent the
sides from closing, until the graft, the end of which is first cut to
a point, has been let into the fissure. In doing this many precautions
are necessary, and more particularly every care should be taken that
the stock is that of a tree suitable for the purpose, and that the
graft is taken from one that is proper for grafting. The sap,[3010]
too, is variously distributed in the several trees, and does not occupy
the same place in all. In the vine and the fig[3011] the middle of the
tree is the driest, and it is in the summit that the generative power
resides; hence it is, that from the top the grafts are selected. In the
olive, again, the sap lies in the middle of the tree, and the grafts
are accordingly taken from thence: the upper part being comparatively
dry. The graft takes most easily in a tree, the bark of which is of a
similar[3012] nature to its own, and which, blossoming at the same time
as itself, has an affinity with it in the development of the natural
juices. On the other hand, the process of uniting is but slow where the
dry is brought in contact with the moist, and the hard bark with the
soft.

The other points to be observed are the following: the incision must
not be made in a knot, as such an inhospitable rigidity will certainly
repel the stranger plant; the incision should be made, too, in the part
which is most compact, and it must not be much more than three fingers
in length, not in a slanting direction, nor yet such as to pierce the
tree from side to side. Virgil[3013] is of opinion, that the grafts
should not be taken from the top, and it is universally agreed that
it is best to select them from the shoulders of the tree which look
towards the north-east;[3014] from a tree, too, that is a good bearer,
and from a young shoot,[3015] unless, indeed, the graft is intended
for an old tree, in which case it should be of a more robust growth.
In addition to this, the graft ought to be in a state of impregnation,
that is to say, swelling[3016] with buds, and giving every promise of
bearing the same year; it ought, too, to be two years old, and not
thinner than the little finger. The graft is inserted at the smaller
end, when it is the object of the grower that it should not grow to
any considerable length, but spread out on either side. But it is more
particularly necessary that the buds upon the graft should be smooth
and regular, and there must be nothing upon it at all scabbed or
shrivelled. Success may be fully reckoned on if the pith of the graft
is brought in contact with the wood and bark of the stock; that being
a much better plan than merely uniting them bark to bark. In pointing
the graft, the pith ought not to be laid bare; still, however, it
should be pared with a small knife, so that the point may assume the
form of a fine wedge, not more than three fingers in length, a thing
that may be very easily effected by first steeping it in water and then
scraping it. The graft, however, must not be pointed while the wind is
blowing, and care must be taken that the bark is not rubbed off from
either graft or stock. The graft must be thrust into the stock up to
the point where the bark begins; care, too, must be taken not to wrench
off the bark during the process of insertion, nor must it be thrust
back so as to form any folds or wrinkles. It is for this reason that
a graft should not be used that is too full of sap, no, by Hercules!
no more than one that is dry and parched; for by doing so, in the
former case, from the excess of moisture, the bark becomes detached,
and in the latter, from want of vitality, it yields no secretions, and
consequently will not incorporate with the stock.

It is a point most religiously[3017] observed, to insert the graft
during the moon’s increase, and to be careful to push it down with both
hands; indeed, it is really the fact, that in this operation, the two
hands, acting at the same moment, are of necessity productive of a more
modified and better regulated effort. Grafts that have been inserted
with a vigorous effort are later in bearing, but last all the longer;
when inserted more tenderly, the contrary is the result. The incision
in the stock should not be too open or too large; nor ought it to be
too small, for in such case it would either force out the graft or else
kill it by compression. But the most necessary precaution of all is to
see that the graft is fairly inserted, and that it occupies exactly the
middle of the fissure in the stock.

Some[3018] persons are in the habit of making the place for the
fissure in the stock with the knife, keeping the edges of the incision
together with bands of osier bound tightly round the stock; they then
drive in the wedges, the bands keeping the stock from opening too
wide. There are some trees that are grafted in the seed-plot and then
transplanted the very same day. If the stock used for grafting is of
very considerable thickness, it is the best plan to insert the graft
between the bark and the wood; for which purpose a wedge made of bone
is best, for fear lest when the bark is loosened the wood should be
bruised. In the cherry, the bark is removed before the incision in the
stock is made; this, too, is the only tree that is grafted after the
winter solstice. When the bark is removed, this tree presents a sort of
downy substance, which, if it happens to adhere to the graft, will very
speedily destroy it. When once the graft is safely lodged by the aid
of the wedge, it is of advantage to drive it home. It is an excellent
plan, too, to graft as near the ground as possible, if the conformation
of the trunk and knots will admit of it. The graft should not project
from the stock more than six fingers in length.

Cato[3019] recommends a mixture of argil[3020] or powdered chalk, and
cow-dung, to be stirred together till it is of a viscous consistency,
and then inserted in the fissure and rubbed all round it. From his
writings on the subject it is very evident that at that period it was
the practice to engraft only between the wood and the bark, and in no
other way; and that the graft was never inserted beyond a couple of
fingers in depth.[3021] He recommends, too, that the pear and the apple
should be grafted in spring, as also during fifty days at the time
of the summer solstice, and during the time of vintage; but that the
olive and the fig should be grafted in spring only, in a thirsting, or
in other words, a dry moon: he says also, that it should be done in
the afternoon, and not while a south wind is blowing. It is a singular
thing, that, not content with protecting the graft in the manner
already mentioned, and with sheltering it from showers and frosts by
means of turfs and supple bands of split osiers, he recommends that
it should be covered with bugloss[3022] as well—a kind of herb so
called—which is to be tied over it and then covered up with straw. At
the present day, however, it is thought sufficient to cover the bark
with a mixture of mud and chaff, allowing the graft to protrude a
couple of fingers in length.

Those who wait for spring to carry on these operations, will find
themselves pressed for time; for the buds are then just bursting,
except, indeed, in the case of the olive, the buds of which are
remarkably long in developing themselves, the tree itself having
extremely little sap beneath the bark; this, too, is apt, when in too
large quantities, to injure the grafts. As to the pomegranate, too,
the fig, and the rest of the trees that are of a dry nature, it is far
from beneficial to them to put off the process of grafting till a late
period. The pear may be grafted even when in blossom, so that with it
the operation may be safely delayed to the month of May even. If grafts
of fruit trees have to be carried to any distance, it is considered the
best plan, with the view of preserving the juices, to insert them in a
turnip; they may also be kept alive by placing them near a stream or a
pond, between two hollow tiles covered up at each end with earth. (15.)
The grafts of vines, however, are kept in dry holes, in which they are
covered over with straw, and then with earth, care being taken to let
the tops protrude.[3023]



CHAP. 25.—GRAFTING THE VINE.


Cato[3024] speaks of three[3025] methods of grafting the vine. The
first consists in piercing the stock to the pith, and then inserting
the grafts, sharpened at the end, in manner already mentioned, care
being taken to bring the pith of the two in contact. The second is
adopted in case the two vines are near one another, the sides of them
both being cut in a slanting direction where they face each other;
after which the pith of the two trees is united by tying them together.
In employing the third method, the vine is pierced obliquely to the
pith, and grafts are inserted a couple of feet in length; they are then
tied down and covered over with prepared earth, care being taken to
keep them in an upright position. In our time, however, this method
has been greatly improved by making use of the Gallic auger,[3026]
which pierces the tree without scorching it; it being the fact, that
everything that burns the tree weakens its powers. Care, too, is taken
to select a graft that is just beginning to germinate, and not to leave
more than a couple of the buds protruding from the stock. The vine,
too, should be carefully bound with withes of elm, incisions being made
in it on either side, in order that the slimy juices may exude through
them in preference, which are so particularly injurious to the vine.
After this, when the graft has grown a couple of feet, the withe by
which it is fastened should be cut, and the graft left to increase of
its own natural vigour.

The proper time[3027] for grafting the vine has been fixed as from the
autumnal equinox to the beginning of the budding season. The cultivated
plants are generally grafted on the roots of wild ones, where these
last are of a drier nature. But if a cultivated tree should be grafted
on a wild one, it will very soon degenerate and become wild.[3028]
The rest depends entirely on the weather. Dry weather is the best
suited for grafting; an excellent remedy for any evil effects that may
possibly be caused by the drought, being a few pots of earth placed
near the stock and filled with ashes; through which a little water is
slowly filtered. Light dews are extremely favourable to grafting by
inoculation.



CHAP. 26. (16)—GRAFTING BY SCUTCHEONS.[3029]


Grafting by scutcheons would appear to owe its origin to that by
inoculation; but it is suited more particularly to a thick bark,
such as that of the fig-tree for instance. For this purpose, all the
branches are cut off, in order that they may not divert the sap,
after which the smoothest part is selected in the stock, and a
scutcheon[3030] of the bark removed, due care being taken that the
knife does not go below it. A similar piece of bark from another tree,
with a protuberant bud upon it, is then inserted in its place, care
being taken that the union is so exact that there is no room left for
a cicatrix to form, and the juncture so perfect as to leave no access
to either damp or air: still, however, it is always the best plan to
protect the scutcheon by means of a plaster of clay and a band. Those
who favour the modern fashions pretend that this method has been only
discovered in recent times; but the fact is, that we find it employed
by the ancient Greeks, and described by Cato,[3031] who recommends it
for the olive and the fig; and he goes so far as to determine the very
dimensions even, in accordance with his usual exactness. The scutcheon,
he says, when taken off with the knife should be four[3032] fingers
in length, and three in breadth. It is then fitted to the spot which
it is to occupy, and anointed with the mixture of his which has been
previously described.[3033] This method, too, he recommends for the
apple.

Some persons have adopted another plan with the vine, which consists
partly of that of grafting by scutcheon, and partly by fissure; they
first remove a square piece of bark from the stock, and then insert a
slip in the place that is thus laid bare. I once saw at Thuliæ,[3034]
near Tibur, a tree that had been grafted[3035] upon all these various
ways, and loaded with fruit of every kind. Upon one branch there
were nuts to be seen, upon another berries, upon another grapes,
upon another pears, upon another figs, and upon others pomegranates,
and several varieties of the apple; the tree, however, was but very
short-lived. But, with all our experiments, we find it quite impossible
to rival Nature; for there are some plants that can be reproduced in
no other manner than spontaneously, and then only in wild and desert
spots. The plane[3036] is generally considered the best adapted to
receive every kind of graft, and next to it the robur; both of them,
however, are very apt to spoil the flavour of the fruit. Some trees
admit of grafting upon them in any fashion, the fig and the pomegranate
for instance; the vine, however, cannot be grafted upon by scutcheon,
nor, indeed, any other of the trees which has a bark that is thin,
weak, or cracked. So, too, those trees which are dry, or which contain
but little moisture, will not admit of grafting by inoculation. This
last method is the most prolific of them all, and next to it that by
scutcheon, but neither of them can be depended upon, and this last more
particularly; for when the adherence of the bark is the only point
of union the scutcheon is liable to be immediately displaced by the
slightest gust of wind. Grafting by insertion is the most reliable
method, and the tree so produced will bear more fruit than one that is
merely planted.

(17.) We must not here omit one very singular circumstance. Corellius,
a member of the Equestrian order at Rome, and a native of Ateste,
grafted a chesnut, in the territory of Neapolis, with a slip taken
from the same tree, and from this was produced the chesnut which is so
highly esteemed, and from him has derived its name. At a later period
again, Etereius, his freedman, grafted the Corellian[3037] chesnut
afresh. There is this difference between the two; the Corellian is more
prolific, but the Etereian is of superior quality.



CHAP. 27.—PLANTS WHICH GROW FROM A BRANCH.


It is accident that has the credit of devising the other methods of
reproduction, and has taught us how to break off a branch of a tree
and plant it in the earth, from seeing stakes, when driven in the
earth, take root, and grow. It is in this way that many of the trees
are reproduced, and the fig more particularly; which may be propagated
also by all the methods previously stated, with the exception, indeed,
of that by cuttings. The best plan, however, is to take a pretty
large branch, and, after sharpening it like a stake,[3038] to drive
it to a considerable depth in the earth, taking care to leave only a
small portion above ground, and then to cover it over with sand. The
pomegranate, too, may be planted in a similar manner, the hole being
first widened with a stake; the same, too, with the myrtle. For all
trees of this nature a branch is required three feet in length, and not
quite the thickness of the arm, care being taken to keep the bark on,
and to sharpen the branch to a point at the lower end.



CHAP. 28.—TREES WHICH GROW FROM CUTTINGS; THE MODE OF PLANTING THEM.


The myrtle, too, may be propagated from cuttings, and the mulberry
is grown no other way, the religious observances relative to
lightning[3039] forbidding it to be grafted on the elm;[3040] hence it
would appear that the present is a fitting opportunity for speaking of
reproduction from cuttings. Care should be taken more particularly to
select the slips from fruitful trees, and it should be seen that they
are neither bent, scabbed, nor bifurcated. The cuttings, too, should
be thick enough to fill the hand, and not less than a foot in length:
the bark, too, should be uninjured, and the end which is cut and lies
nearest the root should always be the one inserted in the earth. While
the work of germination is going on, the slip should be kept well
moulded up, until such time as it has fully taken root.



CHAP. 29. (18.)—THE CULTIVATION OF THE OLIVE.


Cato[3041] has treated so well of the precautions that are necessary
in cultivating the olive, that we cannot do better than employ his
own words on the subject. “Let the slips of olive,” says he, “which
you are about to plant in the hole, be three feet long, and be very
careful in your treatment of them, so as not to injure the bark when
you are smoothing or cutting them. Those that you are going to plant
in the nursery, should be a foot in length; and you should plant them
the following way: let the spot be turned up with the mattock, and the
soil be well loosened. When you put the cutting in the ground, press
it down with the foot only. If there is any difficulty in making it
descend, drive it down with a mallet or the handle of the dibble, but
be careful not to break the bark in doing so. Take care, too, not to
make a hole first with the dibble, for the slip will have the better
chance of surviving the other way. When the slip is three years old,
due care must be taken to observe the direction in which each side of
the bark is situate. If you are planting in holes or furrows, you must
put in the cuttings by threes, but be careful to keep them separate.
Above ground, however, they should not be more than four fingers
distant from one another, and each of them must have a bud or eye above
ground. In taking up the olive for transplanting, you must use the
greatest caution, and see that there is as much earth left about the
roots as possible. When you have covered the roots well up, tread down
the earth with the foot, so that nothing may injure the plant.”



CHAP. 30.—TRANSPLANTING OPERATIONS AS DISTRIBUTED THROUGHOUT THE
VARIOUS SEASONS OF THE YEAR.


If the enquiry is made what is the proper season for planting the
olive, my answer will be, “where the soil is dry, at seed-time; where
it is rich, in spring.” The following is the advice given by Cato[3042]
on the subject: “Begin pruning your olive-yard fifteen days before the
vernal equinox; from that period for forty days will be a good time for
doing so. In pruning, adopt the following rules: when the ground is
extremely productive, remove all the dry branches or such as may have
been broken by the wind; where it is not so prolific, you must cut away
still more, then tie them well up, and remove all tangled branches, so
as to lighten the roots. In autumn clear away the roots of the olive,
and then manure them. The man who labours most assiduously and most
earnestly will remove the very smallest fibres that are attached to the
roots. If, however, he hoes negligently, the roots will soon appear
again above ground, and become thicker than ever; the consequence of
which will be, that the vigour of the tree will be expended in the
roots.”

We have already stated, when speaking on the subject of oil,[3043]
what are the different varieties of the olive, in what kind of soil it
ought to be planted, and what is the proper aspect for the olive-yard.
Mago recommends that the olive should be planted on declivities and
in dry spots, in an argillaceous soil, and between autumn and the
winter equinox. If, on the other hand, the soil is thick, humid, or
somewhat damp even, it ought to be planted between harvest and the
winter solstice; advice, however, it should be remembered, applicable
to Africa more particularly. At the present day, it is mostly the
custom in Italy to plant the olive in spring, but if it is thought
desirable to do so in the autumn as well, there are only four days in
the forty between the equinox and the setting of the Vergiliæ that
are unfavourable for planting it.[3044] It is a practice peculiar to
Africa, to engraft the olive on the wild olive only, a tree which is
made to be everlasting, as it were; for when it becomes old the best
of the suckers are carefully trained for adoption by grafting, and in
this way in another tree it grows young again; an operation which may
be repeated continuously as often as needed; so much so, indeed, that
the same olive-yard will last for ages.[3045] The wild olive also is
propagated both by insertion and inoculation.

It is not advisable to plant the olive in a site where the quercus
has been lately rooted up; for the earth-worms, known as “raucæ,”
which breed in the root of the quercus, are apt to get into that of
the olive. It has been found, from practical experience, that it is
not advisable to bury the cuttings in the ground nor yet to dry them
before they are planted out. Experience has also taught us that it is
the best plan to clean an old olive-yard every other year, between the
vernal equinox and the rising of the Vergiliæ, and to lay moss about
the roots; to dig holes also round the trees every year, just after the
summer solstice, two cubits wide by a foot in depth, and to manure them
every third year.

Mago, too, recommends that the almond should be planted between the
setting of Arcturus[3046] and the winter solstice. All the varieties,
however, of the pear, he says, should not be planted at the same time,
as they do not all blossom together. Those with oblong or round fruit
should be planted between the setting of the Vergiliæ and the winter
solstice, and the other kinds in the middle of the winter, after the
setting of the constellation of the Arrow,[3047] on a site that looks
towards the east or north. The laurel should be planted between the
setting of the Eagle and that of the Arrow; for we find that the
proper time for planting is equally connected with the aspect of the
heavenly bodies. For the most part it has been recommended that this
should be done in spring and autumn; but there is another appropriate
period also, though known to but few, about the rising of the Dog-star,
namely; it is not, however, equally advantageous in all localities.
Still, I ought not to omit making mention of it, as I am not setting
forth the peculiar advantages of any one country in particular, but am
enquiring into the operations of Nature taken as a whole.

In the region of Cyrenaica, the planting is generally done while the
Etesian[3048] winds prevail, and the same is the case in Greece, and
with the olive more particularly in Laconia. At this period, also, the
vine is planted in the island of Cos; and in the rest of Greece they
do not neglect to inoculate and graft, though they do not[3049] plant,
their trees just then. The natural qualities, too, of the respective
localities, exercise a very considerable influence in this respect; for
in Egypt they plant in any month, as also in all other countries where
summer rains do not prevail, India and Æthiopia, for instance. When
trees are not planted in the spring they must be planted in autumn, as
a matter of course.

There are three stated periods, then, for germination;[3050] spring,
the rising of the Dog-star, and that of Arcturus. And, indeed, it is
not the animated beings only that are ardent for the propagation of
their species, for this desire is manifested in even a greater degree
by the earth and all its vegetable productions; to employ this tendency
at the proper moment is the most advantageous method of ensuring an
abundant increase. These moments, too, are of peculiar importance
in relation to the process of grafting, as it is then that the two
productions manifest a mutual desire of uniting. Those who prefer the
spring for grafting commence operations immediately after the vernal
equinox, reckoning on the fact that then the buds are just coming out,
a thing that greatly facilitates the union of the barks. On the other
hand, those who prefer the autumn graft immediately after the rising
of Arcturus, because then the graft at once takes root in some degree,
and becomes seasoned for spring, so as not to exhaust its strength all
at once in the process of germination. However, there are certain fixed
periods of the year, in all cases, for certain trees; thus, the cherry,
for instance, and the almond, are either planted or grafted about the
winter solstice. For many trees the nature of the locality will be the
best guide; thus, where the soil is cold and moist it is best to plant
in spring, and where it is dry and hot, in autumn.

Taking Italy in general, the proper periods for these operations may be
thus distributed:—The mulberry is planted at any time between the ides
of February[3051] and the vernal equinox; the pear, in the autumn, but
not beyond the fifteenth day before the winter solstice; the summer
apples, the quince, the sorb, and the plum, between mid-winter and the
ides of February; the Greek carob[3052] and the peach, at any time
in autumn before the winter solstice; the various nuts, such as the
walnut, pine, filbert, almond, and chesnut, between the calends of
March[3053] and the ides of that month;[3054] the willow and the broom
about the calends of March. The broom is grown from seed, and in a dry
soil, the willow from plants, in a damp locality, as already stated on
former occasions.[3055]

(19.) That I may omit nothing to my knowledge of the facts that I have
anywhere been able to ascertain, I shall here add a new method of
grafting, which has been discovered by Columella,[3056] as he asserts,
by the aid of which trees even of a heterogeneous or dissociable nature
may be made to unite; such, for instance, as the fig and the olive.
In accordance with this plan, he recommends that a fig-tree should be
planted near an olive, at a distance sufficiently near to admit of the
fig being touched by a branch of the olive when extended to its full
length; as supple and pliant a one as possible being selected for the
purpose, and due care being taken all the time to render it seasoned
by keeping it constantly on the stretch. After this, when the fig has
gained sufficient vigour, a thing that generally happens at the end
of three or five years at most, the top of it is cut off, the end
of the olive branch being also cut to a point in the manner already
stated.[3057] This point is then to be inserted in the trunk of the
fig, and made secure with cords, lest, being bent, it should happen
to rebound: in this way we find the method of propagating by layers
combined with that of grafting. This union between the two parent trees
is allowed to continue for three years, and then in the fourth the
branch is cut away and left entirely upon the tree that has so adopted
it. This method, however, is not at present universally known, at all
events, so far as I have been able to ascertain.



CHAP. 31.—CLEANING AND BARING THE ROOTS, AND MOULDING THEM.


In addition to these particulars, the same considerations that I have
already[3058] mentioned in reference to warm or cold, moist or dry
soils, have also taught us the necessity of trenching around the roots.
These trenches, however, in a moist, watery soil, should be neither
wide nor deep; while the contrary is the case where the ground is hot
and dry; it being the object, in the latter instance, to let them
receive and retain as much water as possible. This rule is applicable
to the culture of old trees as well; for in very hot places the roots
are well moulded in summer, and carefully covered up, to prevent the
heat of the sun from parching them. In other places, again, the ground
is cleared away from the roots, in order to give free access to the
air, while in winter they are carefully moulded to protect them from
the frost. The contrary is the case, however, in hot climates, for
there they bare the roots in winter for the purpose of ensuring a
supply of moisture to the parched fibres.

In all places the rule is to make a circular trench three feet in width
at the foot of the tree; this, however, it is not possible to do in
meadows, where the roots, in their fondness for the sun and showers,
range near the surface far and wide. Such, then, are the general
observations that we have to make in reference to the planting and
grafting of trees that we value for their fruits.



CHAP. 32. (20.)—WILLOW-BEDS.


It now remains to give an account of those trees which are planted for
the sake of others—the vine[3059] more particularly—and the wood of
which is cut from time to time. Holding the very first rank among these
we find the willow, a tree that is always planted in a moist soil. The
hole, however, should be two feet and a half in depth, and the slip a
foot and a half only in length. Willow stakes are also used for the
same purpose, and the stouter they are the better: the distance left
between these last should be six feet. When they are three years old
their growth is checked by cutting them down within a couple of feet
from the ground, the object being to make them spread out, so that by
the aid of their branches they may be cleared without the necessity
of using a ladder; for the willow is the more productive the nearer
its branches are to the ground. It is generally recommended to trench
round the willow every year, in the month of April. Such is the mode of
cultivation employed for the osier willow.[3060]

The stake willow[3061] is reproduced both from suckers and cuttings,
in a trench of the same dimensions. Stakes may be cut from it at the
end of about three years mostly. These stakes are also used to supply
the place of the trees as they grow old, being fixed in the ground as
layers, and cut away from the trunk at the end of a year. A single
jugerum of osier willows will supply osiers[3062] sufficient for
twenty-five jugera of vines. It is for a similar purpose that the white
poplar[3063] is grown; the trenches being two feet deep and the cutting
a foot and a half in length. It is left to dry for a couple of days
before it is planted, and a space is left between the plants a foot and
a palm in width, after which they are covered with earth to the depth
of a couple of cubits.



CHAP. 33.—REED-BEDS.


The reed[3064] requires a soil still moister even than that employed
for the willow. It is planted by placing the bulb of the root, that
part which some people call the “eye,”[3065] in a trench three quarters
of a foot in depth, at intervals of two feet and a half. A reed-bed
will renew itself spontaneously after the old one has been rooted up, a
circumstance which it has been found more beneficial to take advantage
of than merely to thin them, as was formerly the practice; the roots
being in the habit of creeping and becoming interlaced, a thing that
ends eventually in the destruction of the bed. The proper time for
planting reeds is before the eyes begin to swell, or, in other words,
before the calends of March.[3066] The reed continues to increase until
the winter solstice, but ceases to do so when it begins to grow hard, a
sign that it is fit for cutting. It is generally thought, too, that the
reed requires to be trenched round as often as the vine.

The reed also is planted in a horizontal position,[3067] and then
covered with earth to a very great depth; by this method as many plants
spring up as there are eyes. It is propagated, also, by planting out in
trenches a foot in depth, care being taken to cover up two of the eyes,
while a third knot is left just on a level with the ground; the head,
too, is bent downwards, that it may not become charged with dew. The
reed is usually cut when the moon is on the wane.[3068] When required
for the vineyard, it is better dried for a year than used in a green
state.



CHAP. 34.—OTHER PLANTS THAT ARE CUT FOR POLES AND STAKES.


The chesnut is found to produce better stays[3069] for the vine than
any other tree, both from the facility with which they are worked,
their extremely lasting qualities, and the circumstance that, when
cut, the tree will bud again more speedily than the willow[3070] even.
It requires a soil that is light without being gravelly, a moist,
sandy one more particularly, or else a charcoal earth,[3071] or a fine
tufa[3072] even; while at the same time a northern aspect, however cold
and shady, and if upon a declivity even, greatly promotes its growth.
It refuses to grow, however, in a gravelly soil, or in red earth,
chalk, or, indeed, any kind of fertilizing ground. We have already
stated,[3073] that it is reproduced from the nut, but it will only grow
from those of the largest size, and then only when they are sown in
heaps of five together. The ground above the nuts should be kept broken
from the month of November to February, as it is at that period that
the nuts lose their hold and fall of themselves from the tree, and then
take root. There ought to be intervals of a foot in width left between
them,[3074] and the hole in which they are planted should be nine
inches every way. At the end of two years or more they are transplanted
from this seed plot into another, where they are laid out at intervals
of a couple of feet.

Layers are also employed for the reproduction of this tree, and there
is none to which they are better[3075] adapted: the root of the plant
is left exposed, and the layer is placed in the trench at full length,
with the summit also protruding from the earth; the result being,
that it shoots from the top as well as the root. When transplanted,
however, it is very hard to be reconciled, as it stands in dread of all
change. Hence it is, that it is nearly two years before it will begin
to shoot upward; from which circumstance it is generally preferred
to rear the slips in the nursery from the nut itself, to obtaining
them from quicksets. The mode of cultivation does not differ from
that employed with the plants already mentioned.[3076] It is trenched
around, and carefully lopped for two successive years; after which it
is able to take care of itself, the shade it gives sufficing to stifle
all superfluous suckers: before the end of the sixth year it is fit for
cutting.

A single jugerum of chesnuts will provide stays for twenty jugera of
vineyard, and the branches that are taken from near the roots afford a
supply of two-forked uprights; they will last, too, till after the next
cutting of the tree.

The æsculus,[3077] too, is grown in a similar manner, the time for
cutting being three years at the latest. Being less difficult, too, to
propagate, it may be planted in any kind of earth, the acorn—and it is
only with the æsculus that this is done—being sown in spring, in a hole
nine inches in depth, with intervals between the plants of two feet
in width. This tree is lightly hoed, four times a year. This kind of
stay is the least likely to rot of them all; and the more the tree is
cut, the more abundantly it shoots. In addition to the above, they also
grow other trees for cutting that we have already mentioned—the ash for
instance, the laurel, the peach, the hazel, and the apple; but then
they are of slower growth, and the stays made from them, when fixed in
the ground, are hardly able to withstand the action of the earth, and
much less any moisture. The elder, on the other hand, which affords
stakes of the very stoutest quality, is grown from cuttings, like the
poplar. As to the cypress, we have already spoken of it at sufficient
length.[3078]



CHAP. 35. (21.)—THE CULTURE OF THE VINE AND THE VARIOUS SHRUBS WHICH
SUPPORT IT.


Having now described what we may call the armoury[3079] of the vine,
it remains for us to treat with a particular degree of care of the
nature of the vine itself.

The shoots of the vine, as also of certain other trees, the interior of
which is naturally of a spongy quality, have certain knots or joints
upon the stem that intercept the pith. The intervals between these
joints in the branches are short, and more particularly so towards the
extremities. The pith, in itself the vivifying spirit of the tree,
is always taking an onward direction, so long as the knot, by being
open in the centre, allows it a free passage. If, however, the knot
should become solidified and deny it a passage, the pith is then thrown
downward upon the knot that lies next below it, and making its escape,
issues forth there in the shape of a bud, these buds always making
their appearance on each side alternately, as already mentioned in the
case of the reed and the giant-fennel;[3080] in other words, where one
bud makes its appearance at the bottom of a knot to the right, the next
one takes its place on the left, and so on alternately. In the vine
this bud is known as the “gem,”[3081] as soon as the pith has formed
there a small round knob; but before it has done this, the concavity
that is left upon the surface is merely called the “eye:”[3082] when
situate at the extremity of the shoot, it is known as the “germ.”[3083]
It is in the same way, too, that the stock branches, suckers, grapes,
leaves, and tendrils of the vine are developed: and it is a very
surprising fact, that all that grows on the right[3084] side of the
tree is stronger and stouter than on the left.

Hence it is, that when slips of this tree are planted, it is necessary
to cut these knots in the middle, in order to prevent the pith from
making its escape. In the same way, too, when planting the fig, suckers
are taken, nine inches in length, and after the ground is opened they
are planted with the part downwards that grew nearest to the tree, and
with a couple of eyes protruding from the earth—in slips of trees, that
part is properly called the eye which is to give birth to the future
bud. It is for this reason that, in the seed-plots even the slips that
are thus planted sometimes bear the same year the fruit that they would
have borne if they had remained upon the tree: this takes place when
they have been planted in good seasons and are replete with fecundity,
for then they bring to maturity the fruits the conception of which was
commenced in another spot. Fig-trees that are thus planted may very
easily be transplanted in the third year. As some compensation for the
rapidity with which this tree becomes[3085] old, it has thus received
the privilege of coming to maturity[3086] at a very early period.

The vine throws out a great number of shoots. In the first place,
however, none of them are ever used for planting, except those which
are useless, and would have been cut away as mere brushwood; while,
on the other hand, every part is pruned off that has borne fruit the
previous year. In former times, it was the custom to plant the slip
with a head at the extremity, consisting of a piece of the hard wood on
each side of it, the same, in fact, that is called a mallet shoot[3087]
at the present day. In more recent times, however, the practice has
been adopted of pulling it off merely with a heel attached to it, as
in the fig;[3088] and there is no kind of slip that takes with greater
certainty. A third method, again, has been added to the former ones,
and a more simple one as well, that of taking the slip without any
heel at all. These slips are known by the name of arrow-[3089]shoots,
when they are twisted before planting; and the same, when they are
neither cut short nor twisted, are called three-budded[3090] slips.
The same sucker very often furnishes several slips of this kind. To
plant a stock-shoot[3091] of the vine is unproductive, and, indeed,
no shoots will bear unless they are taken from a part that has borne
fruit already. A slip that has but few knots upon it, is looked upon
as likely not to bear; while a great number of buds is considered an
indication of fruitfulness. Some persons say that no suckers ought to
be planted, but those which have already blossomed. It is far from
advantageous[3092] to plant arrow-slips, for after being twisted,
they are apt to break in transplanting. The slips when planted should
be a foot in length,[3093] and not less, and they ought to have five
or six knots upon them; with the dimensions above stated, they cannot,
however, possibly have less than three buds. It is considered the most
advantageous plan to plant them out the same day that they are cut; but
if it is found necessary to plant them some time after, they should be
kept in the way that we have already mentioned;[3094] particular care
being taken not to let them protrude from the earth, lest they should
become dried by the action of the sun, or nipped by the wind or frost.
When they have been kept too long in a dry place, they must be put in
water for several days, for the purpose of restoring their verdancy and
freshness.

The spot selected, whether for nursery or vineyard, ought to be
exposed to the sun, and of as great extent as possible; the soil being
turned up to a depth of three feet with a two-pronged fork. The earth,
on being thrown up with the mattock,[3095] swells naturally,[3096]
and ridges are formed with it four feet in height, intersected by
trenches a couple[3097] of feet in depth. The earth in the trenches
is carefully cleansed and raked out,[3098] so that none of it may be
left unbroken, care being taken also to keep it exactly level; if the
ridges are unequal, it shows that the ground has been badly dug. At
the same time the breadth should be measured of each ridge that lies
between the trenches. The slips are planted either in holes or else in
elongated furrows, and then covered with very fine earth; but where it
is a light soil, the grower will lose his pains should he neglect to
place a layer of richer mould beneath. Not less than a couple of slips
should be planted together, keeping them exactly on a level with the
adjoining earth, which should be pressed down and made compact with the
dibble. In the seed-plot there should be intervals left between each
two settings a foot and a half in breadth and half a foot in length:
when thus planted, it is usual, at the end of two years, to cut the
mallet-shoots at the knot nearest the ground, unless there is some
good reason for sparing them. When this is done, they throw out eyes,
and with these upon them at the end of three years the quicksets are
transplanted.

There is another method, also, of planting[3099] the vine, which
a luxurious refinement in these matters has introduced. Four
mallet-shoots are tightly fastened together with a cord in the greenest
part, and when thus arranged are passed through the shank-bone of an
ox or else a tube of baked earth, after which they are planted in the
ground, care being taken to leave a couple of buds protruding: in this
way they become impregnated with moisture, and, immediately on being
cut, throw out fresh wood. The tube is then broken, upon which the
root, thus set at liberty, assumes fresh vigour, and the clusters[3100]
ultimately bear upon them grapes belonging to the four kinds thus
planted together.

In consequence of a more recent discovery, another method has been
adopted. A mallet-shoot is split down the middle and the pith
extracted, after which the two portions are fastened together, every
care being taken not to injure the buds. The mallet-shoot is then
planted in a mixture of earth and manure, and when it begins to throw
out branches it is cut, the ground being repeatedly dug about it.
Columella[3101] assures us that the grapes of this plant will have no
stones, but it is a more surprising thing that the slip itself should
survive when thus deprived of the pith.[3102] Still, however, I think I
ought not to omit the fact that there are some slips that grow without
the ordinary articulations of trees upon them; thus, for instance, five
or six very small sprigs of box,[3103] if tied together and put in the
ground, will take root. It was formerly made a point to take these
sprigs from a box-tree that had not been lopped, as it was fancied that
in the last case they would not live; experience, however, has since
put an end to that notion.

The culture of the vineyard naturally follows the training of the
nursery. There are five[3104] different kinds of vine: that with
the branches running[3105] along the ground, the vine that stands
without support,[3106] the vine that is propped and requires
no cross-piece,[3107] the vine that is propped and requires a
single cross-piece, and the vine that requires a trellis of four
compartments.[3108] The mode of cultivation requisite for the propped
vine may be understood as equally adapted to the one that stands by
itself and requires no support, for this last method is only employed
where there is a scarcity of wood for stays. The stay with the single
cross-piece in a straight line is known by the name of “canterius.” It
is the best of all for the wine, for then the tree throws no shadow,
and the grape is ripened continuously by the sun, while, at the same
time, it derives more advantage from the action of the wind, and
disengages the dew with greater facility: the superfluous leaves and
shoots, too, are more easily removed, and the breaking up of the earth
and other operations about the tree are effected with greater facility.
But, above all, by the adoption of this method, the tree sheds its
blossoms more beneficially than under any other circumstances. This
cross-piece is generally made of a stake, or a reed, or else of a rope
of hair or hemp, as is usually the case in Spain and at Brundisium.
When the trellis is employed, wine is produced in greater quantities;
this method has its name of “compluviata” from the “compluvium” or
square opening in the roofs of our houses; the trellis is divided into
four compartments by as many cross-pieces. This mode of planting the
vine will now be treated of, and it will be found equally applicable to
every kind, with the only difference that under this last method the
operation is somewhat more complicated.

The vine is planted three different ways; in a soil that has been
turned up with the spade—the best of the three; in furrows, which is
the next best; and in holes, the least advisable method of all: of the
way in which ground is prepared by digging, we have made sufficient
mention already. (22.) In preparing the furrows[3109] for the vine it
will be quite sufficient if they are a spade in breadth; but if holes
are employed for the purpose, they should be three feet every way.
The depth required for every kind of vine is three feet; it should,
therefore, be made a point not to transplant any vine that is less than
three feet in length, allowing then two buds to be above the ground. It
will be necessary, too, to soften the earth by working little furrows
at the bottom of the hole, and mixing it up with manure. Where the
ground is declivitous, it is requisite that the hole should be deeper,
in addition to which it should be artificially elevated on the edge of
the lower side. Holes of this nature, which are made a little longer,
to receive two vines, are known as “alvei,” or beds. The root of the
vine should occupy the middle of the hole, and when firmly fixed in
the ground it should incline at the top due east; its first support it
ought to receive from a reed.[3110] The vineyard should be bounded by a
decuman[3111] path eighteen feet in width, sufficiently wide, in fact,
to allow two carts to pass each other; others, again, should run at
right angles to it, ten feet in width, and passing through the middle
of each jugerum; or else, if the vineyard is of very considerable
extent, cardinal[3112] paths may be formed instead of them, of the same
breadth as the decuman path. At the end, too, of every five of the
stays a path should be made to run, or, in other words, there should be
one continuous cross-piece to every five stays; each space that is thus
included from one end to the other forming a bed.[3113]

Where the soil is dense and hard it must be turned up only with the
spade, and nothing but quicksets should be planted there; but where,
on the other hand, it is thin and loose, mallet-shoots even may be
set either in hole or furrow. Where the ground is declivitous it is a
better plan to draw furrows across than to turn up all the soil with
the spade, so that the falling away of the earth may be counteracted by
the position of the cross-pieces.[3114] It will be best, too, where the
weather is wet or the soil naturally dry, to plant the mallet-shoots
in autumn, unless, indeed, there is anything in the nature of the
locality to counteract it; for while a dry, hot soil makes it necessary
to plant in autumn, in a moist, cold one it may be necessary to defer
it until the end of spring even. In a parched soil, too, it would be
quite in vain to plant quicksets, and it is far from advantageous to
set mallet-shoots in a dry ground, except just after a fall of rain.
On the other hand, in moist localities, a vine in leaf even may be
transplanted and thrive very well, and that, too, even as late as the
summer solstice, in Spain, for example. It is of very considerable
advantage that there should be no wind stirring on the day of planting,
and, though many persons are desirous that there should be a south wind
blowing at the time, Cato[3115] is of quite a different way of thinking.

In a soil of medium quality, it is best to leave an interval of
five[3116] feet between every two vines; where it is very fertile the
distance should be five feet at least, and where it is poor and thin
eight at the very most. The Umbri and the Marsi leave intervals between
their vines of as much as twenty feet in length, for the purpose of
ploughing between them; such a plot of ground as this they call by the
name of “porculetum.” In a rainy, foggy locality, the plants ought to
be set wider apart, but in dry spots nearer to one another. Careful
observation has discovered various methods of economizing space; thus,
for instance, when a vineyard is planted in shaded ground, a seed-plot
is formed there as well; or, in other words, at the same time that the
quickset is planted in the place which it is finally to occupy, the
mallet-shoot intended for transplanting is set between the vines, as
well as between the rows. By adopting this method, each jugerum will
produce about sixteen thousand quicksets; and the result is, that two
years’ fruit is gained thereby, a cutting planted being two years later
in bearing than a quickset transplanted. Quicksets, when growing in
a vineyard, are cut down at the end of a year, leaving only a single
eye above ground; some manure is then placed upon the spot, and a
stay driven in close to the plant. In the same manner it is again cut
down at the end[3117] of the second year, and from this it acquires
additional strength, and receives nutriment to enable it to endure the
onerous task of reproduction. If this is neglected, in its over-haste
to bear it will shoot up slim and meagre, like a bulrush, and from not
being subjected to such a training, will grow to nothing but wood.
In fact, there is no tree that grows with greater eagerness than the
vine, and if its strength is not carefully husbanded for the bearing of
fruit, it will be sure to grow to nothing but wood.

The best props for supporting the vine are those which we have already
mentioned,[3118] or else stays made of the robur and the olive; if
these cannot be procured, then props of juniper, cypress, laburnum,
or elder,[3119] must be employed. If any other wood is used for the
purpose, the stakes should be cut at the end each year: reeds tied
together in bundles make excellent cross-rails for the vine, and will
last as long as five years. Sometimes the shorter stock-branches of the
vines are brought together and tied with vine-cuttings, like so many
cords: by this method an arcade is formed, known to us by the name of
“funetum.”

The vine, by the end of the third year, throws out strong and vigorous
stock-branches with the greatest rapidity, and these in due time form
the tree; after this, it begins to mount the cross-piece. Some persons
are in the habit of “blinding” the vine at this period, by removing the
eyes with the end of the pruning-knife turned upwards, their object
being to increase the length of the branches—a most injurious practice,
however; for it is far better to let the tree become habituated to
grow of itself, and to prune away the tendrils every now and then when
they have reached the cross-rail, so long as it may be deemed proper
to add to its strength. There are some persons who forbid the vine
to be touched for a whole year after it has been transplanted, and
who say that the pruning-knife ought never to be used before it is
five years old; and then at that period they are for cutting it down
so completely as to leave three buds only. Others, again, cut down
the vine within a year even after it has been transplanted, but then
they take care to let the stem increase every year by three or four
joints, bringing it on a level with the cross-piece by the fourth.
These two methods, however, both of them, retard the fruit and render
the tree stunted and knotty, as we see the case in all dwarf trees.
The best plan is to make the parent stem as robust and vigorous as
possible, and then the wood will be sure to be strong and hardy. It
is far from safe, too, to take slips from a cicatrized stem; such a
practice is erroneous, and only the result of ignorance. All cuttings
of this nature are sure to be the offspring of acts of violence, and
not in reality of the tree itself. The vine, while growing, should
be possessed of all its natural strength; and we find that when left
entirely to itself, it will throw out wood in every part; for there is
no portion of it that Nature does not act upon. When the stem has grown
sufficiently strong for the purpose, it should at once be trained to
the cross-piece; if, however, it is but weak, it should be cut down so
as to lie below the hospitable shelter of the cross-piece. Indeed, it
is the strength of the stem, and not its age, that ought to decide the
matter. It is not advisable[3120] to attempt to train a vine before the
stem has attained the thickness of the thumb; but in the year after it
has reached the frame, one or two stock-branches should be preserved,
according to the strength developed by the parent tree. The same, too,
must be done the succeeding year, if the weakness of the stem demands
it; and in the next, two more should be added. Still, however, there
should never be more than four branches allowed to grow; in one word,
there must be no indulgence shown, and every exuberance in the tree
must in all cases be most carefully repressed; for such is the nature
of the vine, that it is more eager to bear than it is to live. It
should be remembered, too, that all that is subtracted from the wood
is so much added to the fruit. The vine, in fact, would much rather
produce shoots and tendrils than fruit, because[3121] its fruit, after
all, is but a transitory possession: hence it is that it luxuriates to
its own undoing, and instead of really gaining ground, exhausts itself.

The nature, too, of the soil will afford some very useful suggestions.
Where it is thin and hungry, even though the vine should display
considerable vigour, it should be pruned down below the cross-piece
and kept there, so that all the shoots may be put forth below it. The
interval, however, between the top of the vine and the cross-piece
ought to be but very small; so much so, indeed, as to leave it hopes,
as it were, of reaching it, which, however, it must never be suffered
to do; for it should never be allowed to recline thereon and spread
and run on at its ease. This mode of culture ought, in fact, to be so
nicely managed, that the vine should show an inclination rather to grow
in body than to run to wood.

The main branch should have two or three buds left below the
cross-piece that give promise of bearing wood, and it should be
carefully trained along the rail, and drawn close to it in such a
manner as to be supported by it, and not merely hang loosely from it.
When this is done, it should be tightly fastened also with a binding
three buds off, a method which will greatly contribute to check the too
abundant growth of the wood, while stouter shoots will be thrown out
below the ligature: it is absolutely forbidden, however, to tie the
extremity of the main branch. When all this is done, Nature operates
in the following way—the parts that are allowed to fall downward, or
those which are held fast by the ligature, give out fruit, those at the
bend of the branch more particularly. On the other hand, the portion
that lies below the ligature throws out wood; by reason, I suppose, of
the interception of the vital spirit and the marrow or pith, previously
mentioned:[3122] the wood, too, that is grown under these circumstances
will bear fruit in the following year. In this way there are two kinds
of stock branches: the first of which, issuing from the solid stock,
gives promise of wood only for this year, and is known as the leaf
stock-branch;[3123] while that which grows beyond the mark made by
the ligature is a fruit stock-branch.[3124] There are other kinds,
again, that shoot from the stock-branches when they are a year old,
and these are in all cases fruit stock-branches. There is left, also,
beneath the cross-piece a shoot that is known as the reserve[3125]
shoot, being always a young stock-branch, with not more than three buds
upon it. This is intended to give out wood the next year, in case the
vine by over-luxuriance should happen to exhaust itself. Close to it
there is another bud left, no bigger than a wart; this is known as the
“furunculus,”[3126] and is kept in readiness in case the reserve shoot
should fail.

The vine, if enticed to bear fruit before the seventh year from its
being planted as a slip, will pine[3127] away, become as slim as a
bulrush, and die. It is thought equally undesirable, too, to let an
old stock-branch range far and wide, and extend as far as the fourth
stay from the stem; to such a branch the name of dragon[3128]-branch
is given by some, and of juniculus by others; if these are allowed to
spread, they will run to wood only, and make male vines, as they are
called. When a vine has become quite hard, it is an extremely bad plan
to use it for reproduction by layers. When the vine is five years old
the stock-branches are twisted, but each is allowed to throw out some
new wood; and so from one to another, care being taken to prune away
the old wood. It is always the best plan, however, to leave a reserve
shoot; but this should always be very near the main stem of the vine,
not at a greater distance, in fact, than that already mentioned.[3129]
If, too, the stock branches should throw out too luxuriantly, they must
be twisted, the object being that the vine may put forth no more than
four secondary branches, or even two only, if it happens to be a single
cross-railed vine.

If the vine is to be trained to grow without any stay at all, still it
will stand in need, at first, of some support or other, until it has
learnt to support itself: in all other respects the mode of proceeding
will be the same at first. When pruning, it will be necessary that the
thumb-branches[3130] should be arranged in equal numbers on either
side, in order that the fruit may not overload one side of the tree;
and we may here remark by the way, that the fruit by its weight is
apt to bear down the tree and counteract any tendency to increase in
height. The vine, unsupported, when more than three feet in height,
begins to bend, but the others do not, until they are five feet
high at the least; care should be taken, however, never to let them
exceed the height of a man of moderate stature. Growers are in the
habit of surrounding the vines that creep along the ground with a low
fence[3131] for them to lean upon; and round this fence they dig a
trench by way of precaution, for fear lest the branches in their range
should meet one another and so come into collision. The greater part
of the world, in fact, gather grapes at their vintage, grown in this
fashion, and lying upon the ground—at all events, it is so in Africa,
Egypt, and Syria; throughout the whole of Asia, too, and in many parts
of Europe as well, this method prevails. In such cases the vine ought
to be kept down close to the ground, and the root should be nurtured at
the same time and in just the same way as in the case of the vine that
grows on the cross-piece. Care, too, should be taken to leave only the
young thumb-shoots, together with three buds, where it is a prolific
soil, two where it is poor and thin: it is better, too, that the shoots
should be numerous than individually long. The influences of soil, of
which we have made mention already, will make themselves felt all the
more powerfully the nearer the grapes grow to the ground.

It is a very advantageous plan to separate[3132] the various species
of vines and to set them in different compartments—for the mixture of
different varieties is apt to deteriorate the flavour not only of the
must, but the wine even as well. If, again, for some reason or other,
the different kinds must be intermingled, it will be requisite to keep
all those together which ripen at exactly the same period. The more
fertile and the more level the soil, the higher the cross-pieces must
be placed.[3133] High cross-pieces, too, are best suited to localities
that are subject to heavy dews and fogs, but not to those that are
exposed to high winds; on the other hand, where the soil is thin,
parched, and arid, or exposed to the wind, the cross-pieces should
be set lower. The cross-piece should be fastened to the stay with
cords tied as tight as possible, while the bindings used for tying
the vine should be thin. As to the various species of vines, and the
soils and climates requisite for the growth of each, we have already
treated[3134] of them, when enumerating the several varieties of the
vine and the wines which they produce.

With reference to other points connected with the culture of the vine,
there are very considerable doubts. Many persons recommend that the
vineyard should be turned up with the spade after every dew that falls
in the summer. Others, again, forbid this practice when the vine is in
bud; for the clothes, they say, of the people coming and going to and
fro are apt to catch the buds, and either knock or rub them off; it
is for this reason, too, that they are so careful to keep all animals
away from the vines, those with long wool in particular, as it is very
apt to pull off the buds. Raking, too, they say, is very injurious to
the vine while the grape is forming; and it will be quite sufficient,
they assure us, if the ground is turned up three times in the year,
after the vernal equinox—first, at the rising of the Vergiliæ,[3135]
the second at the rising of the Dog-star, and the third time just as
the grape is turning black. Some persons make it a rule that an old
vineyard shall have one turning up between the time of vintage and
the winter solstice, though others, again, are of opinion that it is
quite sufficient to bare the roots and manure them. They turn up the
ground again after the ides of April,[3136] but before the time for
germination, or, in other words, the sixth of the ides of May;[3137]
then again before the tree begins to blossom, after it has shed its
blossom, and, last of all, when the grape is just on the turn. The
most skilful growers say that if the ground is dug up oftener than
necessary, the grapes will become so remarkably thin-skinned as to
burst. When the ground is turned up, care should be taken to do it
before the hot hours of the day; a clayey soil, too, should never be
ploughed or dug. The dust that is raised in digging is beneficial[3138]
to the vine, it is said, by protecting it from the heat of the sun and
the injurious effects of fogs.

The spring clearing ought to be done, it is universally admitted,
within ten days after the ides of May,[3139] and before the
blossoming begins; in addition to which, it should always be done
below the cross-piece. As to the second clearing, opinions differ
very considerably. Some think it ought to be done when the blossoming
is over, others, again, when the grapes are nearly at maturity. This
point, however, may be decided by following the advice of Cato on the
subject; for we must now pass on to a description of the proper mode of
pruning the vine.

Immediately after[3140] the vintage, and while the weather is still
warm, the work of pruning[3141] begins; this, however, ought never to
be done, for certain physical reasons,[3142] before the rising of the
Eagle, as we shall have occasion to explain in the following Book. Nor
should it be done either when the west winds begin to prevail, for
even then there is great doubt whether a fault may not be committed by
being in too great haste to commence the work. If any return of wintry
weather should chance to nip the vines, while still labouring under the
wounds recently inflicted on them in pruning, there is little doubt
that their buds will become quite benumbed with cold, the wounds will
open again, and the eyes, moistened by the juices that distil from the
tree, will become frost-bitten by the rigour of the weather. For who
is there,[3142] in fact, that does not know that the buds are rendered
brittle by frost? All this, however, depends upon accurate calculations
in the management of large grounds, and the blame of precipitation
cannot with any justice be laid upon Nature. The earlier the vine is
pruned, in suitable weather, the greater is the quantity of wood, while
the later the pruning, the more abundant is the fruit. Hence it is that
it is most advisable to prune the poor meagre vines first, and to defer
pruning the more thriving ones to the very last. In pruning, due care
should always be taken to cut in a slanting direction, in order[3143]
that the rain may run off with all the greater facility. The wounds,
too, should look downwards towards the ground, and should be made as
lightly as possible, the edge of the knife being well-sharpened for the
purpose, so as to make a clean cut each time. Care should be taken,
too, to cut always between two buds, and that the eyes are not injured
in the operation. It is generally thought that wherever the vine is
black, all those parts may be cut off, the healthy parts not being
touched; as no useful shoots can be put forth by wood that is bad in
itself. If a meagre vine has not good stock-shoots, the best plan is to
cut it down to the ground, and then to train new ones. In clearing away
the leaves, too, those leaves should not be removed which accompany the
clusters, for by so doing the grapes are made to fall off, except where
the vine happens to be young. Those leaves are regarded as useless
which grow on the sides of the trunk and not from an eye; and so, too,
are the bunches which shoot from the hard, strong wood, and are only to
be removed by the aid of the knife.

Some persons are of opinion that it is a better plan to fix the stay
midway between two vines; and, indeed, by the adoption of this method
the roots are cleared with greater facility. It is best, however, where
the vine needs but a single cross-rail, due care being taken that the
rail is a strong one, and the locality not exposed to high winds. In
the case of those vines which require trellissed cross-rails, the stay
should be placed as near as possible to the burden it has to support;
in order, however, that there may be no impediment thrown in the way of
clearing the roots, it may be placed at the distance of one cubit from
the stock, but not more. It is generally recommended to clear the roots
before the pruning[3144] is commenced.

Cato[3145] gives the following general precepts in relation to the
culture of the vine:—“Let the vine grow as high as possible, and fasten
it firmly, but not too tight. You should treat it in the following
manner. Clean the roots of the vine at seed-time, and after pruning
it dig about it, and then begin to labour at the ground, by tracing
with the plough continuous furrows every way. Plant the young vines in
layers as early as possible, and then break up the ground about them.
If the vine is old, take care and prune it as little as possible. In
preference, bend the vine into the ground for layers, if necessary,
and cut it at the end of two years. The proper time for cutting the
young vine, is when it has gained sufficient strength. If the vineyard
is bald of vines, then draw furrows between them, and plant quicksets
there: but let no shadow be thrown on the furrows, and take care and
dig them often. If the vineyard is old, sow ocinum[3146] there, in
case the trees are meagre: but take care and sow there nothing that
bears seed. Put manure, chaff, and grape-husks about the roots, or,
indeed, anything of a similar nature that will give the tree additional
strength. As soon as the vine begins to throw out leaves, set about
clearing them. Fasten the young trees in more places than one, so that
the stem may not break. As soon as it begins to run along the stay,
fasten down the young branches lightly, and extend them, in order that
they may gain the right position. When the grape begins to be mottled,
then tie down the vine. The first season for grafting the vine is the
spring, the other when the grape is in blossom; the last period is the
best. If it is your wish to transplant an old vine, you will only be
able to do so in case it is no thicker than the arm: first, however,
you must prune it, taking care not to have more than two buds upon
the stem. Then dig it well up by the roots, being careful to trace
them, and using every possible precaution not to injure them. Place it
in the hole or furrow exactly in the position in which it has stood
before, then cover it with earth, which should be well trodden down.
You must then prop it up, fasten it, and turn it in the same direction
as before; after which, dig about it repeatedly.” The ocinum that Cato
here recommends to be sown in the vineyards, is a fodder known by that
name by the ancients; it thrives in the shade remarkably well, and
received its name[3147] from the rapidity with which it grows.

(23.) We come now to speak of the method of growing vines upon
trees,[3148] a mode that has been condemned[3149] in the strongest
terms by the Saserna’s, both father and son, and up-held by Scrofa,
these being our most ancient writers on agriculture next to Cato, and
men of remarkable skill. Indeed, Scrofa himself will not admit that
it is beneficial anywhere except in Italy. The experience of ages,
however, has sufficiently proved that the wines of the highest quality
are only grown upon vines attached to trees, and that even then the
choicest wines are produced by the upper part of the tree, the produce
of the lower part being more abundant; such being the beneficial
results of elevating the vine. It is with a view to this that the trees
employed for this purpose are selected. In the first rank of all stands
the elm,[3150] with the exception of the Atinian variety, which is
covered with too many leaves; and next comes the black poplar, which is
valued for a similar reason, being not so densely covered with leaves.
Most people, too, by no means hold the ash and the fig in disesteem,
as also the olive, if it is not overshadowed with branches. We have
treated at sufficient length already of the planting and culture of
these several trees.

They must not be touched with the knife before the end of three years;
and then the branches are preserved, on each side in its turn, the
pruning being done in alternate years. In the sixth year the vine is
united to the tree. In Italy beyond the Padus, in addition to the
trees already mentioned, they plant for their vines the cornel, the
opulus, the linden, the maple, the ash, the yoke-elm, and the quercus;
while in Venetia they grow willows for the purpose, on account of the
humidity[3151] of the soil. The top of the elm is lopped away, and
the branches of the middle are regularly arranged in stages; no tree
in general being allowed to exceed twenty feet in height. The stories
begin to spread out in the tree at eight feet from the ground, in
the hilly districts and upon dry soils, and at twelve in champaign
and moist localities. The hands[3152] of the trunk ought to have a
southern aspect, and the branches that project from them should be
stiff and rigid like so many fingers; at the same time due care should
be taken to lop off the thin beardlike twigs, in order to check the
growth of all shade. The interval best suited for the trees, if it is
the grower’s intention to keep the soil turned up with the plough, is
forty feet back and front, and twenty at the side; if it is not to be
turned up, then twenty feet[3153] every way will do. A single tree is
often made to support as many as ten vines, and the grower is greatly
censured who attaches less than three. It is worse than useless to
attach the vine before the tree has gained its full strength, as in
such case its rapidity of growth would only tend to kill the tree. It
is necessary to plant the vine in a trench three feet in depth, leaving
an interval of one foot between it and the tree. In this case there
is no necessity for using mallet shoots, or for going to any expense
in spading or digging; for this method of training on trees has this
advantage in particular, that it is beneficial even to the vine that
corn should be sown in the same soil; in addition to which, from its
height, it is quite able to protect itself, and does not call for the
necessity, as in the case of an ordinary vineyard, of enclosing it with
walls and hedges or ditches, made at a considerable expense, to protect
it from injury by animals.

In the method of training upon trees, reproduction from quicksets
or from layers is the only mode employed of all those that have
been previously described; the growing by layers being effected two
different ways, as already mentioned. The plan, however, of growing
from layers in baskets set upon the stages[3154] of the tree is the
most approved one, as it ensures an efficient protection from the
ravages of cattle; while, according to another method, a vine or else
a stock-branch is bent into the ground near the tree it has previously
occupied, or else the nearest one that may be at liberty. It is
recommended that all parts of the parent tree that appear above ground
should then be scraped, so that it may not throw out wood; while at the
same time there are never less than four buds on the part that is put
into the ground for the purpose of taking root; there are also two buds
left above ground at the head. The vine intended for training on a tree
is planted in a furrow four feet long, three broad, and two and a half
in depth. At the end of a year the layer is cut to the pith, to enable
it to strengthen gradually at the root; after which, the end of the
branch is pruned down to within two buds from the ground. At the end of
two years the layer is completely separated from the stock, and buried
deeper in the ground, that it may not shoot at the place where it has
been cut. As to the quicksets, they ought to be removed directly after
the vintage.

In more recent times, a plan has been discovered of planting a dragon
branch near the tree—that being the name given to an old stock-branch
that has become hard and tough in the course of years. For this
purpose, it is cut as long as possible, and the bark is taken off
from three-fourths of its length, that being the portion which is
to be buried in the ground; hence it is, too, that it is called a
“barked”[3155] plant. It is then laid at full length in the furrow,
the remaining part protruding from the ground and reclining against
the tree. This method is the most speedy one that can be adopted for
growing the vine. If the vine is meagre or the soil impoverished, it
is usual to keep it cut down as near to the ground as possible, until
such time as the root is strengthened. Care, too, should be taken not
to plant it covered with dew,[3156] nor yet while the wind is blowing
from the north. The vine itself ought to look towards the north-east,
but the young stock-shoots should have a southern aspect.

There should not be too great haste[3157] in pruning a young vine, but
a beginning should be made by giving the wood and foliage a circular
form, care being taken not to prune it until it has become quite
strong; it should be remembered, too, that the vine, when trained upon
a tree, is generally a year later in bearing fruit than when grown on
the cross-piece. There are some persons, again, who altogether forbid
that a vine should be pruned until such time as it equals the tree in
height. At the first pruning it may be cut to within six feet from the
ground, below which a shoot must be left, and encouraged to run out by
bending the young wood. Upon this shoot, when pruned, there should not
be more than three buds left. The branches that take their rise from
these buds should be trained in the following year upon the lowermost
stages of the tree, and so in each successive year taught to climb to
the higher ones. Care, too, should always be taken to leave one hard,
woody branch at each stage, as well as one breeding shoot, at liberty
to mount as high as it pleases. In addition to these precautions, in
all pruning, those shoots should be cut off which have borne fruit the
last year, and after the tendrils[3158] have been cut away on every
side fresh branches should be trained to run along the stages. In Italy
the pruning is so managed that the shoots and tendrils of the vines
are arranged so as to cover the branches of the tree, while the shoots
of the vine in their turn are surrounded with clusters of grapes. In
Gallia, on the other hand, the vine is trained to pass from tree to
tree. On the Æmilian Way, again, the vine is seen embracing the trunks
of the Atinian elms that line the road, while at the same time it
carefully avoids their foliage.[3159]

It is a mark of ignorance in some persons to suspend the vine with a
cord beneath the branches of the tree, to the great risk of stifling
it; for it ought to be merely kept up with a withe of osier, and not
tightly laced. Indeed, in those places where the willow abounds, the
withes that it affords are preferred, on account of their superior
suppleness, while the Sicilians employ for the purpose a grass, which
they call “ampelodesmos:”[3160] throughout the whole of Greece, rushes,
cyperus, and sedge[3161] are similarly employed. When at any time the
vine has been liberated from its bonds, it should be allowed to range
uncontrolled for some days, and to spread abroad at pleasure, as well
as to recline upon the ground which it has been looking down upon the
whole year through. For in the same manner that beasts of burden when
released from the yoke, and dogs when they have returned from the
chase, love to roll themselves on the ground, just so does the vine
delight to stretch its loins. The tree itself, too, seems to rejoice,
and, thus relieved from the continuous weight which has burdened it,
to have all the appearance of now enjoying a free respiration. Indeed,
there is no object in all the economy of Nature that does not desire
certain alternations for the enjoyment of rest, witness the succession
of night and day, for instance. It is for this reason that it is
forbidden to prune the vine directly the vintage is over, and while it
is still exhausted by the process of reproduction.

Directly the vine has been pruned, it ought to be fastened again to
the tree, but in another place; for there is no doubt that it feels
very acutely the indentations that are made in it by the holdfasts. In
the Gallic method of cultivation they train out two branches at either
side, if the trees are forty feet apart, and four if only twenty; where
they meet, these branches are fastened together and made to grow in
unison; if, too, they are anywhere deficient in number or strength,
care is taken to fortify them by the aid of small rods. In a case,
however, where the branches are not sufficiently long to meet, they
are artificially prolonged by means of a hook, and so united to the
tree that desires their company. The branches thus trained to unite
they used to prune at the end of the second year. But where the vine
is aged, it is a better plan to give them a longer time to reach the
adjoining tree, in case they should not have gained the requisite
thickness; besides which, it is always good to encourage the growth of
the hard wood in the dragon branches.

There is yet another method,[3162] which occupies a middle place
between this mode of propagation and that by layers. It consists of
laying the entire vine in the earth, and then splitting the stock
asunder by means of wedges; the fibrous portions are then trained out
in as many furrows, care being taken to support each of the slender
plants by fastening it to a stake, and not to cut away the branches
that shoot from the sides. The growers of Novara, not content with
the multitude of shoots that run from tree to tree, nor yet with an
abundance of branches, encourage the stock-branches to entwine around
forks planted in the ground for the purpose; a method, however, which,
in addition to the internal defects arising from the soil, imparts a
harshness to the wine.

There is another fault, too, that is committed by the people of
Varracina,[3163] near Rome—they only prune their vines every other
year; not, indeed, because it is advantageous to the tree, but from
a fear lest, from the low prices fetched by their wines, the expense
might exceed the profits. At Carseoli they adopt a middle course, by
pruning away only the rotten parts of the vine, as well as those which
are beginning to wither, and leaving the rest to bear fruit, after thus
clearing away all superfluous incumbrances. The only nutriment they
give it is this exemption from frequent pruning; but unless the soil
should happen to be a very rich one, the vine, under such a method of
cultivation, will very soon degenerate to a wild state.

The vine that is thus trained requires the ground to be ploughed very
deep, though such is not the case for the sowing there of grain. It is
not customary to cut away the leaves in this case, which, of course,
is so much labour spared. The trees themselves require pruning at the
same period as the vine, and are thinned by clearing away all useless
branches, and such parts as would only absorb the nutriment. We have
already[3164] stated that the parts that are lopped should never look
north or south: and it will be better still, if they have not a western
aspect. The wounds thus made are very susceptible for a considerable
time, and heal with the greatest difficulty, if exposed to excesses of
cold or heat. The vine when trained on a tree enjoys advantages that
are not possessed by the others; for the latter have certain fixed
aspects, while in the former, it is easy to cover up the wounds made
in pruning, or to turn them whichever way you please. When trees are
pruned at the top, cup-like cavities should be formed[3165] there, to
prevent the water from lodging.



CHAP. 36.—HOW GRAPES ARE PROTECTED FROM THE RAVAGES OF INSECTS.


Stays, too, should be given to the vine for it to take hold of and
climb upwards, if they are taller than it. (24.) Espaliers[3166]
for vines of a high quality should be cut, it is said, at the
Quinquatria,[3167] and when it is intended to keep the grapes, while
the moon is on the wane. We are assured, moreover, that those which
are cut at the change of the moon, are exempt from the attacks of all
insects.[3168] According to another system, it is said that vines
should be pruned by night at full moon, and while it is in Leo,
Scorpio, Sagittarius, or Taurus: and that, in general, they ought to be
planted either when the moon is at full or on the increase. In Italy,
ten workmen will suffice for one hundred jugera of vineyard.



CHAP. 37.—THE DISEASES OF TREES.


Having now treated sufficiently at length of the planting and
cultivation of trees—(for we have already said enough of the palm[3169]
and the cytisus,[3170] when speaking of the exotic trees)—we shall
proceed, in order that nothing may be omitted, to describe other
details relative to their nature, which are of considerable importance,
when taken in connection with all that precedes. Trees, we find, are
attacked by maladies; and, indeed, what created thing is there that is
exempt from these evils? Still however, the affections of the forest
trees, it is said, are not attended[3171] with danger to them, and the
only damage they receive is from hail-storms while they are budding and
blossoming; with the exception, indeed, of being nipped either by heat
or cold blasts in unseasonable weather; for frost, when it comes at the
proper times, as we have already stated,[3172] is serviceable to them.
“Well but,” it will be said, “is not the vine sometimes killed with
cold?” No doubt it is, and this it is through which we detect inherent
faults in the soils, for it is only in a cold soil that the vine will
die. Just in the same way, too, in winter we approve of cold, so long
as it is the cold of the weather, and not of the ground. It is not the
weakest trees, too, that are endangered in winter by frost, but the
larger ones. When they are thus attacked, it is the summit that dries
away the first, from the circumstance that the sap becomes frozen
before it is able to arrive there.

Some diseases of trees are common to them all, while others, again,
are peculiar to individual kinds. Worms[3173] are common to them all,
and so, too, is sideration,[3174] with pains in the limbs,[3175] which
are productive of debility in the various parts. Thus do we apply the
names of the maladies that prevail among mankind to those with which
the plants are afflicted. In the same way, too, we speak of their
bodies being mutilated, the eyes of the buds being burnt up, with
many other expressions of a similar nature. It is in accordance with
the same phraseology that we say that trees are afflicted with hunger
or indigestion, both of which result from the comparative amount of
sap that they contain; while some, again, are troubled with obesity,
as in the case of all the resinous trees, which, when suffering from
excessive fatness, are changed into a torch-tree.[3176] When the roots,
too, begin to wax fat, trees, like animals, are apt to perish from
excess of fatness. Sometimes, too, a pestilence[3177] will prevail in
certain classes of trees, just as among men, we see maladies attack, at
one time the slave class, and at another the common people, in cities
or in the country, as the case may be.

Trees are more or less attacked by worms; but still, nearly all are
subject to them in some degree, and this the birds[3178] are able to
detect by the hollow sound produced on tapping at the bark. These worms
even have now begun to be looked upon as delicacies[3179] by epicures,
and the large ones found in the robur are held in high esteem; they are
known to us by the name of “cossis;” and are even fed with meal, in
order to fatten them! But it is the pear, the apple, and the fig[3180]
that are most subject to their attacks, the trees that are bitter and
odoriferous enjoying a comparative exemption from them. Of those which
infest the fig, some breed in the tree itself, while others, again, are
produced by the worm known as the cerastes; they all, however, equally
assume the form of the cerastes,[3181] and emit a small shrill noise.
The service-tree is infested, too, with a red hairy worm, which kills
it; and the medlar, when old, is subject to a similar malady.

The disease known as sideration entirely depends upon the heavens;
and hence we may class under this head, the ill effects produced
by hail-storms, carbunculation,[3182] and the damage caused by
hoar-frosts. When the approach of spring tempts the still tender
shoots to make their appearance, and they venture to burst forth, the
malady attacks them, and scorches up the eyes of the buds, filled as
they are with their milky juices: this is what upon flowers they call
“charcoal”[3183] blight. The consequences of hoar-frost to plants are
even more dangerous still, for when it has once settled, it remains
there in a frozen form, and there is never any wind to remove it,
seeing that it never prevails except in weather that is perfectly calm
and serene. Sideration, however, properly so called, is a certain heat
and dryness that prevails at the rising of the[3184] Dog-star, and
owing to which grafts and young trees pine away and die, the fig and
the vine more particularly. The olive, also, besides the worm, to which
it is equally subject with the fig, is attacked by the measles,[3185]
or as some think fit to call it, the fungus or platter; it is a sort
of blast produced by the heat of the sun. Cato[3186] says that the red
moss[3187] is also deleterious to the olive. An excessive fertility,
too, is very often injurious to the vine and the olive. Scab is a
malady common to all trees. Eruptions,[3188] too, and the attacks of
a kind of snail that grows on the bark, are diseases peculiar to the
fig, but not in all countries; for there are some maladies that are
prevalent in certain localities only.

In the same way that man is subject to diseases of the sinews, so are
the trees as well, and, like him, in two different ways. Either[3189]
the virulence of the disease manifests itself in the feet, or, what
is the same thing, the roots of the tree, or else in the joints of
the fingers, or, in other words, the extremities of the branches that
are most distant from the trunk. The parts that are thus affected
become dry and shrivel up: the Greeks have appropriate names[3190] by
which to distinguish each of these affections. In either case the
first symptoms are that the tree is suffering from pain, and the parts
affected become emaciated and brittle; then follows rapid consumption
and ultimately death; the juices being no longer able to enter the
diseased parts, or, at all events, not circulating in them. The fig is
more particularly liable to this disease: but the wild fig is exempt
from all that we have hitherto mentioned. Scab[3191] is produced by
viscous dews which fall after the rising of the Vergiliæ; but if they
happen to fall copiously, they drench the tree, without making the bark
rough. When the fig is thus attacked, the fruit falls off while green;
and so, too, if there is too much rain. The fig suffers also from a
superfluity of moisture in the roots.

In addition to worms and sideration, the vine is subject to a peculiar
disease of its own, which attacks it in the joints, and is produced
from one of the three following causes:—either the destruction
of the buds by stormy weather, or else the fact, as remarked by
Theophrastus, that the tree, when pruned, has been cut with the
incisions upwards,[3192] or has been injured from want of skill in
the cultivator. All the injury that is inflicted in these various
ways is felt by the tree in the joints more particularly. It must be
considered also as a species of sideration, when the cold dews make
the blossoms fall off, and when the grapes harden[3193] before they
have attained their proper size. Vines also become sickly when they
are perished with cold, and the eyes are frost-bitten just after they
have been pruned. Heat, too, out of season, is productive of similar
results: for everything is regulated according to a fixed order and
certain determinate movements. Some maladies, too, originate in
errors committed by the vine-dresser; when they are tied too tight,
for instance, as already mentioned,[3194] or when in trenching round
them the digger has struck them an unlucky blow, or when in ploughing
about them the roots have been strained through carelessness, or the
bark has been stripped from off the trunk: sometimes, too, contusions
are produced by the use of too blunt a pruning-knife. Through all the
causes thus enumerated the tree is rendered more sensitive to either
cold or heat, as every injurious influence from without is apt to
concentrate in the wounds thus made. The apple, however, is the most
delicate of them all, and more particularly the one that bears the
sweetest fruit. In some trees weakness induced by disease is productive
of barrenness, and does not kill the tree; as in the pine[3195] for
instance, or the palm, when the top of the tree has been removed; for
in such case the tree becomes barren, but does not die. Sometimes, too,
the fruit itself is sickly, independently of the tree; for example,
when there is a deficiency of rain, or of warmth, or of wind, at the
periods at which they usually prevail, or when, on the other hand, they
have prevailed in excess; for in such cases the fruit will either drop
off or else deteriorate. But the worst thing of all that can befall
the vine or the olive, is to be pelted with heavy showers just when
the tree is shedding its blossom, for then the fruit is sure to fall
off[3196] as well.

Rain, too, is productive of the caterpillar, a noxious insect that
eats away the leaves, and, some of them, the blossoms as well; and
this in the olive even, as we find the case at Miletus; giving to the
half-eaten tree a most loathsome appearance. This pest is produced by
the prevalence of a damp, languid heat; and if the sun should happen to
shine after this with a more intense heat and burn them up, this pest
only gives place to another[3197] just as bad, the aspect only of the
evil being changed.

There is still one other affection that is peculiar to the olive and
the vine, known as the “cobweb,”[3198] the fruit being enveloped in a
web, as it were, and so stifled. There are certain winds, too, that
are particularly blighting to the olive and the vine, as also to other
fruits as well: and then besides, the fruits themselves, independently
of the tree, are very much worm-eaten in some years, the apple, pear,
medlar, and pomegranate for instance. In the olive the presence of the
worm may be productive of a twofold result: if it grows beneath the
skin, it will destroy the fruit, but if it is in the stone, it will
only gnaw it away, making the fruit all the larger. The prevalence of
showers after the rising of Arcturus[3199] prevents them from breeding;
but if the rains are accompanied with wind from the south, they will
make their appearance in the ripe fruit even, which are then very apt
to fall. This happens more particularly in moist, watery localities;
and even if they do not fall, the olives that are so affected are good
for nothing. There is a kind of fly also that is very troublesome to
some fruit, acorns and figs for instance: it would appear that they
breed from the juices[3200] secreted beneath the bark, which at this
period are sweet. These trees, too, are generally in a diseased state
when this happens.

There are certain temporary and local influences which cause
instantaneous death to trees, but which cannot properly be termed
diseases; such, for example, as consumption, blast, or the noxious
effects of some winds that are peculiar to certain localities; of this
last nature are the Atabulus[3201] that prevails in Apulia, and the
Olympias[3202] of Eubœa. This wind, if it happens to blow about the
winter solstice, nips the tree with cold, and shrivels it up to such
a degree that no warmth of the sun can ever revive it. Trees that are
planted in valleys, and are situate near the banks of rivers, are
especially liable to these accidents, the vine more particularly, the
olive, and the fig. When this has been the case, it may instantly be
detected the moment the period for germination arrives, though, in the
olive, somewhat later. With all of these trees, if the leaves fall off,
it is a sign that they will recover; but if such is not the case, just
when you would suppose that they have escaped uninjured, they die.
Sometimes, however, the leaves will become green again, after being dry
and shrivelled. Other trees, again, in the northern regions, Pontus
and Phrygia, for example, suffer greatly from cold or frost, in case
they should continue for forty days after the winter solstice. In these
countries, too, as well as in other parts, if a sharp frost or copious
rains should happen to come on immediately after fructification, the
fruit is killed in a very few days even.

Injuries inflicted by the hand of man are productive also of bad
effects. Thus, for instance, pitch, oil, and grease,[3203] if applied
to trees, and young ones more particularly, are highly detrimental.
They may be killed, also, by removing a circular piece of the bark
from around them, with the exception, indeed, of the cork-tree,[3204]
which is rather benefitted than otherwise by the operation; for the
bark as it gradually thickens tends to stifle and suffocate the tree:
the andrachle,[3205] too, receives no injury from it, if care is taken
not to cut the body of the tree. In addition to this, the cherry, the
lime, and the vine shed their bark;[3206] not that portion of it,
indeed, which is essential to life, and grows next the trunk, but the
part that is thrown off, in proportion as the other grows beneath.
In some trees the bark is naturally full of fissures, the plane for
instance: in the linden it will all but grow again when removed. Hence,
in those trees the bark of which admits of cicatrization, a mixture of
clay and dung[3207] is employed by way of remedy; and sometimes with
success, in case excessive cold or heat does not immediately supervene.
In some trees, again, by the adoption of these methods death is only
retarded, the robur and the quercus,[3208] for example. The season of
the year has also its peculiar influences; thus, if the bark is removed
from the fir and the pine, while the sun is passing through Taurus
or Gemini, the period of their germination, they will instantly die,
while in winter they are able to withstand the injurious effects of it
much longer: the same is the case, too, with the holm-oak, the robur,
and the quercus. In the trees above mentioned, if it is only a narrow
circular strip of bark that is removed, no injurious effects will be
perceptible; but in the case of the weaker trees, as well as those
which grow in a thin soil, the same operation, if performed even on one
side only, will be sure to kill them. The removal of the top,[3209] in
the pitch-tree, the cedar, and the cypress is productive of a similar
result; for if it is either cut off or destroyed by fire, the tree will
not survive: the same is the case, too, if they are bitten by the teeth
of animals.

Varro[3210] informs us, too, as we have already stated,[3211] that
the olive, if only licked by a she-goat, will be barren.[3212] When
thus injured, some trees will die, while in others the fruit becomes
deteriorated, the almond,[3213] for instance, the fruit of which
changes from sweet to bitter. In other cases, again, the tree is
improved[3214] even—such, for instance, as the pear known in Chios as
the Phocian pear. We have already mentioned[3215] certain trees, also,
that are all the better for having the tops removed. Most trees perish
when the trunk is split; but we must except the vine, the apple, the
fig, and the pomegranate. Others, again, will die if only a wound is
inflicted: the fig, however, as well as all the resinous trees, is
proof against such injury. It is far from surprising that, when the
roots of a tree are cut, death should be the result; most of them
perish, however, when, not all the roots, but only the larger ones, and
those which are more essential to life, have been severed.

Trees, too, will kill one another[3216] by their shade, or the density
of their foliage, as also by the withdrawal of nourishment. Ivy,[3217]
by clinging to a tree, will strangle[3218] it. The mistletoe, too, is
far from beneficial, and the cytisus is killed by the plant to which
the Greeks have given the name of halimon.[3219] It is the nature of
some plants not to kill, but to injure, by the odour they emit, or by
the admixture of their juices; such is the influence exercised by the
radish and the laurel upon the vine.[3220] For the vine may reasonably
be looked upon as possessed of the sense of smell, and affected
by odours in a singular degree; hence, when it is near a noxious
exhalation, it will turn away and withdraw from it. It was from his
observation of this fact that Androcydes borrowed the radish[3221]
as his antidote for drunkenness, recommending it to be eaten on such
occasions. The vine, too, abhors all coleworts and garden herbs, and
the hazel[3222] as well; indeed it will become weak and ailing if they
are not removed to a distance from it. Nitre, alum, warm sea-water, and
the shells of beans[3223] and fitches act as poisons on the vine.



CHAP. 38. (25.)—PRODIGIES CONNECTED WITH TREES.


Among the maladies which affect the various trees, we may find room
for portentous prodigies also. For we find some trees that have
never had a leaf upon them; a vine and a pomegranate bearing[3224]
fruit adhering to the trunk, and not upon the shoots or branches; a
vine, too, that bore grapes but had no leaves; and olives that have
lost their leaves while the fruit remained upon the tree. There are
some marvels also connected with trees that are owing to accident;
an olive that was completely burnt, has been known to revive, and
in Bœotia, some fig-trees that had been quite eaten away by locusts
budded afresh.[3225] Trees, too, sometimes change their colour, and
turn from black to white; this, however, must not always be looked
upon as portentous, and more particularly in the case of those which
are grown from seed; the white poplar, too, often becomes black. Some
persons are of opinion also that the service-tree, if transplanted
to a warmer locality, will become barren. But it is a prodigy, no
doubt, when sweet fruits become sour, or sour fruits sweet; and when
the wild fig becomes changed into the cultivated one, or vice versâ.
It is sadly portentous,[3226] too, when the tree becomes deteriorated
by the change, the cultivated olive changing into the wild, and the
white grape or fig becoming black: such was the case, also, when upon
the arrival of Xerxes there, a plane-tree at Laodicea was transformed
into an olive. In such narratives as these, the book written in
Greek by Aristander abounds, not to enter any further on so extended
a subject; and we have in Latin the Commentaries of C. Epidius, in
which we find it stated that trees have even been known to speak. In
the territory of Cumæ, a tree, and a very ominous presage it was, sank
into the earth shortly before the civil wars of Pompeius Magnus began,
leaving only a few of the branches protruding from the ground. The
Sibylline Books were accordingly consulted, and it was found that a war
of extermination was impending, which would be attended with greater
carnage the nearer it should approach the city of Rome.

Another kind of prodigy, too, is the springing up of a tree in some
extraordinary and unusual place, the head of a statue, for instance,
or an altar, or upon another tree even.[3227] A fig-tree shot forth
from a laurel at Cyzicus, just before the siege of that city; and so in
like manner, at Tralles, a palm issued from the pedestal of the statue
of the Dictator Cæsar, at the period of his civil wars. So, too, at
Rome, in the Capitol there, in the time of the wars against Perseus,
a palm-tree grew from the head of the statue of Jupiter, a presage
of impending victory and triumphs. This palm, however, having been
destroyed by a tempest, a fig-tree sprang up in the very same place,
at the period of the lustration made by the censors M. Messala and C.
Cassius,[3228] a time at which, according to Piso, an author of high
authority, all sense of shame had been utterly banished. Above all the
prodigies, however, that have ever been heard of, we ought to place the
one that was seen in our own time, at the period of the fall of the
Emperor Nero, in the territory of Marrucinum; a plantation of olives,
belonging to Vectius Marcellus, one of the principal members of the
Equestrian order, bodily crossed the public highway, while the fields
that lay on the opposite side of the road passed over to supply the
place which had been thus vacated by the olive-yard.[3229]



CHAP. 39. (26.)—TREATMENT OF THE DISEASES OF TREES.


Having set forth the various maladies by which trees are attacked, it
seems only proper to mention the most appropriate remedies as well.
Some of these remedies may be applied to all kinds of trees in common,
while others, again, are peculiar to some only. The methods that are
common to them all, are, baring the roots, or moulding them up, thus
admitting the air or keeping it away, as the case may be; giving them
water, or depriving them of it, refreshing them with the nutritious
juices of manure, and lightening them of their burdens by pruning. The
operation, too, of bleeding,[3230] as it were, is performed upon them
by withdrawing their juices, and the bark is scraped all round[3231] to
improve them. In the vine, the stock branches are sometimes lengthened
out, and at other times repressed; the buds too are smoothed, and in
a measure polished up, in case the cold weather has made them rough
and scaly. These remedies are better suited to some kinds of trees and
less so to others: thus the cypress, for instance, has a dislike to
water, and manifests an aversion to manure, spading round it, pruning,
and, indeed, remedial operations of every kind; nay, what is more, it
is killed by irrigation, while, on the other hand, the vine and the
pomegranate receive their principal nutriment from it. In the fig,
again, the tree is nourished by watering, while the very same thing
will make the fruit pine and die: the almond, too, if the ground is
spaded about it, will lose its blossom. In the same way, too, there
must be no digging about the roots of trees when newly grafted, or
indeed until such time as they are sufficiently strong to bear. Many
trees require that all superfluous burdens should be pruned away from
them, just as we ourselves cut the nails and hair. Old trees are
often cut down to the ground, and then shoot up again from one of the
suckers; this, however, is not the case with all of them, but only
those, the nature of which, as we have already stated,[3232] will admit
of it.



CHAP. 40.—METHODS OF IRRIGATION.


Watering is good for trees during the heats of summer, but injurious in
winter; the effects of it are of a varied nature in autumn, and depend
upon the peculiar nature of the soil. Thus, in Spain for instance, the
vintager gathers the grapes while the ground beneath is under water; on
the other hand, in most parts of the world, it is absolutely necessary
to carry off the autumn rains by draining. It is about the rising of
the Dog-star that irrigation is so particularly beneficial; but even
then it ought not to be in excess, as the roots are apt to become
inebriated, and to receive injury therefrom. Care should be taken,
too, to proportion it to the age of the tree, young trees being not
so thirsty as older ones; those too which require the most water, are
the ones that have been the most used to it. On the other hand, plants
which grow in a dry soil, require no more moisture than is absolutely
necessary to their existence.



CHAP. 41.—REMARKABLE FACTS CONNECTED WITH IRRIGATION.


In the Fabian district, which belongs to the territory of Sulmo[3233]
in Italy, where they are in the habit, also, of irrigating the fields,
the natural harshness of the wines makes it necessary to water the
vineyards; it is a very singular thing, too, that the water there
kills all the weeds, while at the same time it nourishes the corn,
thus acting in place of the weeding-hook. In the same district, too,
at the winter solstice, and more particularly when the snow is on the
ground or frosts prevail, they irrigate the land, a process which they
call “warming” the soil. This peculiarity, however, exists in the
water of one river[3234] only, the cold of which in summer is almost
insupportable.



CHAP. 42. (27.)—INCISIONS MADE IN TREES.


The proper remedies for charcoal-blight and mildew[3235] will be
pointed out in the succeeding Book.[3236] In the meantime, however,
we may here observe that among the remedies may be placed that by
scarification.[3237] When the bark becomes meagre and impoverished by
disease, it is apt to shrink, and so compress the vital parts of the
tree to an excessive degree: upon which, by means of a sharp pruning
knife held with both hands, incisions are made perpendicularly down
the tree, and a sort of looseness, as it were, imparted to the skin.
It is a proof that the method has been adopted with success, when the
fissures so made remain open and become filled with wood of the trunk
growing between the lips.



CHAP. 43.—OTHER REMEDIES FOR THE DISEASES OF TREES.


The medical treatment of trees in a great degree resembles that of man,
seeing that in certain cases the bones of them both are perforated
even.[3238] The bitter almond will become sweet, if, after spading
round the trunk and cleaning it, the lowermost part of it is pierced
all round, so that the humours may have a passage for escape and ensure
being removed. In the elm, too, the superfluous juices are drawn off,
by piercing the tree above ground to the pith when it is old, or when
it is found to suffer from an excess of nutriment. So, too, when
the bark of the fig is turgid and swollen, the confined juices are
discharged by means of light incisions made in a slanting direction;
by the adoption of which method the fruit is prevented from falling
off. When fruit-trees bud but bear no fruit, a fissure is made in the
root, and a stone inserted; the result of which is, that they become
productive.[3239] The same is done also with the almond, a wedge of
robur being employed for the purpose. For the pear and the service tree
a wedge of torch-wood is used, and then covered over with ashes and
earth. It is even found of use, too, to make circular incisions around
the roots of the vine and fig, when the vegetation is too luxuriant,
and then to throw ashes over the roots. A late crop of figs is ensured,
if the first fruit is taken off when green and little larger than a
bean; for it is immediately succeeded by fresh, which ripens at a
later period than usual. If the tops of each branch are removed from
the fig, just as it is beginning to put forth leaves, its strength and
productiveness are greatly increased. As to caprification, the effect
of that is to ripen the fruit.



CHAP. 44.—CAPRIFICATION, AND PARTICULARS CONNECTED WITH THE FIG.


It is beyond all doubt that in caprification the green fruit gives
birth to a kind of gnat;[3240] for when they have taken flight, there
are no seeds to be found within the fruit: from this it would appear
that the seeds have been transformed into these gnats. Indeed, these
insects are so eager to take their flight, that they mostly leave
behind them either a leg or a part of a wing on their departure. There
is another species of gnat,[3241] too, that grows in the fig, which
in its indolence and malignity strongly resembles the drone of the
bee-hive, and shows itself a deadly enemy to the one that is of real
utility; it is called centrina, and in killing the others it meets its
own death.

Moths, too, attack the seeds of the fig: the best plan of getting rid
of them, is to bury a slip of mastich,[3242] turned upside down, in the
same trench. The fig, too, is rendered extremely productive[3243] by
soaking red earth in amurca, and laying it, with some manure, upon the
roots of the tree, just as it is beginning to throw out leaves. Among
the wild figs, the black ones, and those which grow in rocky places,
are the most esteemed, from the fact of the fruit containing the most
seed. Caprification takes place most advantageously just after rain.



CHAP. 45.—ERRORS THAT MAY BE COMMITTED IN PRUNING.


But, before everything, especial care should be taken that intended
remedies are not productive of ill results; as these may arise from
either remedial measures being applied in excess or at unseasonable
times. Clearing away the branches is of the greatest benefit to trees,
but to slaughter[3244] them this way every year, is productive of the
very worst results. The vine is the only tree that requires lopping
every year, the myrtle, the pomegranate, and olive every other; the
reason being that these trees shoot with great rapidity. The other
trees are lopped less frequently, and none of them in autumn; the trunk
even is never scraped,[3245] except in spring. In pruning a tree,
all that is removed beyond what is absolutely necessary, is so much
withdrawn from its vitality.



CHAP. 46.—THE PROPER MODE OF MANURING TREES.


The same precautions, too, are to be regarded in manuring. Though
manure is grateful to the tree, still it is necessary to be careful
not to apply it while the sun is hot, or while it is too new, or more
stimulating than is absolutely necessary. The dung of swine will
burn[3246] up the vine, if used at shorter intervals than those of
five years; unless, indeed, it is mixed with water. The same is the
case, too, with the refuse of the currier’s workshop, unless it is
well diluted with water: manure will scorch also, if laid on land too
plentifully. It is generally considered the proper proportion, to use
three modii to every ten feet square; this, however, the nature of the
soil must decide.



CHAP. 47.—MEDICAMENTS FOR TREES.


Wounds and incisions of trees are treated also with pigeon dung and
swine manure. If pomegranates are acid, the roots of the tree are
cleared, and swine’s dung is applied to them: the result is, that
in the first year the fruit will have a vinous flavour, but in the
succeeding one it will be sweet. Some persons are of opinion that the
pomegranate should be watered four times a year with a mixture of human
urine and water, at the rate of an amphora to each tree; or else that
the extremities of the branches should be sprinkled with silphium[3247]
steeped in wine. The stalk of the pomegranate should be twisted, if it
is found to split while on the tree. The fig, too, should be drenched
with the amurca of olives, and other trees when they are ailing,
with lees of wine; or else lupines may be sown about the roots. The
water, too, of a decoction of lupines is beneficial to the fruit, if
poured upon the roots of the tree. When it thunders at the time of the
Vulcanalia,[3248] the figs fall off; the only remedy for which is to
have the area beneath ready covered with barley-straw. Lime applied to
the roots of the tree makes cherries come sooner to maturity, and ripen
more rapidly. The best plan, too, with the cherry, as with all other
kinds, is to thin the fruit, so that that which is left behind may grow
all the larger.

(28.) There are some trees, again, which thrive all the better for
being maltreated,[3249] or else are stimulated by pungent substances;
the palm and the mastich for instance, which derive nutriment from
salt water.[3250] Ashes have the same virtues as salt, only in a more
modified degree; for which reason it is, that fig-trees are sprinkled
with them; as also with rue,[3251] to keep away worms, and to prevent
the roots from rotting. What is still more even, it is recommended to
throw salt[3252] water on the roots of vines, if they are too full of
humours; and if the fruit falls off, to sprinkle them with ashes and
vinegar, or with sandarach if the grapes are rotting.[3253] If, again,
a vine is not productive, it should be sprinkled and rubbed with strong
vinegar and ashes; and if the grapes, instead of ripening, dry and
shrivel up, the vine should be lopped near the roots,[3254] and the
wound and fibres drenched with strong vinegar and stale urine; after
which, the roots should be covered up with mud annealed with these
liquids, and the ground spaded repeatedly.

As to the olive, if it gives promise of but little fruit, the roots
should be bared, and left exposed to the winter cold,[3255] a mode of
treatment for which it is all the better.

All these operations depend each year upon the state of the weather,
and require to be sometimes retarded, and at other times precipitated.
The very element of fire even has its own utility, in the case of the
reed for instance; which, after the reed-bed has been burnt, will
spring up all the thicker and more pliable.[3256]

Cato,[3257] too, gives receipts for certain medicaments, specifying the
proportions as well; for the roots of the large trees he prescribes
an amphora, and for those of the smaller ones, an urna, of amurca of
olives, mixed with water in equal proportions, recommending the roots
to be cleared, and the mixture to be gradually poured upon them. In
addition to this, in the case of the olive and the fig, he recommends
that a layer of straw should be first placed around them. In the
fig, too, more particularly, he says that in spring the roots should
be well moulded up; the result of which is, that the fruit will not
fall off while green, and the tree will be all the more productive,
and not affected with roughness of the bark. In the same way,
too,[3258] to prevent the vine-fretter[3259] from attacking the tree,
he recommends that two congii of amurca of olives should be boiled
down to the consistency of honey, after which it must be boiled again
with one-third part of bitumen, and one-fourth of sulphur; and this
should be done, he says, in the open air, for fear of its igniting if
prepared in-doors; with this mixture, the vine is to be anointed at the
ends of the branches and at the axils; after which, no more fretters
will be seen. Some persons are content to make a fumigation with this
mixture while the wind is blowing towards the vine, for three days in
succession.

Many persons, again, attribute no less utility and nutritious virtue to
urine than Cato does to amurca; only they add to it an equal proportion
of water, it being injurious if employed by itself. Some give the name
of “volucre”[3260] to an insect which eats away the young grapes: to
prevent this, they rub the pruning-knife, every time it is sharpened,
upon a beaver-skin, and then prune the tree with it: it is recommended
also, that after the pruning, the knife should be well rubbed with the
blood of a bear.[3261] Ants, too, are a great pest to trees; they are
kept away, however, by smearing the trunk with red earth and tar: if a
fish, too, is hung up in the vicinity of the tree, these insects will
collect in that one spot. Another method, again, is to pound lupines
in oil,[3262] and anoint the roots with the mixture. Many people kill
both ants as well as moles[3263] with amurca, and preserve apples from
caterpillars as well as from rotting, by touching the top of the tree
with the gall of a green lizard.

Another method, too, of preventing caterpillars, is to make a
woman,[3264] with her monthly courses on her, go round each tree,
barefooted and ungirt. Again, for the purpose of preventing animals
from doing mischief by browsing upon the leaves, they should be
sprinkled with cow-dung each time after rain, the showers having the
effect of washing away the virtues of this application.

The industry of man has really made some very wonderful discoveries,
and, indeed, has gone so far as to lead many persons to believe, that
hail-storms may be averted by means of a certain charm, the words of
which I really could not venture seriously to transcribe; although we
find that Cato[3265] has given those which are employed as a charm for
sprained limbs, employing splints of reed in conjunction with it. The
same author,[3266] too, has allowed of consecrated trees and groves
being cut down, after a sacrifice has first been offered: the form of
prayer, and the rest of the proceedings, will be found fully set forth
in the same work of his.


SUMMARY.—Remarkable facts, narratives, and observations, eight
hundred and eighty.


ROMAN AUTHORS QUOTED.—Cornelius Nepos,[3267] Cato[3268] the
Censor, M. Varro,[3269] Celsus,[3270] Virgil,[3271] Hyginus,[3272]
Saserna[3273] father and son, Scrofa,[3274] Calpurnius Bassus,[3275]
Trogus,[3276] Æmilius Macer,[3277] Græcinus,[3278] Columella,[3279]
Atticus Julius,[3280] Fabianus,[3281] Mamilius Sura,[3282] Dossenus
Mundus,[3283] C. Epidius,[3284] L. Piso.[3285]


FOREIGN AUTHORS QUOTED.—Hesiod,[3286] Theophrastus,[3287]
Aristotle,[3288] Democritus,[3289] Theopompus,[3290] King Hiero,[3291]
King Attalus[3292] Philometor, King Archelaus,[3293] Archytas,[3294]
Xenophon,[3295] Amphilochus[3296] of Athens, Anaxipolis[3297] of
Thasos, Apollodorus[3298] of Lemnos, Aristophanes[3299] of Miletus,
Antigonus[3300] of Cymæ, Agathocles[3301] of Chios, Apollonius[3302] of
Pergamus, Bacchius[3303] of Miletus, Bion[3304] of Soli, Chæreas[3305]
of Athens, Chæristus[3306] of Athens, Diodorus[3307] of Priene,
Dion[3308] of Colophon, Epigenes[3309] of Rhodes, Euagon[3310] of
Thasos, Euphronius[3311] of Athens, Androtion[3312] who wrote on
Agriculture, Æschrion[3313] who wrote on Agriculture, Lysimachus[3314]
who wrote on Agriculture, Dionysius[3315] who translated Mago,
Diophanes[3316] who made an Epitome of Dionysius, Aristander[3317] who
wrote on Portents.


FOOTNOTES:

[1] In B. xii. c. 32—it is supposed by some that it is the Roman Libra
that is meant, under the name of “Mina,” as containing eighty-four
Denarii. If so, it must be the old Roman Libra, as it is more generally
thought that the Libra of Pliny’s time contained ninety-six Denarii, of
sixty grains, within a fraction.

[2] One thousand Paces made a Roman “Mille Passuum,” or Mile, 1618
yards English.

[3] “Immensæ subtilitatis.” As Cuvier remarks, the ancients have
committed more errors in reference to the insects, than to any other
portion of the animal world. The discovery of the microscope has served
more than anything to correct these erroneous notions.

[4] “Insecta,” “articulated.”

[5] The trunk of the gnat, Cuvier says, contains five silken and
pointed threads, which together have the effect of a sting.

[6] The Teredo navalis of Linnæus, not an insect, but one of the
mollusks. This is the same creature that is mentioned in B. xvi. c. 80;
but that spoken of in B. viii. c. 74, must have been a land insect.

[7] They respire by orifices in the sides of the body, known to
naturalists as _stigmata_. The whole body, Cuvier says, forms, in a
measure, a system of lungs.

[8] Cuvier remarks that the various noises made by insects are in
reality not the voice, as they are not produced by air passing through
a larynx.

[9] B. ix. c. 6.

[10] Cuvier remarks, that they have a nourishing fluid, which is of a
white colour, and acts in place of blood.

[11] The dye of sæpia, Cuvier remarks, is not blood, nor does it act
as such, being an excrementitious liquid. It has in addition a bluish,
transparent, blood. The same also with the juices of the purple.

[12] “Nervos.” Cuvier says that all insects have a brain, a sort of
spinal marrow, and nerves.

[13] “Tutius.”

[14] Insects have no fat, Cuvier says, except when in the chrysalis
state; but they have a fibrous flesh of a whitish colour. They have
also viscera, trachea, nerves, and a most complicated organization.

[15] “Melligo.” For further information on this subject consult Bevan
on the Honey Bee.

[16] Or “conusis,” “gummy matter.”

[17] Pitch-wax.

[18] A kind of bee-glue; the origin of the name does not seem to be
known. Reaumur says that they are all different varieties of bee-glue.

[19] See B. xxii. c. 50.

[20] Different combinations of the pollen of flowers, on which bees
feed.

[21] It is formed from the honey that the bee has digested.

[22] Sorrel, or monk’s rhubarb.

[23] A kind of broom.

[24] Spanish broom, the Stipa tenacissima of Linnæus. Ropes were made
of it. See B. xix. c. 7.

[25] Or, the “wild man.”

[26] Huber has discovered that there are two kinds of bees of neutral
sex, or, as he calls them, unprolific females, the workers, which go
out, and the nurses, which are smaller, and stay in the hive to tend
the larvæ.

[27] From the honey found in the corollæ of flowers. This, after being
prepared in the first stomach of the bee, is deposited in the cell
which is formed for its reception.

[28] Cuvier says that the three kinds of cells are absolutely
necessary, and that they do not depend on the greater or less
abundance. The _king_ of the ancients is what we know as the _queen_
bee, which is impregnated by the drones or males.

[29] This is the fact, but not so their _imperfect_ state.

[30] They do not work, but merely impregnate the queen; after which
they are driven from the hive, and perish of cold and starvation.

[31] It appears, as Cuvier says, that the ancients had _some_ notion
that the swarm was multiplied by the aid of the drones.

[32] Cuvier says that the cell for the future queen is different from
the others, and much larger. The bees also supply the queen larva much
more abundantly with food, and of more delicate quality.

[33] Cuvier says that this coincidence with the number of the legs is
quite accidental, as it is with the mouth that the animal constructs
the cell.

[34] The basis of it is really derived from the calix or corolla of
flowers.

[35] See B. iv. c. 24.

[36] In the last Chapter.

[37] Or “Flower-honey.”

[38] Season-honey.

[39] “Vinegar” is the ordinary meaning.

[40] Sillig remarks that the whole of this passage is corrupt.

[41] Hence, perhaps, its name of “acetum.”

[42] The people of Italy.

[43] The 10th of the calends of September, or 23rd August.

[44] Or “heath-honey.” In the north of England the hives are purposely
taken to the moors.

[45] “Erice,” “heather,” seems to be a preferable reading to “myrice,”
“tamarisk,” which is adopted by Sillig.

[46] 12th September.

[47] “Tetralicem” seems preferable to “tamaricem.”

[48] 13th November.

[49] “Unsmoked” honey.

[50] It takes place while they are on the wing.

[51] The only prolific _female_, in reality.

[52] Some unprolific females and some males, in reality.

[53] Cuvier thinks that either hornets, or else the drones, must be
alluded to. Virgil, Georg. B. iv. l. 197, _et seq._, is one of those
who think that bees are produced from flowers.

[54] _I. e._ from flowers.

[55] They arrange the eggs in the cells, but they cannot be said to
_sit_.

[56] This is not the fact. The queen bee commences as a larva, and that
the larva of a working bee, Cuvier says, which, placed in a larger
cell, and nurtured in a different manner, developes its sex and becomes
the queen of the new swarm.

[57] They are then in the chrysalis state.

[58] “Clavus.”

[59] It is the first hatched _queen_ that puts the others to death.

[60] In consequence, really, of their pregnancy.

[61] The greater size of the abdomen makes the wings _look_ shorter.

[62] The queen has a sting, like the working bees, but uses it less
frequently.

[63] A place in Germany, where Drusus, the brother of Tiberius, gained
a victory over the Germans: the locality is unknown.

[64] “Fur.” A variety, probably, of the drone.

[65] So Virgil says—

    ——“Hæc certamina tanta Pulveris exigui jactu compressa
  quiescent.”—_Georg._ iv. 87.

[66] If it is left in the wound, the insect dies, being torn asunder.

[67] Of course this is fabulous, as the drones are males.

[68] Though belonging to the same class, they are not of degenerate
kinds.

[69] The “mule-gnat.”

[70] See Virgil, Georg. B. iv. l. 27.

[71] The reading seems doubtful, and the meaning is probably unknown.

[72] “Injury of the young.”

[73] There are two kinds of hive-moth—the Phalæna tinea mellanella of
Linnæus, and the Phalæna tortrix cereana. It deposits its larva in
holes which it makes in the wax.

[74] In consequence of closing the stigmata, and so impeding their
respiration. The same result, no doubt, is produced by the honey when
smeared over their bodies.

[75] B. xxi. c. 42.

[76] Cuvier says that a hive has been known to last more than thirty
years: but it is doubtful if bees ever live so long as ten, or, except
the queen, little more than one.

[77] Though Virgil tells the same story, in B. iv. of the Georgics, in
relation to the shepherd Aristæus, all this is entirely fabulous.

[78] Georg. B. iv. l. 284, _et seq._

[79] Under roofs, and sometimes in the ground: hornets build in the
hollows of trees.

[80] Called “Sphæx” by Linnæus.

[81] The true version is, that after killing the insect they bury it
with their eggs as food for their future young.

[82] Cuvier says that it is the males, and not the females, that have
no sting.

[83] What modern naturalists call the “Hymenoptera.”

[84] Some kind of wasp, or, as Cuvier says, probably the mason bee.

[85] Called “bombyx” also; though, as Cuvier remarks, of a kind
altogether different from the preceding one.

[86] The first kinds of silk dresses worn by the Roman ladies were
from this island, and, as Pliny says, were known by the name of _Coæ
vestes_. These dresses were so fine as to be transparent, and were
sometimes dyed purple, and enriched with stripes of gold. They probably
had their name from the early reputation which Cos acquired by its
manufactures of silk.

[87] This account is derived from Aristotle, Hist. Anim. B. v. c. 19.

[88] “Lanificia.”

[89] Early in the reign of Tiberius, as we learn from Tacitus, the
senate enacted “ne vestis Serica viros fædaret”—“That men should not
defile themselves by wearing garments of silk,” Ann. B. ii. c. 33.

[90] The Aranea lupus of Linnæus.

[91] As Cuvier observes, he has here guessed at the truth.

[92] They copulate in a manner dissimilar to that of any other
insects—the male fecundates the female by the aid of feelers, which he
introduces into the vulva of the female situate beneath the anterior
part of the abdomen.

[93] Cuvier remarks, that the scorpion is viviparous; but the young are
white when born, and wrapped up in an oval mass, for which reason they
may easily be taken for maggots or grubs.

[94] This must be understood of the scorpion of Egypt, Libya, and
Syria. The sting of that of the south of Europe is not generally
dangerous.

[95] Cuvier seems to regard this as fanciful: he says that the
instances of _seven_ joints are but rarely to be met with.

[96] There are no winged scorpions. Cuvier thinks that he may possibly
allude to the panorpis, or scorpion-fly, the abdomen of which
terminates in a forceps, which resembles the tail of the scorpion.

[97] Probably the panorpis.

[98] See B. xxix. c. 29.

[99] The starred or spotted lizard.

[100] The stellio of the Romans is the “ascalabos” or “ascalabotes” of
the Greeks, the lizard into which Ascalabus was changed by Ceres: see
Ovid, Met. B. v. l. 450, _et seq._ Pliny also mentions this in B. xxix.
c. 4, though he speaks of some difference in their appearance. It is
a species of gecko, the tarentola of Italy, the tarente of Provence,
and the geckotta, probably, of Lacepède. The gecko, Cuvier says, is
not venomous; but it causes small blisters to rise on the skin when it
walks over it, the result, probably, of the extreme sharpness of its
nails.

[101] See c. 28 of this Book, and B. viii. c. 95; B. xxx. c. 27.

[102] A general name for the grasshopper. Cuvier remarks, that Pliny is
less clear on this subject than Aristotle, the author from whom he has
borrowed.

[103] “Correptis” seems a preferable reading to “conrupti,” that
adopted by Sillig.

[104] The female has this, and employs it for piercing dead branches in
which to deposit its eggs.

[105] The “mother of the grasshopper.”

[106] The trunk of the grasshopper, Cuvier says, is situate so low
down, that it seems to be attached to the breast. With it the insect
extracts the juices of leaves and stalks.

[107] Or “twig-grasshopper.”

[108] Or “corn-grasshopper.”

[109] Or “oat-grasshopper.”

[110] The river Cæcina. See B. iii. c. 15. This river is by Strabo,
B. vi. c. 260, called the Alex. Ælian has the story that the Locrian
grasshoppers become silent in the territory of Rhegium, and those of
Rhegium in the territory of Locri, thereby implying that they each have
a note in its own respective country.

[111] Cuvier says that the observations in this Chapter, derived from
Aristotle, are remarkable for their exactness, and show that that
philosopher had studied insects with the greatest attention.

[112] Or sheath; the Coleoptera of the naturalists.

[113] The flying stag-beetle, the Lucanus cervus of Linnæus.

[114] The dung-beetle, the Scarabæus pilularius of Linnæus.

[115] Various kinds of crickets.

[116] Cuvier says that it is on the two sides of the abdomen that the
male carries its light, while the whole posterior part of the female is
shining.

[117] In the glow-worm of France, the Lampyris noctiluca of Linnæus,
the female is without wings, while the male gives but little light. In
that of Italy, the Lampyris Italica, both sexes are winged.

[118] “Blattæ.” See B. xxix. c. 39, where three kinds are specified.

[119] This beetle appears to be unknown. Cuvier suggests that the
Scarabæus nasicornis of Linnæus, which haunts dead bark, or the
Scarabæus auratus may be the insect referred to.

[120] “Fatal to the beetle.”

[121] Cuvier remarks that this assertion, borrowed from Aristotle, is
incorrect. The wings of many of the Coleoptera are articulated in the
middle, and so double, one part on the other, to enter the sheath.

[122] Cuvier remarks, that the panorpis has a tail very like that of
the scorpion; and that the ephemera, the ichneumons and others, have
tails also. Aristotle, in the corresponding place, only says that the
insects do not use the tail to direct their flight.

[123] These are merely the feelers of the jaws.

[124] Not instead of, but in addition to, the tongue, by the aid of
which they suck.

[125] Evidently meaning the trunk.

[126] See B. xxix. c. 39.

[127] It is not true that the young locusts are destitute of feet.

[128] 7th May.

[129] 18th July.

[130] 11th May.

[131] Cuvier treats this story as purely imaginary.

[132] Cuvier says that some have been known nearly a foot long, but not
more.

[133] He alludes to the ravages committed by the swarms of the
migratory locust, Grillus migratorius of Linnæus.

[134] Julius Obsequens speaks of a pestilence there, created by the
dead bodies of the locusts, which caused the death of 8000 persons.

[135] See also B. vi. c. 35.

[136] What are commonly called ants’ eggs, are in reality their larvæ
and nymphæ. Enveloped in a sort of tunic, these last, Cuvier says,
are like grains of corn, and from this probably has arisen the story
that they lay up grains against the winter, a period through which in
reality they do not eat.

[137] They stow away bits of meat and detached portions of fruit, to
nourish their larvæ with their juices.

[138] It is in reality their larvæ that they thus bring out to dry. The
working ants, or neutrals, are the ones on which these labours devolve:
the males and females are winged, the working ants are without wings.

[139] “Ad recognitionem mutuam.”

[140] Some modern writers express an opinion that when they meet, they
converse and encourage one another by the medium of touch and smell.

[141] See B. v. c. 31.

[142] M. de Veltheim thinks that by this is really meant the Canis
corsac, the small fox of India, but that by some mistake it was
represented by travellers as an ant. It is not improbable, Cuvier
says, that some quadruped, in making holes in the ground, may have
occasionally thrown up some grains of the precious metal. The story
is derived from the narratives of Clearchus and Megasthenes. Another
interpretation of this story has also been suggested. We find from
some remarks of Mr. Wilson, in the _Transactions of the Asiatic
Society_, on the Mahabharata, a Sanscrit poem, that various tribes on
the mountains Meru and Mandara (supposed to lie between Hindostan and
Tibet) used to sell grains of gold, which they called _paippilaka_, or
“ant-gold,” which, they said, was thrown up by ants, in Sanscrit called
_pippilaka_. In travelling westward, this story, in itself, no doubt,
untrue, may very probably have been magnified to its present dimensions.

[143] Cuvier observes, that this is a very correct account of the
cabbage or radish butterfly, the Papilio brassicæ or Papilio raphani of
Linnæus.

[144] Cossi. See B. xvii. c. 37.

[145] Tæniæ.

[146] He alludes to the Morbus pediculosus.

[147] Aristotle says, in the corresponding passage, Hist. Anim. B.
v. c. 26, that the animals which are affected by lice, are more
particularly exposed to them when they change the water in which they
wash.

[148] Or “leapers.”

[149] He alludes to dog-ticks and ox-ticks, the Acarus ricinus of
Linnæus, and the Acarus reduvius of Schrank.

[150] In c. 32 he has said the same of the grasshopper; in relation to
its drink.

[151] A variety of the Cynips of Linnæus, which in vast numbers will
sometimes adhere to the ears of dogs.

[152] These are really the larvæ of night-moths. His account here is
purely imaginary.

[153] He speaks of the Cynips psenes of Linnæus, which breeds on the
blossom of the fig-tree, and aids in its fecundation. See B. xv. c. 21.

[154] He alludes to various coleopterous insects, which are not
included among the Cantharides of the modern naturalists. They are
first an egg, then a larva, then a nympha, and then the insect fully
developed.

[155] See B. xxix. c. 30.

[156] The redness sometimes observed on the snow of the Alps and the
Pyrenees, is supposed by De Lamarck to be produced by animalculæ: other
naturalists, however, suppose it to arise from vegetable or mineral
causes.

[157] Cuvier thinks that he alludes to a variety of the ephemera or
the phryganea of Linnæus, the case-wing flies, many of which are
particularly short-lived. These are by no means peculiar to the river
Bog or Hypanis.

[158] “Living for a day.”

[159] They only _appear_ to be so, from the peculiar streaks on the
eyes. Linnæus has hence called one variety, the Tabanus cæcutiens.

[160] Or with pounded chalk or whitening. Ælian adds, “if they are
placed in the sun,” which appears necessary for the full success of the
experiment. Life appears to be suspended in such cases for a period of
surprising length.

[161] Probably the golden pheasant, as already mentioned.

[162] Some kind of heron or crane, Cuvier thinks.

[163] The Alauda cristata of Linnæus, so called from “galera,” a
pointed cap like a helmet.

[164] The fifth legion.

[165] The hoopoe, B. x. c. 44.

[166] Savigny and Cuvier take this to be the Ardea virgo of Linnæus, a
native of Numidia.

[167] The suddenness of their appearance, no doubt, was fabulous; but
we have well-authenticated cases in recent times of substances growing
on the human head, to all appearance resembling horns, and arising from
a disordered secretion of the hair. Witness the case of Mary Davies,
a so-called horn from whose head is preserved in the Ashmolean Museum
at Oxford. The story of Genucius Cippus, the Roman prætor, is told by
Ovid, Met. B. xv. l. 565, _et seq._

[168] A spitter, or second year stag, according to Cuvier.

[169] “Broad-horned.” The Cervus dama of Linnæus.

[170] “Dama.” The Antelope redunca of Linnæus, Cuvier thinks.

[171] No doubt a kind of antelope.

[172] “Lyras” seems preferable to “liras.”

[173] There are several varieties of oxen, in which the horns adhere to
the skin, and not to the cranium.

[174] B. viii. cc. 29-31.

[175] The Coluber cerastes of Linnæus. See B. viii. c. 35.

[176] The drinking-horns of our Saxon ancestors are well known to the
antiquarian.

[177] The “urna” was half an “amphora,” or nearly three gallons.

[178] See B. xxxv. c. 41.

[179] The rhinoceros. See B. viii. c. 39.

[180] He surely must except the Phrygian oxen with the moveable horns,
which he has previously mentioned.

[181] Or “long-haired.” See B. iii. c. 7.

[182] See B. iv. c. 31.

[183] See B. iv. c. 22.

[184] See B. v. c. 29.

[185] Φαλακροκόραξ. See B. x. c. 68.

[186] He borrows this from Aristotle.

[187] B. viii. c. 54, and B. x. c. 58. The skull of the bear is not
thinner or weaker than that of other animals of its own size; but
the skull of the parrot, in proportion to those of other birds, is
remarkably hard.

[188] See B. vii. c. 1.

[189] Cuvier says that these are the larvæ of the œstrus, which are
deposited on the lips of quadrupeds, and so make their way to various
cavities.

[190] B. ix. c. 40.

[191] Or razor-sheath. See B. x. c. 88.

[192] Aristotle was of this opinion, but Galen maintained that the mole
_can_ see. Its eye is extremely small, and hard on the surface.

[193] Or “white” heron. As Cuvier remarks, this is probably a mere
augur’s fable.

[194] It is almost needless to remark, that both snails, as well as
locusts and grasshoppers, _have_ eyes.

[195] Lumbricus.

[196] B. vii. c. 2.

[197] “Cæsii.”

[198] The same has been said also of Cardan, the elder Scaliger,
Theodore Beza, the French physician Mairan, and the republican Camille
Desmoulins.

[199] Caligula.

[200] Hardouin with justice doubts the soundness of this alleged reason.

[201] He alludes, probably, to some method of curing cataract; perhaps
somewhat similar to that mentioned by him in B. xx. c. 20.

[202] This was done by the nearest relatives. This usage still prevails
in this country, the eyelids being pressed down with pieces of gold or
silver.

[203] Or “squint-eyed.”

[204] Or “cock-eyed.”

[205] B. viii. c. 45.

[206] B. viii, c. 51.

[207] See B. xxv. c. 50.

[208] Or crustaceous covering.

[209] Kohl is still used in the east for the same purpose.

[210] Aristotle says so, Hist. Anim. B. iii. c. 10.

[211] “The eyebrows.”

[212] This is not the fact.

[213] With their nails when mourning for the dead.

[214] Hence the word “nasutus,” a sneering, captious, or sarcastic man.

[215] “Flat-nosed,” and “snub-nosed.”

[216] A Roman family—the reading of this word seems doubtful.

[217] In reality, the under one only.

[218] He is incorrect in speaking of dogs as having serrated teeth.

[219] In the dugong also, babiroussa, muntjac, and others.

[220] The morse and the dugong are instances to the contrary.

[221] The females of the elephant, morse, dugong, chevrotin, and
muntjac have them, and they are equally as useful as with the male,
only, perhaps, not so strong.

[222] This is incorrect, unless he merely means ranged in one
continuous line; and even then he is in error.

[223] See B. ix. c. 29. This is called the parrot-fish, from the
resemblance of its upper and lower jaws to the beak of a parrot.

[224] They present this appearance from being worn away at the surface.

[225] Rondelet would read “gula,” the throat. This, though repudiated
by Hardouin, is approved of by Cuvier, who justly looks upon the
ordinary reading as an absurdity. Many fish, he says, and more
especially the osseous ones, have teeth in the pharynx.

[226] There is always one fang, at least, ready to supply the place of
the one in front, if lost by any accident.

[227] Like the jugglers of the East at the present day. But it is very
doubtful whether the poison fang is in _all_ instances previously
extracted from the serpents which they handle.

[228] But the camel, as well as the lama, has an incisive bone,
provided with an incisive tooth on each side, and has canine and molar
teeth as well.

[229] If by this term he means teeth separated from each other,
the assertion is incorrect, as in these animals we find the molars
separated from the lower incisives by a very considerable space.

[230] Cuvier says, as far as the sea-urchin is concerned, very simply,
and merely by looking at it, as its five teeth are very apparent.

[231] The incisors are in number, and very nearly in appearance, like
those of man. The canines are different in shape, though similar in
number. What he says about the elephant, is peculiar to that of India.

[232] See B. ix. c. 88.

[233] Very few other animals are born with teeth, in their natural
state. Apes, dogs, and cats are not born with teeth.

[234] From the fourth to the eighth month in reality, during which the
four central incisors appear.

[235] The only ones that do not change are those which have three
molars on each side of the jaw.

[236] This is erroneous: they change the incisors and molars as well.

[237] See B. xxviii. c. 78.

[238] By us known as the “wisdom” teeth.

[239] This is not the fact: they have usually the same number, but
there are exceptions on both sides. The same is also the case with
sheep, goats, and swine.

[240] This is not very uncommon.

[241] Not at all an uncommon occurrence.

[242] Of the second set.

[243] It is only in the horse and the ass that these indications can be
relied upon.

[244] Columellares.

[245] This has no such effect.

[246] The contrary is the case: it will be more prolific.

[247] Swine change them just the same as other animals.

[248] By certain appearances in the incisors, the age of a horse up to
its twenty-fourth year, or even beyond, may be judged of: the other
signs cannot be so positively relied upon.

[249] B. viii. c. 15.

[250] “Sævissima dentibus,” seems to be a preferable reading to
“sævissime dentiunt.”

[251] Only two-forked in reality.

[252] It is _not_ covered with hair.

[253] It is _not_ bifurcate.

[254] These are horny, conical papillæ, the summits of which point
backwards.

[255] See B. ix. c. 60.

[256] “Criers.”

[257] One of the titles of the goddess Fortuna.

[258] “Uva,” or “grape.”

[259] More generally “epiglottis.” It is found in some few reptiles.
This passage is omitted by Sillig.

[260] Gullet, or pharynx.

[261] Stomachum.

[262] All these animals, on the contrary, have seven vertebræ.

[263] This is not the fact. The spinal marrow, even, may be wounded,
without death being the immediate result.

[264] Snow-water, we know, is apt to produce goitre.

[265] “Stomachus.” More properly, the œsophagus, or ventricle.

[266] Lacunæ modo.

[267] Or turtle. It has a tongue, and though it has no teeth, the jaws
are edged with a horny substance like the bills of birds.

[268] “Crenis” is read for “renis:” otherwise the passage is
unintelligible: it is still most probably in a corrupt state.

[269] Among all the mammiferæ and the birds, the heart has four
cavities, two on each side.

[270] Mens.

[271] This is a mistake. The heart is subject to disease, equally with
other parts of the body.

[272] In spite of what Schenkius says in confirmation of Pliny, this
is very doubtful. Of course it must increase from childhood, but the
increase surely does not continue till the fiftieth year.

[273] See an account of him in the Messeniaca of Pausanias.

[274] In this part of the story may have originated that of the escape
of Sindbad the Sailor, when buried in the vault with the body of his
wife.—See the “Arabian Nights.”

[275] “Rex Sacrorum.” This was a priest elected from the patricians, on
whom the priestly duties devolved, which had been originally performed
by the kings of Rome. He ranked above the Pontifex Maximus, but was
possessed of little or no political influence.

[276] No doubt there was trickery in this.

[277] By supernatural agency.

[278] This was P. Vitellius, who served under Germanicus in Germany.
He was one of the accusers of Cn. Piso, who was charged with having
poisoned Germanicus.

[279] The cardiac disease, as alleged.

[280] B. ix. c. 6.

[281] But see B. viii. c. 51, and B. xxviii. c. 29.

[282] Plutarch says that it was the “caput,” or “head” of the liver
that was wanting. M. Marcellus was slain while reconnoitring the
Carthaginian camp by night.

[283] Caligula.

[284] 1st of January.

[285] By his niece and wife, Agrippina, the mother of Nero.

[286] See B. iv. c. 11. Tharne does not seem to be known. Of course,
this story about the hares is fabulous.

[287] There must be some corrupt reading here; for, as Sillig remarks,
who ever heard of a siege which lasted a hundred years?

[288] Or diaphragm; from “præ,” “before,” and “cor,” the “heart.”

[289] With Sardonic laughter, as Hardouin remarks.

[290] Or small guts.

[291] Or front intestines.

[292] The coot, probably.

[293] He alludes to the papillæ of the mucous gland.

[294] The colic.

[295] “Lupus cervarius.” Probably the lynx.

[296] The belly of the elephant presents five transversal folds.

[297] See B. xxviii. c. 77. This substance, known by the name of
egagropile, consists of the hair which the animal has swallowed when
licking itself. It assumes a round form, in consequence of the action
of the intestines.

[298] Perhaps the godwit, or stone-plover, the Scolopax ægocephala of
Linnæus.

[299] See also B. xxvi. c. 83.

[300] This may be done with safety in dogs or other animals.

[301] See B. v. c. 32.

[302] See p. 68.

[303] This is not the case. Birds have kidneys, but of an irregular
form.

[304] This is a mistake. It _does_ cicatrize.

[305] Or bag.

[306] “The (principal) place.”

[307] Ajasson renders this passage: “The effects are fatal when this
organ, becoming displaced, absorbs the air.” The text is probably
corrupt.

[308] Varro, De Re Rust. B. ii. c. 4, says that he saw an instance of
this in Arcadia.

[309] This is not the case.

[310] There is no similarity whatever between the spinal marrow and
that which is found in the other bones.

[311] The hare and the partridge, for instance.

[312] There is considerable doubt what the ancients exactly meant
by the “nervi;” and whether, in fact, they had any definite idea of
“nerves,” in our acceptation of the word. Pliny here expresses the
opinions entertained by Aristotle. “Tendons,” or “sinews,” would almost
appear to be the proper translation of the word.

[313] See B. xxviii. c. 41.

[314] In allusion, probably, to hæmorrhoids, or piles.

[315] See B. vii. c. 12.

[316] Bears, dormice, serpents, &c.

[317] The polypus and the chameleon.

[318] See B. viii. cc. 51, 52.

[319] Walking-sticks are still made of it.

[320] As already mentioned, this is not the fact.

[321] See B. ix. c. 43.

[322] It is not improbable that, under this name, some kind of large
vampire bat was meant; but, as Pliny says, it is impossible to arrive
at any certain knowledge on the subject. The best account given of the
strix is that in Ovid’s Fasti, B. vi. The name was given opprobriously
to supposed witches, the “foul and midnight hags” of Shakspeare.

[323] This assertion is borrowed from Aristotle, Hist. Anim. B. vii. c.
14.

[324] Or biestings.

[325] See B. xxviii. c. 12. Poppæa Sabina, first the mistress, then the
wife, of the Emperor Nero.

[326] “Spuma.” He calls it so, because it floats on the surface. See B.
xxviii. c. 35. The “acor,” or acrid liquid, which he speaks of, is, no
doubt, butter-milk.

[327] Or whey.

[328] Nismes, in France. Hardouin speaks of goats’-milk cheeses made in
its neighbourhood, and known as _fromages de Baux_.

[329] Probably the modern Losere and Gevaudan. See B. iv. c. 19.

[330] For the Docleatæ, see B. iii. c. 26.

[331] For the Centrones, see B. iii. c. 24. He perhaps refers to the
modern _fromage de Passi_.

[332] The modern Marquisat de Cive, which still produces excellent
cheese.

[333] See B. xiv. c. 8.

[334] And more especially at Salona in Bithynia.

[335] “Etiam ubi non videtur major.” This is probably corrupt.

[336] He wrote a poem, in which the principal Latin dramatists are
enumerated, in the order of merit. A. Gellius, B. xv. c. 24, has
preserved a portion of it.

[337] Germanicus.

[338] This seems to be the meaning of “imbricatus.”

[339] Though wounds in the knee are highly dangerous, death does not
_necessarily_ ensue.

[340] Of another person, who had thus forfeited his bail. It was the
custom to touch the ear of the attesting witness.

[341] The goddess of retribution. See B. xxviii. c. 5, where he makes
further mention of her statue in the Capitol.

[342] The frog is, in some measure, an exception.

[343] Or “flat-foot,” “splay-foot,” “large-foot,” and “club-footed.”

[344] Words meaning “knock-kneed,” “bow-legged,” and “wry-legged.”

[345] The rhinoceros.

[346] Or wryneck.

[347] See B. x. c. 5.

[348] Supposed to be the Hirundo apus of Linnæus. Of the “oce” nothing
is known; indeed, the reading is very doubtful.

[349] B. ix. c. 44.

[350] He evidently means insects of the centipede class. See B. xxix.
c. 39.

[351] B. x. c. 83.

[352] Such as circumcision among the Jews.

[353] See B. xxxv. c. 46.

[354] Probably the buzzard; from this story also called the “triorchis.”

[355] Hist. Anim. B. iv. c. 9.

[356] See B. ix. c. 52.

[357] “Aper.”

[358] B. ix. c. 7.

[359] See c. 65 of the present Book.

[360] Not the dumb son mentioned by Herodotus, who saved his father’s
life at the taking of Sardes.

[361] Like the whispering gallery of St. Paul’s Cathedral.

[362] “Non aliter quam oculis.” On this, few will be found to agree
with Pliny.

[363] And not to “conceal” them, according to the opinion of some
modern politicians.

[364] But they are borrowed from Aristotle, Hist. Anim. B. i. c. 9.

[365] See B. xii. c. 7.

[366] B. vii. c. 2.

[367] See B. xxix. c. 23.

[368] See c. 21 of the present Book.

[369] B. ix. c. 33.

[370] Or Fish-eaters.

[371] Or bulimia.

[372] See end of B. ii.

[373] See end of B. ii.

[374] C. Tremellius Scrofa, a friend of M. Varro, and one of the early
writers on agriculture.

[375] See end of B. x.

[376] See end of B. vii.

[377] See end of B. ix.

[378] See end of B. vii.

[379] See end of B. viii.

[380] See end of B. ii.

[381] See end of B. ii.

[382] See end of B. x.

[383] See end of B. iii.

[384] Nothing seems to be known of this writer.

[385] See end of B. vii.

[386] See end of B. vii.

[387] See end of B. ii.

[388] See end of B. ii.

[389] See end of B. vi.

[390] See end of B. x.

[391] C. Oppius, one of the most intimate friends of Julius Cæsar, for
whom, with Balbus, he acted in Spain. Of his numerous biographical and
historical works, none have survived to our time.

[392] See end of B. ii.

[393] See end of B. ii.

[394] Probably Neoptolemus of Paros, who wrote a book of Epigrams, a
treatise on Languages, and other works.

[395] Of Soli, an observer of the habits of bees. His portrait is said
still to exist, on a cornelian, attentively observing a swarm of bees.
He wrote upon bees, honey, and the art of mixing wines.

[396] Probably a different writer from the one mentioned at the end of
B. viii.; nothing seems to be known of him.

[397] See end of B. viii.

[398] See end of B. viii.

[399] See end of B. x.

[400] A philosopher of Agrigentum, and disciple of Pythagoras. He is
said to have perished in the crater of Mount Etna. He wrote numerous
works, of which only some fragments exist.

[401] See end of B. iv.

[402] Apparently the same as the King Philometor, mentioned below. See
end of B. viii.

[403] Of this writer nothing seems to be known.

[404] See end of B. vii.

[405] Of Chalcedon, one of the most famous physicians of antiquity.
He was physician to Phalaris, the tyrant of Sicily, and is said to
have dissected criminals alive. He was the first that paid particular
attention to the nervous system.

[406] A native of Iulis, in Cos, or else Ceos, grandson of Aristotle,
and disciple of Theophrastus. He acquired great reputation as a
physician, at the court of Seleucus Nicator, king of Syria, where he
discovered the supposed disease of Prince Antiochus, who had fallen in
love with his step-mother, Stratonice. Of his numerous medical works,
only the titles and a few fragments exist.

[407] See end of B. vii.

[408] A physician of Laodicæa, founder of the school of the Methodici.
He was a pupil of Asclepiades, and died about B.C. 43. Of his medical
works only a few fragments survive.

[409] See end of B. ii.

[410] See end of B. viii.

[411] See end of B. viii.

[412] See end of B. viii.

[413] See end of B. iii.

[414] See end of B. vii.

[415] See King Attalus, above.

[416] “Animâ.” The notion that plants are possessed of a soul or
spirit, is derived from the Greek philosophers, who attributed to them
intellect also, and sense.

[417] Vitruvius mentions the people of Gaul, Hispania, Lusitania, and
Aquitania, as living in his day in dwellings covered with oak shingles,
or with straw.

[418] See B. vi. c. 20, and B. xi. c. 26.

[419] Desfontaines remarks, that we may still trace vestiges of
this custom in the fine trees that grow near church porches, and
in church-yards. Of course, his remark will apply to France more
particularly.

[420] It is doubtful whether the æsculus of the Romans was the same as
the bay-oak, the holm-oak, or the beech. See B. xvi. c. 4.

[421] See further on this subject in Phædrus’s Fables, B. iii. f. 17.

[422] Reckoning the promulsis, antecæna, or gustatio, not as a course,
but only a prelude, the bellaria, or dessert, at the Roman banquets,
formed the second course, or mensa. It consisted of fruits uncooked,
sweetmeats, and pastry.

[423] He alludes to the pursuit of the elephant, for the purpose of
obtaining ivory, which was extensively used in his day, in making the
statues of the divinities.

[424] A sarcastic antithesis. And yet Dalechamps would read “hominum”
instead of “numinum”!

[425] Præmissa. The exact meaning of this word does not appear. Though
all the MSS. agree in it, it is probably a corrupt reading. Plutarch,
in his Life of Camillus, says that the wine of Italy was first
introduced in Gaul by Aruns, the Etruscan.

[426] The Platanus orientalis of Linnæus. It received its name from the
Greek πλάτος, “breadth,” by reason of its wide-spreading branches.

[427] For further mention of this island, now Tremiti, see B. iii. c.
30.

[428] He alludes, probably, to the “vectigal solarium,” a sort of
ground-rent which the tributary nations paid to the Roman treasury.
Virgil and Homer speak of the shade of the plane-tree, as a pleasant
resort for festive parties.

[429] It is not improbable that Pliny, in copying from Theophrastus,
has here committed an error. That author, B. ix. c. 7, says: ἐν μὲν
γὰρ τῷ Ἀδρίᾳ πλάτανον οὔ φασιν εἶναι, πλὴν περὶ τὸ Διομήδους ἱερόν·
σπανίαν δὲ καὶ ἐν Ἰταλίᾳ πάσῃ. “They say that in Adria there are no
plane-trees, except about the temple of Diomedes: and that they are
extremely rare in Italy.” Pliny, probably, when his secretary was
reading to him, mistook the word σπανίαν, “rare,” for Ἱσπανίᾳ “in
Spain.”

[430] It has been remarked that, in reality, this process would only
tend to impede its growth. Macrobius tells us, that Hortensius was
guilty of this singular folly.

[431] Situate near the sea-shore. It was here that Plato taught. See B.
xxxi. c. 3.

[432] Caligula.

[433] It is supposed that he here alludes sarcastically to the extreme
corpulence of Caligula.

[434] M. Fée, the learned editor of the botanical books in Ajasson’s
translation, remarks, that this cannot have been the Platanus of the
botanists, and that there is no tree of Europe, which does not lose its
leaves, that at all resembles it.

[435] The tendency, namely, to lose their leaves.

[436] Grandson of Asinius Pollio. Tacitus tells us, that he was one of
those whom Piso requested to undertake his defence, when charged with
having poisoned Germanicus; but he declined the office.

[437] Or “ground plane-trees.” It is by no means uncommon to see dwarf
varieties of the larger trees, which are thus reduced to the dimensions
of mere shrubs.

[438] C. Matius Calvena, the friend of Julius and Augustus Cæsar, as
also of Cicero. He is supposed to have translated the Iliad into Latin
verse, and to have written a work on cookery.

[439] See B. xxiii. c. 55. Fée remarks, that the ancients confounded
the citron with the orange-tree.

[440] Fée remarks, that this is not the case. The arbute is described
in B. xv. c. 28.

[441] In the time of Plutarch, it had begun to be somewhat more used.
It makes one of the very finest preserves.

[442] At the present day, it is cultivated all over India, in China,
South America, and the southern parts of Europe. Fée says, that they
grow even in the open air in the gardens of Malmaison.

[443] B. xi. c. 115. Virgil says the same, Georg. B. ii. ll. 134, 135.
Theophrastus seems to say, that it was the outer rind that was so used.

[444] See B. vi. c. 20.

[445] See B. vii. c. 2. The tree to which he alludes is unknown.

[446] Georg. B. ii. ll. 116, 117.

[447] B. iii. c. 97. There is little doubt that, under the general name
of “ebony,” the wood of many kinds of trees was, and is still, imported
into the western world, so that both Herodotus and Virgil may have been
correct in representing ebony as the product of both India and Æthiopia.

[448] Herodotus says two hundred.

[449] In Italy, whither he had retired from the hostile attacks of his
fellow-citizens. It is supposed by Le Vayer and others, that Pliny is
wrong in his assertion, that Herodotus wrote to this effect while at
Thurii; though Dr. Schmitz is inclined to be of opinion that he is
right in his statement.

[450] B. iii. c. 115.

[451] B. vi. c. 35.

[452] Fée remarks, that the words of Pliny do not afford us any means
of judging precisely what tree it was that he understood by the name of
ebony. He borrows his account mainly from Theophrastus.

[453] It is not known to what tree he alludes.

[454] This account of the Ficus Indica, or religiosa, known to us as
the banian-tree, is borrowed entirely from Theophrastus. Fée remarks,
however, that he is wrong in some of his statements, for that the
leaves are not crescent-shaped, but oblong and pointed, and that the
fruit has not a pleasant flavour, and is only eaten by the birds.

[455] See B. vi. c. 23.

[456] Sprengel and Bauhin are of opinion that the banana is the tree
meant here; Dodonæus thinks that it is the pomegranate. Thevet says
that the pala is the paquovera of India, the fruit of which is called
pacona. The account is borrowed from Theophrastus.

[457] The Gymnosophists, or Brahmins.

[458] Called Syndraci in B. vi. c. 25.

[459] It is not improbable that the Tamarindus Indica of Linnæus is the
tree here alluded to: though M. Fée combats that opinion.

[460] See Theophrastus, B. iv. c. 5.

[461] Dalechamps and Desfontaines are of opinion, that the pistachio,
or Pistacia terebinthus of Linnæus, is here alluded to; but Fée
considers that there are no indications to lead to such a conclusion.

[462] It is not improbable that he may here allude to the cotton-tree,
of which further mention is made in c. xxi. of the present Book.

[463] Fée is of opinion that Cynorrhodon here means, not the dog-rose,
but the gall which is formed on the tree by the sting of the Cynips
bedeguar.

[464] Fée expresses himself at a loss to conjecture what trees are here
meant by Pliny.

[465] Fée remarks, that there are many inaccuracies in the account
here given by Pliny of the pepper-tree, and that it does not bear any
resemblance to the juniper-tree. The grains, he says, grow in clusters,
and not in a husk or pod; and he remarks, that the long pepper and the
black pepper, of which the white is only a variety divested of the
outer coat, are distinct species. He also observes, that the real long
pepper, the Piper longum of Linnæus, was not known to the ancients.

[466] Fée remarks, that this is not a correct description of ginger,
the Amomum zingiber of Linnæus. Dioscorides was one of those who
thought that ginger was the root of the pepper-tree.

[467] It is very doubtful what tree is here alluded to by Pliny, though
certain that it is not one of the pepper-trees. Sprengel takes it to be
the Daphne Thymelæa.

[468] It has been suggested that under this name the clove is meant,
though Fée and Desfontaines express a contrary opinion. Sprengel thinks
that it is the Vitex trifolia of Linnæus, and Bauhin suggests the
cubeb, the Piper cubeba of Linnæus. Fée thinks it may have possibly
been the Myrtus caryophyllata of Ceylon, the fruit of which corresponds
to the description here given by Pliny.

[469] See c. 52 of the present Book.

[470] Or “Lycium.” It is impossible to say with exactness what the
medical liquid called “Lycion” was. Catechu, an extract from the tan of
the acacia, has been suggested; though the fruit of that tree does not
answer the present description.

[471] Fée suggests that this may possibly be the Lycium Europæum of
Linnæus, a shrub not uncommonly found in the south of Europe.

[472] The Rhamnus Lycioides of Linnæus, known to us as buckthorn. The
berries of many varieties of the Rhamnus are violent purgatives.

[473] What he means under this head is not known. Fée speaks of a tree
which the Brahmins call macre, and which the Portuguese called arvore
de las camaras, arvore sancto, arvore de sancto Thome, but of which
they have given no further particulars. Acosta, Clusius, and Bauhin
have also professed to give accounts of it, but they do not lead to its
identification. De Jussieu thinks that either the Soulamea, the Rex
amaroris of Rumphius, or else the Polycardia of Commerson is meant. It
seems by no means impossible that mace, the covering of the nutmeg, is
the substance alluded to, an opinion that is supported by Gerard and
Desfontaines.

[474] “Saccharon.” Fée suggests that Pliny alludes to a peculiar kind
of crystallized sugar, that is found in the bamboo cane, though, at
the same time, he thinks it not improbable that he may have heard of
the genuine sugar-cane; as Strabo, B. xv., speaks of a honey found in
India, prepared without the aid of bees, and Lucan has the line—

  “Quique bibunt tenerâ dulces ab arundine succos,”

evidently referring to a sugar in the form of a syrup, and not of
crystal, like that of the Bambos arundinacea. It is by no means
improbable, that Pliny, or rather Dioscorides, from whom he copies,
confuses the two kinds of sugar; as it is well known that the Saccharum
officinarum, or sugar-cane, has been cultivated from a very early
period in Arabia Felix.

[475] It is unknown what plant is here alluded to by Pliny, but
Sprengel suggests that it is the Acacia latronum.

[476] From the description, this would appear to be a sort of poisonous
horse-radish.

[477] There is a tree in India, as we are informed by Fée, which is
known as the Excæcaria Agallochum, the juice of which is remarkably
acrid. Sailors, on striking it with a hatchet, and causing the juice to
spirt into their eyes, have been in danger of losing their sight. It is
possible that this may be the tree here alluded to by Pliny.

[478] He borrows the account of this marvellous shrub from
Theophrastus. No such plant is likely to have ever existed; though
small, and even large, snakes may occasionally take refuge among shrubs
and hollow trees.

[479] There is little doubt that the Hedysarum Alhagi of Linnæus
is here meant, from which a kind of honey or manna flows, known as
“Eastern” manna, or tereniabin. It is not so high as the fig-tree, and
is found in Khorasan, Syria, Mesopotamia, and elsewhere. The manna
distils principally in the morning.

[480] Fée remarks, that it is singular that a resinous gum, such as
bdellium, should have been used in commerce for now two thousand years,
and yet its origin remain unknown. Kæmpfer and Rumphus are of opinion,
that the tree which produces it is the one known to naturalists as the
Borassus flabelliformis of Linnæus, or the Lontarus of others. It is
imported into Europe from Arabia and India, and is often found mixed
with gum Arabic.

[481] Περατικὸν; from περατὰ γῆς, “the remotest parts of the earth,”
from which it was brought.

[482] The modern name of this tree is unknown.

[483] B. vi. c. 28.

[484] It is supposed that the Rhizophora Mangle of Linnæus is the tree
that is here described. It grows on all the coasts of India, from Siam
to the entrance of the Persian Gulf. It takes root on spots which have
been inundated by the sea, and its boughs bend downwards, and taking
root in the earth, advance gradually towards the sea. The leaf and
fruit have the characteristics of those of the arbute and almond as
here mentioned.

[485] B. vi. c. 32.

[486] Fée suggests that some kind of mangrove is probably alluded to,
of the kind known as avicennia, or bruguiera.

[487] See B. vi. c. 20.

[488] “Cotonei.” To this resemblance of its fruit to the quince, the
cotton-tree, which is here alluded to, not improbably owes its modern
name.

[489] The cotton-tree, or Gossypium arboreum of Linnæus. It is worthy
of remark, that Pliny copies here almost literally from Theophrastus.
According to Philostratus, the byssus, or fine tissues worn by the
Egyptian priests, were made of cotton.

[490] The Malthiola incana.

[491] Fée suggests that this may be a Magnolia; but, as he remarks,
most plants open and shut at certain hours; consequently, this cannot
be regarded as any peculiar characteristic, sufficient to lead with
certainty to its identification.

[492] Theophrastus, from whom our author is copying, says that this is
the case only with the fig-tree there.

[493] According to most commentators, this is the Costus Arabicus of
Linnæus. Dioscorides mentions three varieties of costus: the Arabian,
which is of the best quality, and is white and odoriferous; the Indian,
which is black and smooth; and the Syrian, which is of the colour
of wax, dusky, and strong smelling. Fée, however, doubts whether
the modern costus is the same thing as that of the ancients; for,
as he says, although it has a sweet odour, it does not deserve the
appellation of a “precious aromatic,” which we find constantly given to
it by the ancients.

[494] See B. vi. c. 23.

[495] It is probable that the nard of the ancients, from which they
extracted the famous nard-oil, was not the same plant which we know as
the Indian nard, or Andropogon nardus of Linnæus. Indeed, it has been
pretty conclusively established by Sir William Jones, in his “Asiatic
Researches,” that the Valeriana Jatamansi is the plant from which they
obtained the oil. Among the Hindoos, it is known as djatâmansi, and by
the Arabs under the name of sombul, or “spike,” from the fact of the
base being surrounded with ears or spikes, whence, probably, the Roman
appellation. This species of valerian grows in the more distant and
mountainous parts of India, Bootan and Nepaul, for instance.

[496] From the Greek, ὄζαινα, “a putrid sore.” Fée suggests that this
may have been the Nardus hadrosphærum of the moderns.

[497] Fée supposes that this is not lavender, as some have thought, but
the Allium victorialis of modern naturalists, which is still mixed with
the nard from the Andropogon. He doubts the possibility of its having
been adulterated with substances of such a different nature as those
mentioned here by Pliny.

[498] Fée is of opinion, that the Greek writers, from whom Pliny copied
this passage, intended to speak of the ears of nard, or spikenard.

[499] According to Dioscorides, this appellation only means such nard
as is cultivated in certain mountains of India which look toward
Syria, and which, according to that author, was the best nard of all.
Dalechamps and Hardouin, however, ridicule this explanation of the term.

[500] Generally supposed to be the Valeriana Celtica of modern
naturalists. See B. xxi. c. 79.

[501] Probably the Valeriana Italica of modern naturalists.

[502] See B. xix. c. 48.

[503] Known in this country as fox-glove, our Lady’s gloves, sage of
Jerusalem, or clown’s spikenard. See B. xxi. c. 16.

[504] Not always, but very seldom, Brotier says. Clusius has
established, from observation, that this plant is only a variety of the
Valeriana Celtica.

[505] Fée remarks, that the name “baccara,” in Greek, properly belonged
to this plant, but that it was transferred by the Romans to the field
nard, with which the Asarum had become confounded. It is the same as
the Asarum Europæum of modern naturalists; but it does not, as Pliny
asserts, flower twice in the year.

[506] It is by no means settled among naturalists, what plant the
Amomum of the ancients was; indeed, there has been the greatest
divergence of opinion. Tragus takes it to be a kind of bindweed:
Matthioli, the Piper Æthiopicum of Linnæus: Cordus and Scaliger,
the rose of Jericho, the Anastatica hierocuntica of Linnæus. Gesner
thinks it to have been the garden pepper, the Solanum bacciferum of
Tournefort: Cæsalpinus the cubeb, the Piper cubeba of Linnæus: Plukenet
and Sprengel the Cissus vitiginea, while Fée and Paulet look upon it as
not improbably identical with the Amomum racemosum of Linnæus. The name
is probably derived from the Arabic hahmâma, the Arabians having first
introduced it to the notice of the Greeks.

[507] Supposed to have been only the Amomum, in an unripe state, as
Pliny himself suggests.

[508] Still known in pharmacy as “cardamum.” It is not, however, as
Pliny says, found in Arabia, but in India; from which it probably
reached the Greeks and Romans by way of the Red Sea. There are three
kinds known in modern commerce, the large, the middle size, and the
small. M. Bonastre, “Journal de Pharmacie,” May, 1828, is of opinion,
that the word cardamomum signifies “amomum in pods,” the Egyptian kardh
meaning “pod,” or “husk.” It is, however, more generally supposed, that
the Greek word, καρδία, “heart,” enters into its composition.

[509] “Verus” seems a preferable reading here to “vero,” which has been
adopted by Sillig.

[510] See c. 42 of the present Book.

[511] Virgil, Georg. B. ii. l. 139, mentions Panchaia, in Arabia,
as being more especially the country of frankincense. That region
corresponds with the modern Yemen. It is, however, a well-ascertained
fact, that it grows in India as well, and it is supposed that the
greater part of it used by the ancients was in reality imported from
that country. The Indian incense is the product of a tree belonging
to the terebinth class, named by Roxburgh, who first discovered it,
Boswellia thurifera. It is more especially found in the mountainous
parts of India. On the other hand, it has been asserted that the
Arabian incense was the product of a coniferous tree, either the
Juniperus Lycia, the Juniperus Phœnicea, or the Juniperus thurifera of
Linnæus. But, as Fée justly remarks, it would appear more reasonable
to look among the terebinths of Arabia for the incense tree, if one
of that class produces it in India, and more especially because the
coniferous trees produce only resins, while the terebinths produce gum
resins, to which class of vegetable products frankincense evidently
belonged. In commerce, the gum resin, Olibanum, the produce of the
Boswellia serrata, and imported from the Levant, bears the name of
frankincense.

[512] See B. vi. c. 32. Their name is still preserved in the modern
Hadramaut, to the east of Aden.

[513] See B. vi. cc. 31 and 32. He was the son of Agrippa and Julia,
the daughter of Augustus, by whom he was adopted.

[514] This seems the most probable among these various surmises and
conjectures.

[515] These words are said by some to be derived from the Greek,
καρφὸς, “a hollow stalk,” on account of its lightness, and δᾳδίον, “a
torch,” on account of its resinous and inflammable qualities. It is,
however, much more probable that they were derived from the Arabic, and
not from the Celto-Scythic, as Poinsinet conjectures.

[516] Fée is probably right in his conjecture, that it was so called
solely in consequence of its superior strength.

[517] Meaning “drop” incense.

[518] “Undivided” incense.

[519] From their being the size of an ὄροβος, or “chick-pea.”

[520] There is some doubt as to the correctness of this reading. The
“manna” here mentioned is quite a different substance to the manna of
modern commerce, obtained from the Fraxinus ornus of naturalists.

[521] He was a kinsman of Olympias, the mother of Alexander, and a man
of very austere habits. Plutarch says, that on this occasion Alexander
sent to Leonidas 600 talents’ weight of incense and myrrh.

[522] See B. vi. c. 32.

[523] Probably the same as the deity, Assabinus, mentioned by Pliny in
c. 42 of the present Book. Theophrastus mentions him as identical with
the sun, others, again, with Jupiter. Theophrastus says that the god
received not a tenth part, but a third.

[524] As to this place and the Gebanitæ, see B. vi. c. 32.

[525] There must surely be some mistake in these numbers.

[526] The Mediterranean.

[527] In c. 19 of the present Book.

[528] It is supposed to be the product of an amyris, but is not now
esteemed as a perfume; but is used in medicine as a tonic. Forskhal
has attributed to the Amyris kataf, or kafal, the production of myrrh.
According to Ehrenberg, a very similar tree, though constituting a
different species, the Balsamodendrum myrrha, also produces this
substance. It is imported into Europe from both Abyssinia and Arabia.
It was much used by the ancients, to flavour their wines.

[529] See B. vi. c. 32.

[530] Theophrastus says the terebinth.

[531] From the Greek στάζω, “to drop.” Fée observes, that the moderns
know nothing positive as to the mode of extracting myrrh from the
tree. See the account given by Ovid, Met. B. x. l. 500 _et seq._ of
the transformation of Myrrha into this tree,—“The warm drops fall from
the tree. The tears, even, have their own honour; and the myrrh that
distils from the bark bears the name of its mistress, and in no age
will remain unknown.”

[532] Fée remarks, that at the present day we are acquainted only with
one kind of myrrh; the fragments which bear an impression like those
of nails being not a distinct kind, but a simple variety in appearance
only. He thinks, also, that Pliny may very possibly be describing
several distinct resinous products, under the one name of myrrh. An
account of these various districts will be found in B. vi. c. 32.

[533] Hardouin suggests that it may be so called from the island of
Dia, mentioned by Strabo, B. xvi.

[534] “Collatitia.” The reading, however, is very doubtful.

[535] What this was is now unknown. Fée suggests that it may have been
bdellium, which is found in considerable quantities in the myrrh that
is imported at the present day.

[536] This is most probably the meaning of Pliny’s expression—“Ergo
transit in mastichen;” though Hardouin reads it as meaning that myrrh
sometimes degenerates to mastich: and Fée, understanding the passage in
the same sense, remarks that the statement is purely fabulous. Mastich,
he says, is the produce of the Pistacia lentiscus of Linnæus, which
abounds in Greece and the other parts of southern Europe. The greater
part of the mastich of commerce comes from the island of Chio. It is
impossible to conjecture to what plant Pliny here alludes, with the
head of a thistle.

[537] This kind, Fée says, is quite unknown to the moderns.

[538] This substance is still gathered from the Cistus creticus of
Linnæus, which is supposed to be the same as the plant leda, mentioned
by Pliny. It is also most probably the same as the Cisthon, mentioned
by Pliny in B. xxiv. c. 48. It is very commonly found in Spain. The
substance is gathered from off the leaves, not by the aid of goats,
but with whips furnished with several thongs, with which the shrubs
are beaten. There are two sorts of ladanum known in commerce; the
one friable, and mixed with earthy substances, and known as “ladanum
in tortis;” the other black, and soft to the fingers, the only
adventitious substances in which are a little sand and a few hairs.

[539] See B. vi. c. 32.

[540] For some further account of this substance, see B. xxix. c. 10.
Filthy as it was, the œsypum, or sweat and grease of sheep, was used by
the Roman ladies as one of their most choice cosmetics. Ovid, in his
“Art of Love,” more than once inveighs against the use of it.

[541] From the Greek ἔναιμον, “styptic,” or “blood-stopping.” It is at
the present day called gum “de lecce” in Italy. Fée says that it is not
often procured from the olive-trees of France, though it is found very
commonly on those of Naples and Calabria. It has no active powers, he
says, as a medicine.

[542] Hardouin suggests that they may be the pelagiæ, mentioned again
in B. xiii. c. 51.

[543] See B. vi. c. 31.

[544] Although the savin shrub, the Juniperus Sabina of Linnæus, bears
this name in Greek, it is evident, as Fée says, that Pliny does not
allude to it, but to a coniferous tree, as it is that family which
produces a resinous wood with a balsamic odour when ignited. Bauhin
and others would make the tree meant to be the Thuya occidentalis
of Linnæus; but, as Fée observes, that tree is in reality a native
originally of Canada, while the Thuya orientalis is a native of Japan.
He suggests, however, that the Thuya articulata of Mount Atlas may have
possibly been the citrus of Pliny.

[545] See end of B. v.

[546] All these are mentioned in B. vi. c. 31.

[547] It is not known what wood is meant under this name. Aloe, and
some other woods, when ignited are slightly narcotic.

[548] See B. v. c. 21.

[549] See B. vi. c. 30.

[550] See c. 55 of the present Book.

[551] Because its perfumes were held in such high esteem, for burning
on the piles of the dead. This, of course, was done primarily to avoid
the offensive smell.

[552] The bark of the Cinnamomum Zeylanicum of the modern naturalists,
the cinnamon-tree of Ceylon.

[553] B. iii.

[554] See B. vi. c. 34.

[555] See B. vi. c. 26.

[556] As Fée observes, this description does not at all resemble
that of the cinnamon-tree of Ceylon, as known to us. M. Bonastre is
of opinion that the nutmeg-tree was known to the ancients under this
name; but, as Fée observes, the nutmeg could never have been taken for
a bark, and cinnamon is described as such in the ancient writers. He
inclines to think that their cinnamon was really the bark of a species
of amyris.

[557] See c. 33 of the present Book, and the Note.

[558] Or “wood of cinnamon.”

[559] “Interrasili.” Gold partly embossed, and partly left plain, was
thus called.

[560] The Empress Livia.

[561] There has been considerable doubt what plant it was that produced
the cassia of the ancients. Fée, after diligently enquiring into the
subject, inclines to think that it was the Laurus cassia of Linnæus,
the same tree that produces the cassia of the present day.

[562] There is little doubt that all this is fabulous.

[563] Or, “smelling like balsam.”

[564] “Looking like laurel.”

[565] “Equal to cinnamon.” Fée thinks that it is a variety of the
Laurus cassia.

[566] He probably alludes to the Daphne Cnidium of Linnæus, which, as
Fée remarks, is altogether different from the Laurus cassia, or genuine
cassia.

[567] A gum resin of some unknown species, but not improbably, Fée
thinks, the produce of some of the Amyrides. Sprengel thinks that it
was produced from the Gardenia gummifera.

[568] Aloe-wood.

[569] According to Poinsinet, these Arabic words derive their
origin from the Slavonic; the first signifying a “cordial drug,”
or “alexipharmic,” and the other a drug “which divides itself into
tablets.” It is impossible to divine what drugs are meant by these
names.

[570] Signifying the “unguent acorn,” or “nut.” There is little doubt
that the behen or ben nut of the Arabians is meant, of which there
are several sorts. It is used by the Hindoos for calico printing and
pharmacy, and was formerly employed in Europe in the arts, and for
medical purposes. It is no longer used as a perfume. The “oil of ben”
used in commerce is extracted from the fruit of the Moringa oleifera
of naturalists. It is inodorous; for which reason, Fée is of opinion
that the name signifies “the oily nut,” and quotes Dioscorides, who
says, B. iv., that an oil is extracted from this balanus, which is used
as an ingredient in unguents, in place of other oils. Fée also says
that at the present day it is used by perfumers, to fix or arrest the
evanescent odours of such flowers as the jasmine and the lily.

[571] This Æthiopian variety is quite unknown, and is, as Fée remarks,
most probably of a different species from the genuine myrobalanus.

[572] See B. vi. c. 32.

[573] “Curing thirst.” Dioscorides, B. i. c. 148, says that it was so
called from, being full of juice, which quenched thirst like water.

[574] “Palm-nut.” Fée thinks it not improbable that one of the
date-palms is meant, if we may judge from the name. He suggests that
possibly the Elais or avoira of Guinea, the Elais Guineensis, which
is found as far as Upper Egypt, and which produces a fine oil known
as palm-oil, is meant, or possibly the Douma Thebaica, a palm-tree
frequently met with in Egypt. On fermentation, a vinous drink is
extracted from the last, which is capable of producing intoxication.

[575] Fée remarks, that this must not be confounded with the Calamus
aromaticus of the moderns, of which Pliny speaks in B. xxv. c. 100,
with sufficient accuracy to enable us to identify it with the Acorus
calamus of Linnæus. It is not ascertained by naturalists what plant is
meant by Pliny in the present instance, though Fée is of opinion that
a gramineous plant of the genus Andropogon is meant. M. Guibourt has
suggested that the Indian Gentiana chirayta is the plant. From what
Pliny says in B. xiii. c. 21, it appears that this calamus grew in
Syria, which is also the native country of the Andropogon schœnanthus.

[576] See B. xxiv. c. 14. The gum resin ammoniacum is still imported
into Europe from Africa and the East, in the form of drops or cakes. It
is a mildly stimulating expectorant, and is said to be the produce of
the Dorema ammoniacum. There are still two sorts in commerce: the first
in large masses of a yellow, dirty colour, mingled with heterogeneous
substances, and of a plastic consistency. This is the phyrama of
Pliny, or mixed ammoniac. The other is in tears, of irregular form
and a whitish colour, brittle and vitreous when broken. This is the
thrauston, or “friable” ammoniac of Pliny. Jackson says, that the
plant which produces it is common in Morocco, and is called feskouk,
resembling a large stalk of fennel. The ammoniac of Morocco is not,
however, imported into this country, being too much impregnated with
sand, in consequence of not being gathered till it falls to the ground.

[577] Solinus tells us, that the tree itself is called Metops.

[578] It is clear that, under this name, certain lichens of a hairy or
filamentary nature are meant. They adhere, Dioscorides tells us, to the
cedar, the white poplar, and the oak. The white ones belong, probably,
to the Usnea florida of Linnæus, the red ones to the Usnea barbata, and
the black ones to the Alectoria jubata, an almost inodorous lichen.

[579] Probably the Roccella tinctoria of Linnæus, a lichen most
commonly found upon rocks.

[580] The henné, the Lawsonia inermis of the modern naturalists, a
shrub found in Egypt, Syria, and Barbary. From this tree the henna is
made with which the women of the East stain the skin of their hands and
feet.

[581] The jujube-tree. See B. xv. c. 14.

[582] See B. xx. c. 82.

[583] Or privet.

[584] But in B. xxiv. c. 68, he says that this plant grows in the
island of Rhodes.

[585] According to Fée, this is the same as the Lignum Rhodianum, or
wood of Rhodes, of commerce, sometimes also called, but incorrectly,
wood of roses. It is, probably, the same as the Convolvulus scoparius
of Linnæus.

[586] Or “red sceptre,” probably so called from the flowers clustering
along the whole length of the branches.

[587] A liquid matter extracted from the beaver.

[588] Generally regarded as identical with the Teucrium Marum of
Linnæus, a sweet-smelling shrub found in the south of Europe and the
East, by us commonly known as “herb mastich,” somewhat similar to
marjoram. Fée says that the marum of Egypt is a kind of sage, the
Salvia Æthiopis of Linnæus.

[589] Balsam (or balm of Mecca, as it is sometimes called) is the
produce of two trees, probably varieties of one another, of the
terebinth family, belonging to the genus Amyris. So far from being a
native solely of Judæa, Bruce assures us that its original country was
that which produces myrrh, in the vicinity of Babelmandel, and that the
inhabitants use the wood solely for fuel. In Judæa it appears to have
been cultivated solely in gardens; and it was this tree which produced
the famous balm of Gilead of Scripture. The balsam trees known to us do
not at all correspond with Pliny’s description, as they do not resemble
either the vine or myrtle, nor are their leaves at all like those of
rue.

[590] “Malleolis.” So called when the new shoot of the tree springing
from a branch of the former year, is cut off for the sake of planting,
with a bit of the old wood on each side of it, in the form of a mallet.

[591] “Easily cut.” This and the other kinds, the names of which mean
“rough barked,” and “good length,” are probably only varieties of the
same tree, in different states.

[592] This is said, probably, in allusion to the smell, and not the
taste. Fée remarks, that Pliny speaks with a considerable degree of
exaggeration, as its odour is very inferior to that of several balsams
which contain benzoic acid. The balsam obtained by incision, as
mentioned by Pliny, is not brought to Europe, but only that obtained
by the process of decoction; which is known as “balm of Mecca,” or
of Judæa. It is difficult to believe, according to Fée, that it was
adulterated with the substances here mentioned by Pliny; oil of roses
having been always a very precious commodity, wax being likely to
change its nature entirely, and gums not being of a nature to combine
with it. Its asserted effects upon milk he states to be entirely
fabulous; the statement is derived from Dioscorides.

[593] The concha, or “shell,” was a Greek and Roman liquid measure, of
which there were two sizes. The smaller was half a cyathus, .0412 of an
English pint; the larger was about three times the size of the former,
and was known also as the oxybaphum.

[594] Or “wood of balsam.” It is still known in European commerce by
its ancient name. The fruit is called Carpobalsamum.

[595] See B. xxvi. cc. 53, 54.

[596] These localities are mentioned in B. v.

[597] The Storax officinalis of Linnæus, a tree found in the south of
Europe and the Levant. The variety found in France, and known as the
Aliboufier, produces no storax, or at least a very small proportion.
The storax of commerce appears in three states—grain storax, with which
Pliny does not appear to have been acquainted; amygdalite, which is
perhaps the sort which he speaks of as adulterated with bitter almonds;
and lump storax, of reddish brown colour, which is frequently mixed
with wood dust, or worm dust, as mentioned by Pliny, and is but little
esteemed. The tree is also called Liquidambar styraciflua.

[598] A shrub of the family of Ombelliferæ, belonging to the genus
bubon. It is a native of Asia Minor and Syria.

[599] See B. xix. c. 52, and B. xx. c. 75.

[600] This was a common notion with the Romans. Virgil, Georg. B. iii.
l. 415, says:—

  “Galbaneoque agitare graves nidore chelydros.”

Though considered to produce a pleasant perfume by the ancients, it is
no longer held in estimation for that quality, and is only employed in
some slight degree for medical purposes.

[601] The produce of the Pastinaca opopanax of Linnæus, or the Panax
Copticum of Bauhin, an umbelliferous plant which abounds in the East,
and is not uncommon in the south of France. The gum called Opopanax
was formerly used, and its supposed virtues are indicated by its name,
which signifies “the juice which is the universal remedy.”

[602] The umbelliferous plant known as the Heracleum spondylium
of Linnæus. It is commonly found in France, where it is called
Berce-branc-ursine. It received its name from the resemblance of its
smell to that of the sphondyle, a fetid kind of wood-beetle.

[603] Some suppose this tree to be the Laurus cassia of Linnæus,
or wild cinnamon; others take it for the betel, the Piper betel of
Linnæus. Clusius thinks that the name is derived from the Indian
Tamalpatra, the name given from time immemorial to the leaf of a
tree known by the Arabs as the Cadegi-indi, possibly the same as the
Katou-carua of the Malabars.

[604] From the Greek ὀμφάκιον, being made of unripe grapes. As Fée
remarks, that made from the olive is correctly described as a kind
of oil, but that made from the grape must have been a rob, or pure
verjuice. These two liquids must have had totally different qualities,
and resembled each other in nothing but the name. That extracted from
the olive is mentioned again in B. xxiii. c. 4, in reference to its
medicinal properties.

[605] These grapes are described in B. xiv. c. 4 and c. 11.

[606] “Reliquum corpus.” It is not clear what is the meaning of this.
The passage is either in a corrupt state, or defective.

[607] A singular metal, one would think, for keeping verjuice in.

[608] From the Greek βρύον, “moss.” He speaks again of these grapes
of the white poplar in B. xxiv. c. 34; also in c. 51 of the present
Book. Hardouin thinks that he is speaking of moss. Fée is of opinion,
that the blossoms or buds of the tree are meant, which have a fragrant
smell. This is the more probable, as we find Pliny here speaking of
the œnanthe, or vine-flower, by which Fée supposes that he means the
blossom of the Vitis vinifera of Linnæus, which exhales a delightful
perfume.

[609] The bud, probably, of the Juniperus Lycia.

[610] See B. vi. c. 31.

[611] Said to have been a surname given by some nations to the god
Bacchus.

[612] It is generally supposed by the commentators, that Pliny makes
a mistake here, and that the elate or spathe was not a tree, but the
envelope or capsule, containing the flowers and fruit of a tree, which
is supposed by some to have been really the Phœnix dactylifera, or
date-palm. There can be little doubt that he is mistaken in his mention
of the abies or fir-tree here. See B. xxiii. c. 53.

[613] Bauhin thinks that this juice or oil was extracted from the
nutmeg, the Myristica moschata of Thunberg, and Bonastre is of the
same opinion. But, as Fée observes, the nutmeg is a native of India,
and Pliny speaks of the Comacum as coming from Syria. Some authors, he
adds, who are of this opinion, think also that the other cinnamomum
mentioned by Pliny was no other than the nutmeg, which they take to be
the same as the chrysobalanos, or “golden nut,” of Galen.

[614] See end of B. ii.

[615] See end of B. ii.

[616] See end of B. vii.

[617] Fabianus Papirius: see end of B. ii.

[618] See end of B. ii.

[619] See end of B. iii.

[620] The son of a freedman; some further particulars are given of him
by Pliny in B. xxxiii. c. 1. By his talents and eloquence, he attained
considerable distinction at Rome. He was made a senator by Appius
Claudius, and was curule ædile B.C. 303. He published a collection of
legal rules, entitled the “Jus Flavianum.”

[621] See end of B. viii.

[622] See end of B. iii.

[623] See end of B. vii.

[624] See end of B. v.

[625] See end of B. ii.

[626] Probably the same as the Niger mentioned by Dioscorides as a
writer on Materia Medica. He is also mentioned by Epiphanius and Galen;
but Dioscorides charges him with numerous blunders in his accounts of
vegetable productions.

[627] A compiler of Roman history, who wrote at the beginning of the
second century before Christ. He wrote Annals of Rome from the earliest
to his own times: only a few fragments of his work have survived.

[628] See end of B. ii.

[629] C. Sempronius Tuditanus, consul of Rome, B.C. 129. He wrote a
book of historical Commentaries. He was maternal grandfather of the
orator Hortensius.

[630] See end of B. ii.

[631] See end of B. iii.

[632] See end of B. ii.

[633] A native of Olynthus. His mother, Hero, was a cousin of the
philosopher Aristotle, under whose tutelage he was educated. It is
generally supposed that he was put to death by order of Alexander
the Great, but in what manner is a matter of uncertainty. He wrote a
History of Greece, and numerous other learned works. Some MSS. are
still extant, professing to be his writings; but they are generally
looked upon as spurious.

[634] See end of B. vii.

[635] See end of B. vii.

[636] A native of Lampsacus, and disciple of Diogenes the Cynic. He
accompanied Alexander the Great in his Asiatic expedition. He wrote a
history of the reigns of Philip and Alexander, and a history of Greece,
in twelve books. Only a few fragments of his works are left.

[637] See end of B. vii.

[638] See end of B. vi.

[639] See end of B. ii.

[640] There was a native of Mendæ, in Sicily, of this name, who wrote
a history of Dionysius, the tyrant of Syracuse. It was, probably, a
different person of this name who wrote a work on the East; if such is
the case, Pliny most probably quotes from the work of the latter.

[641] Nothing seems to be known of this writer; but it is suggested
that he may have accompanied Nearchus and Onesicritus in the East.

[642] See end of B. vi.

[643] Nothing is known of him; but Hardouin suggests that he may have
accompanied Alexander the Great in his Eastern expedition.

[644] See end of B. iv.

[645] An officer at the court of Alexander the Great, who wrote a
collection of anecdotes respecting the private life and reign of that
emperor, some fragments of which are preserved by Athenæus.

[646] See end of B. iv.

[647] He is supposed to have been the same with the person of that name
who wrote a history of Alexander the Great; but nothing further is
known of him.

[648] A physician of Neapolis, who is supposed to have lived in the
early part of the first century after Christ.

[649] A writer on medicine, of whom all further particulars have
perished.

[650] Possibly Ephippus of Olynthus, a Greek historian of the reign of
Alexander the Great.

[651] See end of B. viii.

[652] An ancient Greek historian, mentioned also by Strabo; but no
further particulars are known of him.

[653] The founder of the dynasty of the Egyptian Ptolemies, which ended
in Cleopatra, B.C. 38: he wrote a narrative of the wars of Alexander,
which is frequently quoted by the later writers, and served as the
groundwork for Arrian’s history.

[654] A native of Pella, who wrote a history of Macedonia down to the
wars of Alexander the Great. There was another writer of the same name,
a native of Philippi, who also wrote a treatise, either geographical or
historical, relative to Macedonia.

[655] A native of Amphipolis, though some make him to have been an
Ephesian. The age in which he lived is not exactly known. He attacked
the writings of Homer with such uncalled-for asperity, that his name
has been proverbial for a snarling, captious critic. He is said to have
met with a violent death. His literary productions were numerous, but
none of them have come down to us.

[656] See end of B. ii.

[657] See end of B. viii.

[658] See end of B. xi.

[659] See end of B. iii.

[660] See end of B. v.

[661] See end of B. xi.

[662] A physician of Heraclea, near Ephesus. He wrote commentaries on
the works of Hippocrates.

[663] Nothing is known of him; but it has been suggested that he may
have been the author of a few fragments on veterinary surgery which
still exist.

[664] There were many physicians and surgeons of this name, but
probably Dionysius of Samos is meant, or else Sallustius Dionysius,
quoted by Pliny, B. xxxii. c. 26.

[665] Also called Democedes, a physician of Crotona, who practised at
Ægina. He was afterwards physician to Polycrates, the tyrant of Samos,
and King Darius, whose foot he cured. His work on medicine has perished.

[666] Nothing whatever is known of this writer.

[667] Nothing is known relative to this writer.

[668] Nothing is known of him.

[669] Or Iölaus, a native of Bithynia, who wrote a work on Materia
Medica. He was probably a contemporary of Heraclides of Tarentum, in
the third century B.C.

[670] A physician of Tarentum, who belonged to the Empiric sect. He
wrote several medical works, and is highly commended by Galen. Only a
few fragments of his writings remain.

[671] An historical and geographical writer, frequently quoted by
Pliny. From the mention made of him in B. xxxvii. c. 2, it would appear
that he flourished during the time of Pliny, or very shortly before.

[672] See end of B. ii.

[673] Fée remarks, that most of the unguents and perfumes of which
Pliny here speaks would find but little favour at the present day.

[674] This does not appear to be exactly the case, for in the
twenty-third Book of the Iliad, l. 186, we find “rose-scented” oil
mentioned, indeed, Pliny himself alludes to it a little further on.

[675] “Nidorem.” This term was used in reference to the smell of burnt
or roasted animal substances. It is not improbable that he alludes to
the stench arising from the burnt sacrifices.

[676] The “Thuya articulata.” See c. 29 of the present Book.

[677] “Scrinium.” See B. vii. c. 30.

[678] The use of perfumes more probably originated in India, than among
the Persians.

[679] But of seeds or plants.

[680] The perfumes of Delos themselves had nothing in particular to
recommend them; but as it was the centre of the worship of Apollo, it
is not improbable that exquisite perfumes formed a large proportion of
the offerings brought thither from all parts of the world.

[681] In Egypt. See B. v. c. 11. The unguents of Mendes are again
mentioned in the present Chapter.

[682] Or flower-de-luce. This perfume was called Irinum. The Iris
Florentina of the botanists, Fée says, has the smell of the violet. For
the composition of this perfume, see Dioscorides, B. i. c. 67.

[683] Rhodinum.

[684] See B. v. c. 26.

[685] Crocinum; made from the Crocus sativus of naturalists.

[686] See B. xii. c. 62. It was made from the flowers of the vine,
mixed with omphacium.

[687] Amaracinum. The amaracus is supposed to have been the Origanum
majoranoides of the moderns. Dioscorides, B. i. c. 59, says that the
best was made at Cyzicus.

[688] Melinum. See B. xxiii. c. 54.

[689] Cyprinum. See B. xii. c. 51. The cyprus was the modern Lawsonia
inermis.

[690] Made from the oil of bitter almonds. See B. xv. c. 7.

[691] Or “all Athenian.” We find in Athenæus, B. xv. c. 15, the
composition of this unguent.

[692] From what is said by Apollonius in the passage of Athenæus last
quoted, it has been thought that this was the same as the unguent
called nardinum. It is very doubtful, however.

[693] Narcissinum. See B. xxi. c. 75. Dioscorides gives the composition
of this unguent, B. i. c. 54.

[694] Among the stymmata, Dioscorides ranges the sweet-rush, the
sweet-scented calamus and xylo-balsamum; and among the hedysmata
amomum, nard, myrrh, balsam, costus, and marjoram. The latter
constituted the _base_ of unguents, the former were only added
occasionally.

[695] Cinnabar is never used to colour cosmetics at the present day,
from its tendency to excoriate the skin. See B. xxiii. c. 39.

[696] This is still used for colouring cosmetics at the present day.
See B. xxii. c. 23.

[697] Fée remarks, that salt can be of no use; but by falling to the
bottom without dissolving, would rather tend to spoil the unguent.

[698] See B. xii. c. 60. The name “bryon” seems also to have been
extended to the buds of various trees of the Conifera class and of the
white poplar. It is probably to the buds of the last tree that Pliny
here alludes.

[699] Oil of ben. See B. xii. c. 48.

[700] Or metopium. See Note [690] above.

[701] Made from olives. See B. xii. c. 60.

[702] See B. xii. c. 29.

[703] The modern Andropogon schœnanthus. See B. xii. c. 48.

[704] See B. xii. c. 48.

[705] Carpobalsamum. See. B. xii. c. 54.

[706] See B. xii. c. 56.

[707] Fluid resin of coniferous trees of Europe.

[708] See B. xv. c. 35.

[709] Cupressus semper-virens. He does not say what part of the tree
was employed.

[710] See B. xii. c. 36.

[711] See c. 34 of the present Book.

[712] The alkanet and cinnabar were only used for colouring.

[713] “Sampsuchinum.” It is generally supposed that the sampsuchum, and
the amaracus were the same, the sweet marjoram, or Origanum marjorana
of Linnæus. Fée, however, is of a contrary opinion. See B. xxi. c.
35. In Dioscorides, B. i. c. 59, there is a difference made between
sampsuchinum and amaracinum, though but a very slight one.

[714] The bark of the Cassia lignea of the pharmacopœa, the Laurus
cassia of botany. See B. xii. c. 43.

[715] See B. xii. c. 26. The Andropogon nardus of Linnæus.

[716] See B. xii. c. 41.

[717] See B. xxiii. c. 54, also B. xv. c. 10. The Malum struthium, or
“sparrow quince,” was an oblong variety of the fruit.

[718] Sesamum orientale of Linnæus. See B. xviii. c. 22, and B. xxii.
c. 54.

[719] Balm of Gilead. See B. xii. c. 54.

[720] Southernwood. The Artemisia abrotonum of Linnæus.

[721] Or lily unguent, made of the lily of Susa, which had probably
a more powerful smell than that of Europe. Dioscorides gives its
composition, B. i. c. 63.

[722] The Crocus sativus of Linnæus.

[723] Cyprinum. It has been previously mentioned in this Chapter.

[724] See B. xii. c. 52.

[725] The gum resin of the Pastinaca opopanax of Linnæus. See B. xii.
c. 57.

[726] Or unguent of fenugreek, from the Greek τῆλις, meaning that
plant, the Trigonella fœnum Græcum of Linnæus. See B. xxiv. c. 120.

[727] See B. ii. c. 26, and B. xxi. c. 68-70.

[728] The Trifolium melilotus of Linnæus. See B. xxi. c. 30.

[729] See B. xii. c. 53.

[730] He would imply that it was so called from the Greek μεγὰς,
“great;” but it was more generally said that it received its name from
its inventor, Megalus.

[731] See B. xii. c. 5.

[732] Fée does not appear to credit this statement. By the use of the
word “ventiletur,” “fanned” may be possibly implied.

[733] See B. xii. c. 59.

[734] The Agnus castus of Linnæus. See B. xxiv. c. 38. The leaves are
quite inodorous, though the fruit of this plant is slightly aromatic.

[735] “Externa.” The reading is doubtful, and it is difficult to say
what is the exact meaning of the word.

[736] Cinnamomino.

[737] Nardinum.

[738] Or leaf unguent, so called from being made of leaves of nard. See
B. xii. c. 27.

[739] See B. xii. c. 25.

[740] See B. xii. c. 28.

[741] See B. xii. c. 26, 27, where the list is given.

[742] See B. xii. c. 35.

[743] Susinum. See p. 163.

[744] Summa auctoritas rei.

[745] See B. xii. c. 46.

[746] See B. xii. c. 53.

[747] See B. xii. c. 55.

[748] See B. xii. c. 37.

[749] See B. xii. c. 48.

[750] See B. xii. c. 48.

[751] See B. xii. c. 45.

[752] Fée suggests that this may be the Nymphæa cœrulea of Savigny, a
plant that is common in the Nile, and the flowers of which exhale a
sweet odour.

[753] The diapasmata were dry, odoriferous powders, similar to those
used at the present day in sachets and scent-bags.

[754] “Fæcem unguenti.”

[755] This word is still used in pharmacy to denote the husks or
residuary matter left after the extraction of the juice.

[756] See B. xxxvi. c. 12. See also Mark xiv. 7, and John xii. 3.
Leaden boxes were also used for a similar purpose.

[757] Odores.

[758] “Heres.” The person was so called who succeeded to the property,
whether real or personal, of an intestate.

[759] See B. xvii. c. 3, where he quotes this passage from Cicero at
length. It appears to be from De Orat. B. iii. c. 69. Both Cicero
and Pliny profess to find a smell that arises from the earth itself,
through the agency of the sun. But, as Fée remarks, pure earth is
perfectly inodorous. He suggests, however, that this odour attributed
by the ancients to the earth, may in reality have proceeded from the
fibrous roots of thyme and other plants. If such is not the real
solution, it seems impossible to suggest any other.

[760] By giving preference to the more simple odours.

[761] “Crassitudo.”

[762] Or “thick” unguent.

[763] We learn from Athenæus, and a passage in the Aulularia of
Plautus, that this was done long before Nero’s time, among the Greeks.

[764] Who succeeded Galba. He was one of Nero’s favourite companions in
his debaucheries.

[765] Caligula.

[766] Solium.

[767] After victories, for instance, or when marching orders were given.

[768] This is said in bitter irony.

[769] Sub casside.

[770] Asia Minor more particularly.

[771] Exotica.

[772] The organs of taste and of smell.

[773] We have this fact alluded to in the works of Plautus, Juvenal,
Martial, and Ælian. The Greeks were particularly fond of mixing myrrh
with their wine. Nard wine is also mentioned by Plautus. Miles Gl. iii.
2, 11.

[774] Or Lucius Plautius Plancus. He was proscribed by the triumvirs,
with the sanction of his brother. In consequence of his use of
perfumes, the place of his concealment “got wind;” and in order to save
his slaves, who were being tortured to death because they would not
betray him, he voluntarily surrendered himself.

[775] Attaching to the triumvirate.

[776] Capua, its capital, was the great seat of the unguent and perfume
manufacture in Italy.

[777] The Phœnix dactylifera of Linnæus. See also B. xii. c. 62, where
he seems also to allude to this tree.

[778] At the present day this is not the fact. The village of La
Bordighiera, situate on an eminence of the Apennines, grows great
quantities of dates, of good quality. At Hieres, Nice, San Remo, and
Genoa, they are also grown.

[779] This, too, is not the fact. The dates of Valencia, Seville, and
other provinces of Spain, are sweet, and of excellent quality.

[780] Pliny is wrong again in this statement. The date of Barbary,
Tunis, Algiers, and Bildulgerid, the “land of dates,” is superior in
every respect to that of the East.

[781] The Æthiopians, as we learn from Theophrastus, B. ii. c. 8.

[782] Or in a wild state.

[783] “Tectorii vicem.” They were probably planted in rows, close to
the wall.

[784] This mode of ascending the date-palm is still practised in the
East.

[785] See B. xvi. c. 37.

[786] “Umbracula.” The fibres of the leaves were probably platted or
woven, and the “umbracula” made in much the same manner as the straw
and fibre hats of the present day.

[787] Most of this is borrowed from Theophrastus, Hist. Plant. ii. 9.

[788] Fée remarks, that this account is quite erroneous.

[789] This he copies also from Theophrastus, B. ii. c. 8.

[790] Theophrastus, B. ii. c. 8, mentions this as a kind of date
peculiar to Cyprus.

[791] This is said solely in relation to the date of Cyprus.

[792] Or “dwellers in tents;” similar to the modern Bedouins.

[793] Fée remarks, that in these words we find the first germs of
the sexual system that has been established by the modern botanists.
He thinks that it is clearly shown by this account, that Pliny was
acquainted with the fecundation of plants by the agency of the pollen.

[794] In allusion to the pollen, possibly. See the last Note.

[795] “Lanugine.” It is possible that in the use of this word, also, he
may allude to the pollen. Under the term “pulvis,” “dust,” he probably
alludes in exaggerated terms to the same theory.

[796] The same methods of propagating the palm are still followed in
the East, and in the countries near the tropics.

[797] In c. 7 of the present Book. See also B. xvii. c. 3.

[798] Fée mentions one near Elvas in Spain, which shot up into seven
distinct trees, as it were, from a single trunk. The Douma Thebaica, he
says, of Syria and Egypt, a peculiar kind of palm, is also bifurcated.
The fruit of it, he thinks, are very probably the Phænico-balanus of B.
xii. c. 47.

[799] “Spado.” Represented by the Greek εὔνουχος and ἔνορχος.

[800] “Cæduæ.” Though this is the fact as to some palm-trees, the
greater part perish after being cut; the vital bud occupying the
summit, and the trunk not being susceptible of any increase.

[801] Cerebrum.

[802] The Chamæreps humilis of the modern botanists. It is found, among
other countries, in Spain, Morocco, and Arabia.

[803] Vitilia.

[804] “Vivaces.” Perhaps it may mean that the wood retains the fire for
a long time, when it burns.

[805] Fée suggests that Pliny may possibly have confounded the fruit of
other palms with the date.

[806] This seems to have been a general name, as Pliny says, meaning an
eunuch; but it is evident that it was also used as a proper name, as in
the case of the eunuch who slew Artaxerxes, Ochus, B.C. 338, by poison,
and of another eunuch who belonged to Darius, but afterwards fell into
the hands of Alexander, of whom he became an especial favourite. The
name is sometimes written “Bagoüs,” and sometimes “Bagoas.”

[807] Dominantis in aula.

[808] From the Greek σύαγρος, “a wild boar,” as Pliny afterwards
states; they being so called from their peculiar wild taste.

[809] See B. vi. c. 39.

[810] Said to have been so called from the Greek κάρη, “the head,” and
ὑωδία, “stupidity,” owing to the heady nature of the wine extracted
from the fruit.

[811] See B. vi. c. 32, and B. xiv. c. 19.

[812] The Jericho of Scripture.

[813] Athenæus, B. xiv. c. 22, tells us that these dates were thus
called from Nicolaus of Damascus, a Peripatetic philosopher, who,
when visiting Rome with Herod the Great, made Augustus a present of
the finest fruit of the palm-tree that could be procured. This fruit
retained its name of “Nicolaän,” down to the middle ages.

[814] Pliny would imply that they are so called from the Greek ἀδέλφια,
“a sister,” as being of sister quality to the caryotæ; but it is much
more probable, as Fée remarks, that they got this name from being
attached in pairs to the same pedicle or stalk.

[815] Pliny certainly seems to imply that they are so called from the
Greek πατέω, “to tread under foot,” and Hardouin is of that opinion.
Fée, however, thinks the name is from the Hebrew or Syriac “patach,”
“to expand,” or “open,” or else from the Hebrew “pathah,” the name of
the first vowel, from some fancied resemblance in the form.

[816] From the Greek χυδαῖος, “vulgar,” or “common,” it is supposed.
The Jews probably called them so, as being common, or offered by the
Gentiles to their idols and divinities. Pliny evidently considers that
in the name given to them no compliment was intended to the deities of
the heathen mythology.

[817] From its extreme driness, and its shrivelled appearance.

[818] From Theophrastus, B. i. c. 16.

[819] Κύκως in the Greek. It is supposed by Sprengel to be the same as
the Cycas circinnalis of Linnæus; but, as Fée remarks, that is only
found in India.

[820] From the Greek, meaning “sweetmeats,” or “dessert fruit:” he
probably means that in Syria and some parts of Phœnicia they were thus
called.

[821] This story, which is borrowed from Theophrastus, B. iv. c. 5,
is doubted by Fée, who says that in the green state they are so hard
and nauseous, that it is next to impossible to eat sufficient to be
materially incommoded by them.

[822] The Pistacia vera of Linnæus. It was introduced into Rome in the
reign of Tiberius. The kernel is of no use whatever in a medical point
of view, and what Pliny says about its curing the bite of serpents is
perfectly fabulous.

[823] See B. xv. c. 19. The “carica” was properly the “Carian” fig.
“Ficus carica” is, however, the name given to the common fig by the
modern botanists.

[824] The parent of our Damascenes, or damsons. See B. xv. c. 13.

[825] Supposed to be the Corda myxa of Linnæus. See B. xv. c. 15.

[826] The Juniperus communis of Linnæus.

[827] The Juniperus Lycia, and the Juniperus Phœnicia, probably, of
Linnæus. It has been supposed by some, that it is these trees that
produce the frankincense of Africa; but, as Fée observes, the subject
is enveloped in considerable obscurity.

[828] The “sharp-leaved” cedar. The Juniperus oxycedrus of Linnæus.

[829] The “Pinus cedrus” of Linnæus. The name “cedrus” was given by the
ancients not only to the cedar of Lebanon, but to many others of the
Coniferæ as well, and more particularly to several varieties of the
juniper.

[830] See B. xxxvi. c. 4.

[831] Pistacia terebinthus of Linnæus.

[832] These varieties, Fée says, are not observed by modern naturalists.

[833] Garidel has remarked, that the trunk of this tree produces
coriaceous vesicles, filled with a clear and odoriferous terebinthine,
in which pucerons, or aphides, are to be seen floating.

[834] “Rhus.” The Rhus coriaria of Linnæus. Pliny is wrong in
distinguishing this tree into sexes, as all the flowers are
hermaphroditical, and therefore fruitful.

[835] It is still used by curriers in preparing leather.

[836] See B. xxiv. c. 79. The fruit, which has a pleasant acidity, was
used for culinary purposes by the ancients, as it is by the Turks at
the present day.

[837] The Ficus sycamorus of Linnæus. It receives its name from being
a fig-tree that bears a considerable resemblance to the “morus,” or
mulberry-tree.

[838] This is not the case.

[839] This appears to be doubtful, although, as Fée says, the fruit
ripens but very slowly.

[840] This, Fée says, is a fallacy.

[841] “Aliam omnem.” This reading seems to be very doubtful.

[842] This wood was very extensively used in Egypt for making the outer
cases, or coffins, in which the mummies were enclosed.

[843] This account is borrowed almost entirely from Theophrastus, Hist.
Plant. B. iv. c. 2. A variety of the sycamore is probably meant. It is
still found in the Isle of Crete.

[844] He seems to mean that the buds do not shoot forth into leaves;
the reading, however, varies in the editions, and is extremely doubtful.

[845] Grossus.

[846] The Ceratonia siliqua of Linnæus. It is of the same size as the
sycamore, but resembles it in no other respect. It is still common in
the localities mentioned by Pliny, and in the south of Spain.

[847] Theophrastus in the number, Hist. Plant. i. 23, and iv. 2.
It bears no resemblance to the fig-tree, and the fruit is totally
different from the fig. Pliny, too, is wrong in saying that it does not
grow in Egypt; the fact being that it is found there in great abundance.

[848] See B. xviii. c. 74.

[849] Fée identifies it with the Egyptian almond, mentioned by Pliny
in B. xv. c. 28; the Myrobalanus chebulus of Wesling, the Balanites
Ægyptiaca of Delille, and the Xymenia Ægyptiaca of Linnæus. Schreber
and Sprengel take it to be the Cordia Sebestana of Linnæus; but that
is a tree peculiar to the Antilles. The fruit is in shape like a date,
enclosing a large stone with five sides, and covered with a little
viscous flesh, of somewhat bitter, though not disagreeable flavour. It
is found in the vicinity of Sennaar, and near the Red Sea. The Arabs
call it the “date of the Desert.”

[850] See B. xviii. c. 68.

[851] See B. xv. c. 34.

[852] Or ben. See B. xii. cc. 46, 47.

[853] Many have taken this to be the cocoa-nut tree; but, as Fée
remarks, that is a tree of India, and this of Egypt. There is little
doubt that it is the _doum_ of the Arabs, the Cucifera Thebaica of
Delille. The timber of the trunk is much used in Egypt, and of the
leaves carpets, bags, and panniers are made. In fact, the description
of it and its fruit is almost identical with that here given by Pliny.

[854] The seed or stone of the doum is still used in Egypt for making
the beads of chaplets: it admits of a very high polish.

[855] Materies crispioris elegantiæ.

[856] See B. xxiv. c. 67. This is, no doubt, the Acacia Nilotica of
Linnæus, which produces the gum Arabic of modern commerce.

[857] This is from Theophrastus, Hist. Plant. B. iv. c. 3. Fée suggests
that it may have been a kind of myrobalanus. Sprengel identifies it
with the Cordia sebestana of the botanists.

[858] “Fuit.” From the use of this word he seems uncertain as to its
existence in his time; the account is copied from Theophrastus, Hist.
Plant. B. iv. c. 3. Fée suggests that he may here allude to the Baobab,
the Adansonia digitata, which grows in Senegal and Sennaar to an
enormous size. Prosper Alpinus speaks of it as existing in Egypt. The
Arabs call it El-omarah, and the fruit El-kongles.

[859] The Mimosa polyacanthe, probably. Fée says that the mimosæ,
respectively known as casta, pudibunda, viva, and sensitiva, with many
of the inga, and other leguminous trees, are irritable in the highest
degree. The tree here spoken of he considers to be one of the acacias.
The passage in Theophrastus speaks of the leaf as shrinking, and not
falling, and then as simply reviving.

[860] The Acacia Nilotica of Linnæus, from which we derive the gum
Arabic of commerce; and of which a considerable portion is still
derived from Egypt.

[861] These gums are chemically different from gum Arabic, and they are
used for different purposes in the arts.

[862] The vine does not produce a gum; but when the sap ascends, a
juice is secreted, which sometimes becomes solid on the evaporation
of the aqueous particles. This substance contains acetate of potassa,
which, by the decomposition of that salt, becomes a carbonate of the
same base.

[863] This is not a gum, but a resinous product of a peculiar nature.
It is known to the moderns by the name of “olivine.”

[864] The sap of the elm leaves a saline deposit on the bark,
principally formed of carbonate of potassa. Fée is at a loss to
know whether Pliny here alludes to this or to the manna which is
incidentally formed by certain insects on some trees and reeds. But,
as he justly says, would Pliny say of the latter that it is “ad nihil
utile”—“good for nothing”?

[865] A resinous product, no doubt. The frankincense of Africa has been
attributed by some to the Juniperus Lycia and Phœnicia.

[866] The Penæa Sarcocolla of Linnæus. The gum resin of this tree is
still brought from Abyssinia, but it is not used in medicine. This
account is from Dioscorides, B. iii. c. 99. The name is from the Greek
σὰρξ, “flesh,” and κόλλα, “glue.”

[867] See B. xxiv. c. 78.

[868] Three denarii per pound.

[869] It is hardly necessary to state that this is not the fact. This
plant is the Cyperus papyrus of Linnæus, the “berd” of the modern
Egyptians.

[870] Il. B. vi. l. 168. See B. xxxiii. c. 4, where the tablets which
are here called “pugillares,” are styled “codicilli” by Pliny.

[871] His argument is, that paper made from the papyrus could not
be known in the time of Homer, as that plant only grew in certain
districts which had been rescued from the sea since the time of the
poet.

[872] Od. B. iv. l. 355.

[873] See B. ii. c. 87.

[874] There is little doubt that parchment was really known many years
before the time of Eumenes II., king of Pontus. It is most probable
that this king introduced extensive improvements in the manufacture
of parchment, for Herodotus mentions writing on skins as common in
his time; and in B. v. c. 58, he states that the Ionians had been
accustomed to give the name of skins, διφθέραι, to books.

[875] Brachiali radicis obliquæ crassitudine.

[876] This was a pole represented as being carried by Bacchus and his
Bacchanalian train. It was mostly terminated by the fir cone, that tree
being dedicated to Bacchus, in consequence of the use of its cones and
turpentine in making wine. Sometimes it is surmounted by vine or fig
leaves, with grapes or berries arranged in form of a cone.

[877] This is not the fact: it has seed in it, though not very easily
perceptible. The description here given is otherwise very correct.

[878] Among the ancients the term papyrus was used as a general
appellation for all the different plants of the genus Cyperus, which
was used for making mats, boats, baskets, and numerous other articles:
but one species only was employed for making paper, the Cyperus
papyrus, or Byblos. Fée states that the papyrus is no longer to be
found in the Delta, where it formerly abounded.

[879] See B. xii. c. 48.

[880] Sometimes translated _hemp_. A description will be given of it in
B. xix. c. 7.

[881] “Intexere.” This would almost appear to mean that they
embroidered or interwove the characters. The Persians still write on a
stuff made of white silk, gummed and duly prepared for the purpose.

[882] Or “holy” paper. The priests would not allow it to be sold,
lest it might be used for profane writing; but after it was once
written upon, it was easily procurable. The Romans were in the habit
of purchasing it largely in the latter state, and then washing off
the writing, and using it as paper of the finest quality. Hence it
received the name of “Augustus,” as representing in Latin its Greek
name “hieraticus,” or “sacred.” In length of time it became the common
impression, as here mentioned, that this name was given to it in honour
of Augustus Cæsar.

[883] Near the amphitheatre, probably, of Alexandria.

[884] He alludes to Q. Remmius Fannius Palæmon, a famous grammarian
of Rome, though originally a slave. Being manumitted, he opened a
school at Rome, which was resorted to by great numbers of pupils,
notwithstanding his notoriously bad character. He appears to have
established, also, a manufactory for paper at Rome. Suetonius, in his
treatise on Illustrious Grammarians, gives a long account of him. He is
supposed to have been the preceptor of Quintilian.

[885] Fanniana.

[886] In Lower Egypt.

[887] Ex vilioribus ramentis.

[888] Of Alexandria, probably.

[889] “Shop-paper,” or “paper of commerce.”

[890] Otherwise, probably, the rope would not long hold together.

[891] Fée remarks, that this is by no means the fact. With M. Poiret,
he questions the accuracy of Pliny’s account of preparing the papyrus,
and is of opinion that it refers more probably to the treatment of some
other vegetable substance from which paper was made.

[892] Primo supinâ tabulæ schedâ.

[893] “Scapus.” This was, properly, the cylinder on which the paper was
rolled.

[894] Augustan.

[895] Or “long glued” paper: the breadth probably consisted of that of
two or more sheets glued or pasted at the edges, the seam running down
the roll.

[896] Scheda. One of the leaves of the papyrus, of which the roll of
twenty, joined side by side, was formed.

[897] This passage is difficult to be understood, and various attempts
have been made to explain it. It is not unlikely that his meaning is
that the breadth being doubled, the tearing of one leaf or half breadth
entailed of necessity the spoiling of another, making the corresponding
half breadth.

[898] He perhaps means a portion of an elephant’s tusk.

[899] Meaning a damp, musty smell.

[900] See B. vii. c. 18, and B. xiv. c. 6. Also the Life of Pliny, in
the Introduction to Vol. i. p. vii.

[901] This story, no doubt, deserves to be rejected as totally
fabulous, even though we have Hemina’s word for it.

[902] See B. xvi. c. 70.

[903] B. xii. c. 7, and B. xiii. c. 31. It was thought that the leaves
and juices of the cedar and the citrus preserved books and linen from
the attacks of noxious insects.

[904] And because, as Livy says, their doctrines were inimical to the
then existing religion.

[905] Val. Maximus says that there were some books written in Latin, on
the pontifical rights, and others in Greek on philosophical subjects.

[906] Humanæ Antiquitates.

[907] See B. xxxiv. c. 11.

[908] See B. xxxiii. c. 5.

[909] He implies that it could not have been written upon paper, as the
papyrus and the districts which produced it were not in existence in
the time of Homer. No doubt this so-called letter, if shown at all, was
a forgery, a “pia fraus.” See c. 21 of the present Book.

[910] Il. B. vi. l. 168.

[911] “Codicillos,” as meaning characters written on a surface of wood.
πίναξ, as Homer calls it.

[912] It was probably then that the supply of it first began to fail;
in the sixth century it was still used, but by the twelfth it had
wholly fallen into disuse.

[913] The cotton-tree, Gossypium arboreum of Linnæus.

[914] See B. xii. c. 21, 22.

[915] In c. 9 of the present Book.

[916] See B. vi. c. 36, 37.

[917] Desfontaines observed in the vicinity of Atlas, several trees
peculiar to that district. Among others of this nature, he names the
Pistacia Atlantica, and the Thuya articulata.

[918] See B. v. c. 1.

[919] Generally supposed to be the Thuya articulata of Desfontaines,
the Cedrus Atlantica of other botanists.

[920] This rage for fine tables made of the citrus is alluded to, among
others, by Martial and Petronius Arbiter. See also Lucan, A. ix. B.
426, _et seq._

[921] It is a rather curious fact that it is in Cicero’s works that
we find the earliest mention made of citrus tables, 2nd Oration ag.
Verres, s. 4:—“You deprived Q. Lutatius Diodorus of Lilybæum of a
citrus table of remarkable age and beauty.”

[922] Somewhere about £9000.

[923] This is considered nothing remarkable at the present day, such is
the skill displayed by our cabinet-makers.

[924] Called “Nomiana.”

[925] Tuber.

[926] The European Cyprus, the Cupressus sempervirens of Linnæus.

[927] These veins were nothing in reality but the lines of the layers
or strata lignea, running perpendicularly in the trunk, and the number
of which denotes the age of the tree.

[928] “Tigrinæ.”

[929] “Pantherinæ.” The former tables were probably made of small
pieces from the trunk, the latter from the sections of the tubers or
knots.

[930] “Crispis.”

[931] Or “parsley-seed” tables. It has also been suggested that the
word comes from “apis,” a bee; the wood presenting the appearance of
being covered with swarms of bees.

[932] “Mulsum.” This mixture will be found frequently mentioned in the
next Book.

[933] Lignum.

[934] Fée remarks that this is incorrect, and that this statement
betrays an entire ignorance of the vegetable physiology.

[935] Θύον, “wood of sacrifice.”

[936] Od. B. v. l. 60. Pliny makes a mistake in saying “Circe;” it
should be “Calypso.”

[937] Θύον.

[938] Crispius.

[939] He alludes to the citron, the Citrus Medica of Linnæus. See B.
xii. c. 7.

[940] The Rhamnus lotus of Linnæus; the Zizyphus lotus of Desfontaines.

[941] The Celtis australis of Linnæus. Fée remarks that Pliny is in
error in giving the name of Celtis to the lotus of Africa.

[942] The Lotophagi. See B. v. c. 7.

[943] A kind of grain diet. See B. xviii. c. 29, and B. xxii. c. 61.

[944] The Melilotus officinalis of Linnæus.

[945] The Nymphæa Nelumbo of Linnæus, or Egyptian bean.

[946] He speaks of the indentations on the surface of the poppy-head.

[947] See B. xxii. c. 28.

[948] Fée remarks that there is nothing singular about it, the sun more
or less exercising a similar influence on all plants.

[949] The same as the Nymphæa Nelumbo of the Nile, according to Fée.

[950] Probably the Rhamnus paliurus of Linnæus; the Spina Christi of
other botanists.

[951] The pomegranate, the Punica granatum of botanists.

[952] Or “grained apple.”

[953] From the Greek ἀπύρηνον, “without kernel.” This Fée would not
translate literally, but as meaning that by cultivation the grains had
been reduced to a very diminutive size. See B. xxiii. c. 57.

[954] This variety appears to be extinct. Fée doubts if it ever existed.

[955] See B. xxiii. c. 57.

[956] See B. xxiii. c. 60.

[957] “Puniceus,” namely, a kind of purple.

[958] See B. xxvii. c. 52. Sprengel thinks that this is the Neottia
spiralis of Schwartz; but Fée is of opinion that it has not hitherto
been identified.

[959] Probably the Erica arborea of Linnæus, or “heath” in its several
varieties.

[960] Granum Cnidium. The shrub is the Daphne Cnidium of Linnæus.

[961] The “thyme-olive.”

[962] The “ground olive,” or “small olive.” Dioscorides makes a
distinction between these two last; and Sprengel has followed it,
naming the last Daphne Cnidium, and the first Daphne Cneorum.

[963] See B. xxvii. c. 115.

[964] He says elsewhere that it is like the juniper, which, however,
is not the case. Guettard thinks that the tragion is the Androsæmon
fetidum, the Hyperium hircinum of the modern botanists. Sprengel also
adopts the same opinion. Fée is inclined to think that it was a variety
of the Pistacia lentiscus.

[965] Goat’s thorn. The Astragalus Creticus of Linnæus.

[966] He speaks of gum tragacanth.

[967] See B. xxvii. c. 116. Sprengel identifies it with the Salsola
tragus of Linnæus.

[968] Probably the Tamarix Gallica of Linnæus. Fée says, in relation
to the myrica, that it would seem that the ancients united in one
collective name, several plants which resembled each other, not in
their botanical characteristics, but in outward appearance. To this,
he says, is owing the fact that Dioscorides calls the myrica a tree,
Favorinus a herb; Dioscorides says that it is fruitful, Nicander and
Pliny call it barren; Virgil calls it small, and Theophrastus says that
it is large.

[969] Fée thinks that it is the Tamarix orientalis of Delille.

[970] “Infelix,” meaning “sterile.” He seems to say this more
particularly in reference to the brya, which Egypt produces. As to this
use of the word “infelix,” see B. xvi. c. 46.

[971] Sprengel and Fée identify this with the Ostrya vulgaris of
Willdenow, the Carpinus ostrya of Linnæus.

[972] Or the “luckily named.” It grew on Mount Ordymnus in Lesbos. See
Theophrastus, B. ii. c. 31.

[973] The Evonymus Europæus, or else the Evonymus latifolius of
botanists, is probably intended to be indicated; but it is a mistake
to say that it is poisonous to animals. On the contrary, Fée says that
sheep will fatten on its leaves very speedily.

[974] “Statim pestem denuntians.” Pliny appears to be in error here. In
copying from Theophrastus, he seems to have found the word φόνος used,
really in reference to a blood-red juice which distils from the plant;
but as the same word also means slaughter, or death, he seems to have
thought that it really bears reference to the noxious qualities of the
plant.

[975] Fée censures the use of the word “siliqua,” as inappropriate,
although the seed does resemble that of sesamum, the Sesamum orientale
of Linnæus.

[976] Or eonis. Fée suggests that in this story, which probably belongs
to the region of Fable, some kind of oak may possibly be alluded to.

[977] In the former editions, “adrachne”—the Arbutus integrifolia, Fée
says, and not the Arbutus andrachne of Linnæus, as Sprengel thinks.

[978] “Porcillaca.” The Portulaca oleracea of Linnæus.

[979] The Rhus cotinus of Linnæus, a sort of sumach.

[980] This is not the fact; the seeds when ripe are merely lost to view
in the large tufts of down which grow on the stems.

[981] Generally supposed to be the same as the alaternus, mentioned in
B. xvi. c. 45. Some writers identify it with the Phyllirea angustifolia
of Linnæus.

[982] Probably the Ferula communis of Linnæus, the herb or shrub known
as “fennel giant.”

[983] The Ferula glauca of Linnæus.

[984] The Ferula nodiflora of Linnæus.

[985] It is still used for that purpose in the south of Europe. The
Roman schoolmasters, as we learn from Juvenal, Martial, and others,
employed it for the chastisement of their scholars. Pliny is in error
in reckoning it among the trees, it really having no pretensions to be
considered such. It is said to have received its name from “ferio,” to
“beat.”

[986] Sprengel thinks that this is the Thapsia asclepium of the
moderns; but Fée takes it to be the Thapsia villosa of Linnæus.

[987] It was valued, Dioscorides says, for its cathartic properties.

[988] Either the Thapsia garganica of Willdenow, or the Thapsia
villosa, found in Africa and the south of Europe, though, as Pliny
says, the thapsia of Europe is mild in its effects compared with that
of Africa. It is common on the coast of Barbary.

[989] Pastillos.

[990] Nocturnis grassationibus.

[991] It is still used in Barbary for the cure of tetter and ringworm.

[992] The story was, that Prometheus, when he stole the heavenly fire
from Jupiter, concealed it in a stalk of narthex.

[993] The “caper-tree,” the Capparis spinosa of Linnæus. Fée
suggests that Pliny may possibly allude, in some of the features
which he describes, to kinds less known; such, for instance, as the
Capparis inermis of Forskhal, found in Arabia; the Capparis ovata of
Desfontaines, found in Barbary; the Capparis Sinaica, found on Mount
Sinai, and remarkable for the size of its fruit; and the Capparis
Ægyptiaca of Lamarck, commonly found in Egypt.

[994] The stalk and seed were salted or pickled. The buds or unexpanded
flowers of this shrub are admired as a pickle or sauce of delicate
flavour.

[995] Fée remarks that this is not the truth, all the kinds possessing
the same qualities. There may, however, have been some difference
in the mode of salting or pickling them, and possibly productive of
noxious effects.

[996] Probably from its thorns, that being the name of the sweet-briar,
or dog-rose.

[997] “Serpent grapes.”

[998] Sprengel and Fée take this to be the Cyperus fastigiatus of
Linnæus, which Forskhal found in the river Nile.

[999] Spina regia. Some writers have considered this to be the same
with the Centaurea solstitialis of Linnæus. Sprengel takes it to be the
Cassyta filiformis of Linnæus, a parasitical plant of India. We must
conclude, however, with Fée, that both the thorn and the parasite have
not hitherto been identified.

[1000] The Makron Teichos. See B. iv. c. 11.

[1001] From the various statements of ancient authors, Fée has come
to the conclusion that this name was given to two totally different
productions. The cytisus which the poets speak of as grateful to bees
and goats, and sheep, he takes to be the Medicago arborea of Linnæus,
known to us as Medic trefoil, or lucerne; while the other, a tree with
a black wood, he considers identical with the Cytisus laburnum of
Linnæus, the laburnum, or false ebony tree.

[1002] A kind of vetch or tare. See B. xviii.

[1003] “Frutex.” When speaking of it as a shrub, he seems to be
confounding the tree with the plant.

[1004] Evidently in allusion to the tree.

[1005] He alludes to various kinds of fucus or sea-weed, which grows to
a much larger size in the Eastern seas.

[1006] The Mediterranean.

[1007] Whence the word “fucus” of the naturalists.

[1008] Fée suggests that this may be the Laminaria saccharina of
Linnæus, being one of the “ulvæ” often thrown up on the coasts of
Europe.

[1009] The “green” plant.

[1010] The “girdle” plant.

[1011] The Fucus barbatus, probably, of Linnæus, or else the Fucus
eroïdes.

[1012] They are in reality more long-lived than this.

[1013] Fée suggests that it is the Roccella tinctoria of Linnæus.

[1014] The Zostera marina of Linnæus, according to Fée.

[1015] The Ulva lactuca of the moderns, a very common sea-weed.

[1016] The Fucus ericoïdes, Fée suggests, not unlike a fir in
appearance.

[1017] Quercus. According to Gmellin, this is the Fucus vesiculosus of
Linnæus. Its leaves are indented, somewhat similarly to those of the
oak.

[1018] Polybius, as quoted by Athenæus, says that in the Lusitanian Sea
there are oaks that bear acorns, on which the thunnies feed and grow
fat.

[1019] On the contrary, Theophrastus says, B. iv. c. 7, that the
sea-vine grows _near_ the sea, from which Fée is disposed to consider
it a phanerogamous plant. If, on the other hand, it is really a fucus,
he thinks that the Fucus uvarius may be meant, the vesicles of which
resemble a grape in shape.

[1020] He speaks of a madrepore, Fée thinks, the identity of which it
is difficult to determine. Professor Pallas speaks of an Alcyonidium
ficus, which lives in the Mediterranean and in the ocean, and which
resembles a fig, and has no leaves, but its exterior is not red.

[1021] Fée queries whether this may not be the Gorgonia palma of
Linnæus, which has received its name from its resemblance to a small
palm-tree.

[1022] These three, Fée thinks, are madrepores or zoophytes, which it
would be vain to attempt to identify.

[1023] That is, they dry up to the consistency of pumice.

[1024] “Sitiens.” Delille considers this as identical with his Acacia
seyal, a thorny tree, often to be seen in the deserts of Africa.

[1025] Probably zoophytes now unknown.

[1026] Fée suggests that he may allude to the Madrepora fungites of
Linnæus, the Fungus lapideus of Bauhin. These are found in the Red Sea
and the Indian Ocean; but, of course, the story of their appearance
during rain is fabulous.

[1027] Sharks; see B. ix. c. 70.

[1028] The companions of Onesicritus and Nearchus.

[1029] Fée hazards a conjecture that this may be the Gorgonia scirpea
of Pallas, found in the Indian Seas.

[1030] One of the Gorgoniæ, Fée thinks; but its characteristics are not
sufficiently stated to enable us to identify it.

[1031] A fable worthy of Sinbad the Sailor!

[1032] “Isidis crinem.” Fée says that this is evidently black coral,
the Gorgonia antipathes of Linnæus.

[1033] “The eyelid of the Graces.” Fée is almost tempted to think that
he means red coral.

[1034] Amatoriis.

[1035] Spatalia. Armlets or bracelets.

[1036] By this apparently fabulous story, one would be almost inclined
to think that he is speaking of a zoophyte.

[1037] See end of B. ii.

[1038] See end of B. ii.

[1039] See end of B vii.

[1040] Papirius Fabianus. See end of B. ii.

[1041] See end of B. ii.

[1042] See end of B. iii.

[1043] Fabius Pictor. See end of B. x.

[1044] See end of B. viii.

[1045] See end of B. iii.

[1046] Trogus Pompeius. See end of B. vii.

[1047] See end of B. v.

[1048] See end of B. ii.

[1049] See end of B. xii.

[1050] See end of B. xii.

[1051] See end of B. ii.

[1052] See end of B. xii.

[1053] See end of B. ii.

[1054] See end of B. iii.

[1055] See end of B. ii.

[1056] See end of B. xii.

[1057] See end of B. vii.

[1058] See end of B. vi.

[1059] See end of B. xii.

[1060] See end of B. vii.

[1061] See end of B. vi.

[1062] See end of B. ii.

[1063] See end of B. xii.

[1064] See end of B. xii.

[1065] See end of B. vi.

[1066] See end of B. iv.

[1067] See end of B. iv.

[1068] See end of B. xii.

[1069] See end of B. iv.

[1070] See end of B. viii.

[1071] See end of B. xii.

[1072] See end of B. xii.

[1073] See end of B. xii.

[1074] See end of B. viii.

[1075] Nothing certain is known of him; but he appears to be the
geographer, a native of Lampsacus, mentioned by Strabo in B. xiii.

[1076] See end of B. xii.

[1077] See end of B. xii.

[1078] See end of B. xii.

[1079] See end of B. ii.

[1080] See end of B. viii.

[1081] See end of B. iii.

[1082] A writer on Agriculture, or domestic economy; but nothing
further is known of him.

[1083] See end of B. v.

[1084] Perhaps the same writer that is mentioned at the end of B. xi.

[1085] For two physicians of this name, see end of B. xii.

[1086] One of his prescriptions is preserved in the works of Galen.
Nothing else is known of him.

[1087] See end of B. xii.

[1088] See end of B. xii.

[1089] See end of B. xii.

[1090] See end of B. xii.

[1091] See end of B. xii.

[1092] See end of B. xii.

[1093] See end of B. xii.

[1094] See end of B. xii.

[1095] See end of B. xii.

[1096] This must be understood with considerable modification—many
of the tropical trees and plants have been naturalized, and those of
America more particularly, in Europe.

[1097] He is probably wrong in looking upon the vine as indigenous
to Italy. It was known in very early times in Egypt and Greece, and
it is now generally considered that it is indigenous throughout the
tract that stretches to the south, from the mountains of Mazandiran on
the Caspian to the shores of the Persian Gulf and the Indian Sea, and
eastward through Khorassan and Cabul to the base of the Himalayas.

[1098] The art of printing, Fée remarks, utterly precludes the
recurrence of such a fact as this.

[1099] In allusion to his poem, the “Works and Days,” the prototype of
Virgil’s Georgics.

[1100] He alludes to the legacy-hunters with which Rome abounded in his
time. They are spoken of by Seneca, Tacitus, and Juvenal, in terms of
severe reprobation.

[1101] This seems to be the meaning of “captatio;” much like what we
call “toadying,” or “toad-eating.”

[1102] The “liberales artes,” were those, the pursuit of which was not
considered derogatory to the dignity of a free man.

[1103] Vita ipsa desiit.

[1104] Humilitas.

[1105] In the Georgics.

[1106] Theophrastus reckons it among the trees; Columella, B. ii.,
considers it to occupy a middle position between a tree and a shrub.
Horace, B. i. Ode 18, calls it a tree, “arbor.”

[1107] Or “layers,” “propagines.”

[1108] Nubunt, properly “marry.” This is still done in Naples, and
other parts of Italy. The use of vine stays there are unknown.

[1109] “Mustum.” Pure, unfermented juice of the grape.

[1110] See B. vii. c. 24.

[1111] Italia Transpadana.

[1112] See B. xxiv. c. 112. The Bauhins are of opinion that this is the
Acer opulus of Willdenow, common in Italy, and very branchy.

[1113] “Tabulata in orbem patula.” He probably alludes to the branches
extending horizontally from the trunk.

[1114] “In palmam ejus.”

[1115] There is no doubt that the whole of this passage is in a most
corrupt state, and we can only guess at its meaning. Sillig suggests
a new reading, which, unsupported as it is by any of the MSS., can
only be regarded as fanciful, and perhaps as a very slight improvement
on the attempts to obtain a solution of the difficulty. Pliny’s main
object seems to be to contrast the vines that entwine round poles and
rise perpendicularly with those that creep horizontally.

[1116] By throwing out fresh shoots every here and there. Fée, however,
seems to think that he means that the grapes themselves, as they trail
along the ground, suck up the juices with their pores. These are known
in France as “running vines,” and are found in Berry and Anjou.

[1117] He must evidently be speaking of the size of the _bunches_. See
the account of the grapes of Canaan, in Numbers xiii. 24.

[1118] “Durus acinus,” or, according to some readings, “duracinus.”

[1119] From the Greek βουμαστὸς, a cow’s teat, mentioned by Virgil,
Georg. ii. 102.

[1120] Or finger-grape.

[1121] From the Greek λεπτορᾶγες, “small-berried.”

[1122] Pensili concamaratæ nodo.

[1123] We have no corresponding word for the Latin “dolium.” It was an
oblong earthen vessel, used for much the same purpose as our vats; new
wine was generally placed in it. In times later than that of Pliny the
dolia were made of wood.

[1124] Hardouin speaks of these grapes as still growing in his time in
the Valtelline, and remarkable for their excellence.

[1125] “A patientia.” Because they have _suffered_ from the action of
the heat.

[1126] From the thinness of the skin.

[1127] See c. 24, also B. xxiii. c. 24.

[1128] See B. iii. c. 5, and B. xxxiii. c. 24.

[1129] He died in the year B.C. 19.

[1130] A vine sapling was the chief mark of the centurion’s authority.

[1131] The reading “elatas,” has been adopted. If “lentas” is retained,
it may mean, “promotion, slow though it be,” for the word “aquila” was
often used to denote the rank of the “primipilus,” who had the charge
of the eagle of the legion.

[1132] Because it was the privilege solely of those soldiers who were
Roman citizens to be beaten with the vine sapling.

[1133] He alludes to the “vinea” used in besieging towns; the first
notion of which was derived from the leafy roof afforded by the vines
when creeping on the trellis over-head. It was a moveable machine,
affording a roof under which the besiegers protected themselves against
darts, stones, fire, and other missiles. Raw hides or wet cloths
constituted the uppermost layer.

[1134] See B. xxiii. c. 19.

[1135] Many years ago, there were in the gardens of the Luxembourg one
thousand four hundred varieties of the French grape, and even then
there were many not to be found there; while, at the same time, it was
considered that the French kinds did not form more than one-twentieth
part of the species known in Europe.

[1136] This vine was said to be of Grecian origin, and to have been
conveyed by a Thessalian tribe to Italy, where it was grown at Aminea,
a village in the Falernian district of Campania. It is supposed to
have been the same as the _gros plant_ of the French. The varieties
mentioned by Pliny seem not to have been recognized by the moderns.

[1137] Fée does not give credit to this statement.

[1138] In allusion to the cotton-tree, or else the mulberry leaves
covered with the cocoons of the silkworm. See B. vi. c. 20, and B. xii.
c. 21. Virgil, in the Georgics, has the well-known line:

  “Velleraque ut foliis depectant tenuia Seres.”

[1139] See B. iii. c. 9, There are many vines, the wood of which is
red, but this species has not been identified.

[1140] From “apis,” a “bee.” He alludes, it is thought, to the muscatel
grape, said to have had its name from “musca,” a “fly;” an insect which
is greatly attracted by its sweetness.

[1141] Græcula.

[1142] Fée is inclined to think that he alludes to the vine of Corinth,
the dried fruit of which are the currants of commerce.

[1143] From the Greek εὐγένεια.

[1144] How Taormina, in Sicily, where, Fée says, it is still to be
found. The grapes are red, similar to those of Mascoli near Etna, and
much esteemed.

[1145] Picata. See p. 221.

[1146] _I. e._, pale straw colour.

[1147] It has been supposed that this vine received its name from
“fæx;” the wine depositing an unusually large quantity of lees.

[1148] It is doubtful whether this vine had its name from being grown
in the district now called Bourges, or that of Bourdeaux. Dalechamps
identifies it with the _plant d’Orleans_.

[1149] The origin of its name is unknown. The text is evidently
defective.

[1150] By this name it would be understood that they were of an
intermediate colour between rose and white, a not uncommon colour in
the grape. Pliny, however, says otherwise, and he is supported by
Columella.

[1151] C. Bauhin took this to mean one of the garden currant trees,
the Ribes uva crispa of Linnæus, called by Bauhin Grossularia simplici
acino, or else Spinosa agrestis. But, as Fée observes, the ancients
were not so ignorant as to confound a vine with a currant-bush.

[1152] Like the Portuguese grapes of the present day.

[1153] Crisped and indented.

[1154] This variety, according to Christian de la Vega, was cultivated
abundantly in Grenada. The word _cocolab_, according to some, meant
cock’s comb. It is mentioned as a Spanish word by Columella.

[1155] Dalechamps says, that a similar wine was made at Montpellier,
and that it was called “piquardant.”

[1156] See B. xxiii. cc. 20, 21.

[1157] Probably from “albus,” “white.” Poinsinet thinks that it may
have been so called from the Celtic word _alb_, or _alp_, a mountain,
and that it grew on elevated spots. This, however, is probably fanciful.

[1158] Called by the Greeks ἀμέθυστον, from its comparatively harmless
qualities.

[1159] Or “sober” vine.

[1160] Hardouin says that in his time it was still cultivated about
Macerata, in the Roman States. Fée thinks that it may be one of the
climbing vines, supported by forks, cultivated in the central provinces
of France. See also B. xxiii. c. 19, as to the effects produced by its
wine.

[1161] Poinsinet gives a Celto-Scythian origin to this word, and says
that it means “injured by fogs.” This appears to be supported in some
measure by what is stated below.

[1162] See B. xvii. c. 37.

[1163] Or “thorny” vine. Fée queries why it should be thus called.

[1164] This humid, marshy locality was noted for the badness of its
grapes, and consequently of its wine.

[1165] Hardouin thinks that this is the “Marze mina” of the Venetians:
whence, perhaps, its ancient name.

[1166] “Testis.” See B. xxxv. c. 46.

[1167] From Murgentum, in Sicily. See B. iii. c. 14.

[1168] From Pompeii, afterwards destroyed. See B. iii c. 9.

[1169] Hardouin, as Fée thinks, without good reason, identifies this
with the “Arelaca” of Columella.

[1170] Georgics, ii. 99.

[1171] This seems to be the meaning of “ultro solum lætius facit.”
These two lines have been introduced by Sillig, from one of the MSS.,
for the first time.

[1172] Hardouin thinks that it is so called from Tuder, a town of
Etruria. See B. iii. c. 19.

[1173] Sillig suggests that the reading here is corrupt, and that Pliny
means to say that the vine called Florentia is particularly excellent,
and merely to state that the talpona, &c., are peculiar to Arretium:
for, as he says, speaking directly afterwards in disparagement of
them, it is not likely he would pronounce them “opima,” of “first-rate
quality.”

[1174] From “talpa,” a “mole,” in consequence of its black colour.

[1175] “Album.”

[1176] Probably so called from the Etesian winds, which improved its
growth.

[1177] Perhaps meaning “double-seeded.” We may here remark, that the
wines of Tuscany, though held in little esteem in ancient times, are
highly esteemed at the present day.

[1178] The leaves of most varieties turn red just before the fall.

[1179] And Baccius thinks that this is the kind from which the raisins
of the sun, common in Italy, and more particularly in the Valley of
Bevagna, the Mevania of Pliny, are made.

[1180] Perhaps from “pumilio,” a dwarf.

[1181] The “royal” vine, according to Poinsinet, who would derive it
from the Sclavonic “ban.”

[1182] Previously mentioned, p. 228.

[1183] The residence of Horace, now Tivoli.

[1184] Baccius says that the wine of this grape was thin like water,
and that the vine was trained on lofty trees, a mode of cultivation
still followed in the vicinity of Rome. Laurentum was situate within a
short distance of it, near Ostia.

[1185] See B. iii. c. 9.

[1186] So called from the smoky or intermediate colour of its grapes.
Fée suggests that this may be the slow-ripening grape of France, called
the “verjus,” or “rognon de coq.”

[1187] Possibly meaning the “mouthful.”

[1188] Perhaps so called from Prusa in Bithynia, a district which bore
excellent grapes.

[1189] Or the “turning” grape. A fabulous story no doubt, originating
in the name, probably. Fée suggests that it may have originated in the
not uncommon practice of letting the bunches hang after they were ripe,
and then twisting them, which was thought to increase the juice.

[1190] In the modern Marches of Ancona.

[1191] Georgics, ii. 91, _et seq._

  Sunt Thasiæ vites, sunt et Mareotides albæ:
  *       *       *       *       *
  Et passo Psithia utilior, tenuisque Lageos,
  Tentatura pedes olim, vincturaque linguam,
  Purpuræ, Preciæque——

[1192] A muscatel, Fée thinks.

[1193] Or “hard-berried.” Fée thinks that the maroquin, or Morocco
grape, called the “pied de poule” (or fowl’s foot), at Montpellier, may
be the duracinus.

[1194] Or “upright vine.” In Anjou and Herault the vines are of similar
character.

[1195] The “finger-like” vine.

[1196] The “pigeon” vine.

[1197] Though very fruitful, it does not bear in large clusters
(racemi), but only in small bunches (uvæ).

[1198] The “three-foot” vine.

[1199] Perhaps meaning the “rush” grape, from its shrivelled appearance.

[1200] See c. 3 of this Book.

[1201] The ordinary number of pips or stones is five. It is seldom that
we find but one. Virgil mentions this grape, Georg. ii. 95.

[1202] “Chium.” This reading is doubtful. Fée says that between Narni
and Terni, eight leagues from Spoleto, a small grape is found, without
stones. It is called “uva passa,” or “passerina.” So, too, the Sultana
raisin of commerce.

[1203] “Grown for the table.”

[1204] Or “hard-berry.”

[1205] Mentioned by Virgil, Georg. ii. 101.

[1206] Or pitch-grape.

[1207] Perhaps the “noirant,” or “teinturier” of the French.

[1208] Or “garland-clustered” vine.

[1209] Fée says that this is sometimes accidentally the case, but is
not the characteristic of any variety now known.

[1210] Or “market-grapes.”

[1211] The “ash-coloured.”

[1212] The “russet-coloured.”

[1213] Probably so called from its grey colour, like that of the ass.

[1214] Or “fox” vine. This variety is unknown.

[1215] So called from Alexandria, in Troas, not in Egypt. Phalacra was
in the vicinity of Mount Ida.

[1216] As the leaves of the vine are universally divided, it has been
considered by many of the commentators that this is not in reality a
vine, but the Arbutus uva ursi of Linnæus. The fruit, however, of that
ericaceous plant is remarkably acrid, and not sweet, as Pliny states.
Fée rejects this solution.

[1217] Aubenas, in the Vivarais, according to Hardouin; Alps, according
to Brotier. We must reject this assertion as fabulous.

[1218] In B.C. 194, for his successes in Spain.

[1219] Mode of culture, locality, climate, and other extraneous
circumstances, work, no doubt, an entire change in the nature of the
vine.

[1220] Probably the first of the five that he has mentioned in c. 4.

[1221] He has only mentioned one sort in c. 4.

[1222] See c. 4.

[1223] See c. 4.

[1224] We have no corresponding word for this beverage in the English
language—a thin, poor liquor, made by pouring water on the husks and
stalks after being fully pressed, allowing them to soak, pressing
them again, and then fermenting the liquor. It was also called “vinum
operarium,” or “labourer’s wine.” As stated in the present instance,
grapes were sometimes stored in it for keeping.

[1225] A variety of the Aminean, as stated below.

[1226] See B. iii. c. 9.

[1227] The elder Africanus. He retired in voluntary exile to his
country-seat at Liternum, where he died.

[1228] Mercis.

[1229] The suggestion of Sillig has been adopted, for the ordinary
reading is evidently corrupt, and absurd as well—“not in the very worst
part of a favourite locality”—just the converse of the whole tenor of
the story.

[1230] The philosopher, and tutor of Nero.

[1231] Said to have been so called from Maron, a king of Thrace, who
dwelt in the vicinity of the Thracian Ismarus. See B. iv. c. 18. Homer
mentions this wine in the Odyssey, B. ix. c. 197, _et seq._ It was red,
honey-sweet, fragrant. The place is still called Marogna, in Roumelia,
a country the wines of which are still much esteemed.

[1232] See B. vii. c. 57.

[1233] Thus making “mulsum.”

[1234] B. ix. c. 208.

[1235] Indomitus.

[1236] By “black” wines he means those that had the same colour as our
port.

[1237] Il. xi. 638. Od. x. 234.

[1238] Cybele. A wine called “Pramnian” was also grown in the island
of Icaria, in Lesbos, and in the territory of Ephesus. The scholiast
on Nicander says that the grape of the psythia was used in making it.
Dioscorides says that it was a “protropum,” first-class wine, made of
the juice that voluntarily flowed from the grapes, in consequence of
their own pressure.

[1239] B.C. 121.

[1240] “Cooking,” literally, or “boiling.”

[1241] The wines of Burgundy, in particular, become bitter when
extremely old.

[1242] See B. vii. c. 18.

[1243] Caligula.

[1244] By some remarkable and peculiar quality, such as in the Opimian
wine.

[1245] “Testa,” meaning the amphora.

[1246] See c. 3 of the present Book, where these “picata,” or
“pitched-wines,” have been further described.

[1247] On the contrary, Fée says, the coldest wines are those that
contain the least alcohol, whereas those of Vienne (in modern Dauphiné)
contain more than the majority of wines.

[1248] He implies that wine is an antidote to the poisonous effects
of hemlock. This is not the case, but it is said by some that vinegar
is. It is the plant hemlock (cicuta) that is meant, and not the fatal
draught that was drunk by Socrates and Philopœmen. See further in B.
xxiii. c. 23, and B. xxv. c. 95.

[1249] Clitus and Callisthenes.

[1250] Lacus.

[1251] The testa or amphora, made of earth.

[1252] As the wife of Augustus is meant, this reading appears
preferable to “Julia.”

[1253] Dion Cassius says “eighty-sixth.”

[1254] See B. iii. c. 22, and B. xvii. c. 3. Pucinum was in Istria,
and the district is said still to produce good wine; according to
Dalechamps, the place is called Pizzino d’Istria.

[1255] The hills of Setia, looking down on the Pomptine Marshes: now
Sezza, the wine of which is of no repute.

[1256] See B. iii. c. 9.

[1257] See B. iii. c. 9. Between Fundi and Setia; a locality now of no
repute for its wines. In B. xxiii. c. 19, Pliny says, that the Cæcuban
vine was extinct: but in B. xvii. c. 3, he says that in the Pomptine
Marshes it was to be found.

[1258] This was the case, it has been remarked, with Madeira some years
ago.

[1259] This is the most celebrated of all the ancient wines, as being
more especially the theme of the poets.

[1260] See B. xi. c. 97. The wines of the Falernian district are no
longer held in any esteem; indeed, all the Campanian wines are sour,
and of a disagreeable flavour.

[1261] It appears to have been exceedingly rich in alcohol.

[1262] But in B. xxiii. c. 20, he assigns the first rank to the
Albanum; possibly, however, as a medicinal wine. The wines of Latium
are no longer held in esteem.

[1263] See B. xxiii. c. 21.

[1264] From Surrentum, the promontory forming the southern horn of the
Bay of Naples. Ovid and Martial speak in praise of these wines; they
were destitute of richness and very dry, in consequence of which they
required twenty-five years to ripen.

[1265] Or “dead vinegar.” “Vappa” was vinegar exposed to the air, and
so destitute of its properties, and quite insipid.

[1266] Excellent wines are still produced in the vicinity of this
place. Massicum was one of the perfumed wines. Gaurus itself produced
the “Gauranum,” in small quantity, but of high quality, full-bodied and
thick.

[1267] For the Calenian Hills, see B. iii. c. 9; see also B. xxiii. c.
12, for some further account of the wines of Stata. The wines of that
district are now held in no esteem.

[1268] From Fundi. See B. iii. c. 9.

[1269] Now Castel del Volturno: although covered with vineyards, its
wines are of no account. This wine always tasted as if mixed with some
foreign substance.

[1270] Now Piperno. It was a thin and pleasant wine.

[1271] Now Segni, in the States of the Church.

[1272] Written to the Senate, also to Cicero. We learn from Suetonius
that they were partly written in cipher.

[1273] Messina, at the present day, exports wines of very good quality,
and which attain a great age.

[1274] It was sound, light, and not without body.

[1275] “Lagenæ.” The same spot, now Taormina in Sicily, between Catania
and Messina, still produces excellent wines.

[1276] See B. iii. c. 18. Fée says that this is thought to have been
the wine of Syrol, of last century, grown near Ancona.

[1277] “Palma.” Notwithstanding this suggestion, it is more generally
supposed that they had their name from the place called Palma, near
Marano, on the Adriatic. Its wines are still considered of agreeable
flavour.

[1278] The wines of modern Cezena enjoy no repute, owing, probably, to
the mode of making them.

[1279] Probably so called because it was brought into fashion by
Mæcenas.

[1280] See Georg. ii. 95. The wines of the Tyrol, the ancient Rhætia,
are still considered as of excellent quality.

[1281] Of Adria, or the Adriatic Sea.

[1282] See B. iii. c. 20. These wines are of little repute.

[1283] In Latium. See B. iii. c. 9.

[1284] From Graviscæ. See B. iii. c. 8.

[1285] See B. ii. c. 96, B. iii. c. 9, and B. xxxvi. c. 49.

[1286] The wines of Genoa are of middling quality only, and but little
known.

[1287] Or “juicy” wine.

[1288] Now Beziers, in the south of France. The wines of this part are
considered excellent at the present day. That of Frontignan grows in
its vicinity. Fée is inclined to think, from Pliny’s remarks here, that
the ancients and the moderns differed entirely in their notions as to
what constitutes good or bad wine.

[1289] He means, beyond modern Provence, and Languedoc: districts
famous for their excellent wines, more particularly the latter.

[1290] Fée deems all this quite incredible. Our English experience,
however, tells us that it is by no means so; much of the wine that is
drunk in this country is indebted for flavour as well as colour to
anything but the grape.

[1291] The wines of modern Otranto are ordinarily of good quality.

[1292] Baccius reads “Seberiniana,” but is probably wrong. If he is
not, it might allude to the place now known as San Severino, and which
produces excellent wine. Fée thinks that these wines were grown in the
territory of Salerno, which still enjoys celebrity for its muscatel
wines.

[1293] See B. iii. c. 10. The wines of modern Cosenza still enjoy a
high reputation.

[1294] M. Valerius Messala Corvinus, the writer and partisan of
Augustus. See end of B. ix.

[1295] A place supposed to have been situated near Thurii.

[1296] See B. iii. c. 15.

[1297] Said by Galen to be very wholesome, as well as pleasant. The
wines of the vicinity of Naples are still held in high esteem.

[1298] Galen says that it was very similar to the Falernian.

[1299] See B. iii. c. 9.

[1300] The Trifoline territory was in the vicinity of Cumæ. It is
possible that the wine may have had its name from taking three years to
come to maturity; or possibly it was owing to some peculiarity in the
vine.

[1301] They have been already mentioned in c. 4. See B. iii. c. 9.

[1302] Twelve o’clock in the day.

[1303] See B. iii. c. 4.

[1304] In Catalonia, which still produces abundance of wine, but in
general of inferior repute.

[1305] The wines of Tarragona are still considered good.

[1306] A place in the province of Hispania Tarraconensis, destroyed by
Sertorius.

[1307] They still enjoy a high repute. The fame of their Malvoisie has
extended all over the world.

[1308] He means to illustrate the capricious tastes that existed as to
the merits of wines.

[1309] In c. 6 of this Book.

[1310] The Chian held the first rank, the Thasian the second.

[1311] From Arvisium, or Ariusium, a hilly district in the centre of
the island. The wine of Chios still retains its ancient celebrity.

[1312] It was remarkable for its sweetness, and aromatics were
sometimes mixed with it. Homer calls it harmless. Lesbos still produces
choice wines.

[1313] Near Smyrna. Probably similar to the Pramnian wine, mentioned in
c. 6.

[1314] See B. v. c. 30. This wine is mentioned again in the next page;
it is generally thought, that he is wrong in making the Tmolites and
the Mesogites distinct wines, for they are supposed to have been
identical.

[1315] If drunk by itself, and not as a flavouring for other wines.

[1316] Bacchus had a temple there.

[1317] The wines of Cyprus are the most choice of all the Grecian wines
at the present day.

[1318] In Lycia.

[1319] In Syria. Wine is no longer made there, but the grapes are
excellent, and are dried for raisins.

[1320] Now Beyrout. It does not seem that wine is made there now. The
Mahometan religion may have tended to the extinction of many of these
wines.

[1321] At the village of Sour, on the site of ancient Tyre, the grape
is only cultivated for raisins.

[1322] See also c. 22: probably introduced from Thasos.

[1323] The “smoky” grape.

[1324] The “pitchy” grape.

[1325] A strong wine, Hardouin thinks, from whence its name—“strong
enough to subdue a horse.”

[1326] From the small island of Mystus, near Cephallenia.

[1327] So called from the vine the name of which was “canthareus.”

[1328] Made, as already stated, from the juice that flowed
spontaneously from the grapes. See also p. 250.

[1329] Or the “burnt up” country, a volcanic district of Mysia, which
still retains its ancient fame for its wine. Virgil alludes to this
wine in Georg. iv. l. 380:—

  —Cape Mæonii carchesia Bacchi.

[1330] Perhaps from Petra in Arabia: though Fée suggests Petra in the
Balearic Islands.

[1331] See B. iv. c. 22. In the island of Myconos in the Archipelago an
excellent wine is still grown.

[1332] From Mount Mesogis, which divides the tributaries of the Caÿster
from those of the Meander. It is generally considered the same as the
Tmolites.

[1333] Must or grape-juice boiled down to one half.

[1334] See B. v. c. 29.

[1335] “Mulsum,” or honied wine, was of two kinds; honey mixed with
wine, and honey mixed with must or grape-juice.

[1336] From its Greek name, it would seem to mean “of first quality.”

[1337] So called from a place in Eubœa, the modern Negropont. See. B.
iv. c. 20. Negropont produces good wines at the present day.

[1338] The locality is unknown.

[1339] From Leucadia, or Leucate; see B. iv. c. 2; the vine was very
abundant there.

[1340] From Ambracia. See B. iv. c. 2.

[1341] From the island of Peparethus. See B. iv. c. 23, where he says
that from its abundance of vines it was called εὐοινὸς, or “Evenus.”

[1342] B. xxiii. c. 1, and c. 26.

[1343] “Cadis.”

[1344] Fée remarks that this method is still adopted in making several
of the liqueurs.

[1345] White wine of Cos. Fée thinks that Pliny means to say that the
sea water turns the must of a white or pale straw colour, and is of
opinion that he has been wrongly informed.

[1346] “Sea-water” wine.

[1347] “Sea-seasoned” wine.

[1348] Fée says, that if the vessels were closed hermetically this
would have little or no appreciable effect; if not, it would tend to
spoil the wine.

[1349] Athenæus says that the Rhodian wine will not mix so well with
sea-water as the Coan. Fée remarks that if Cato’s plan were followed,
the wine would become vinegar long before the end of the four years.

[1350] Sillig thinks that the proper reading is “in six” only.

[1351] The sweet wines, in modern times, have the most bouquet or aroma.

[1352] “Albus,” pale straw-colour.

[1353] “Fulvus,” amber-colour.

[1354] Bright and glowing, like Tent and Burgundy.

[1355] “Niger,” the colour of our port.

[1356] Supposed to be a species of Pramnian wine, mentioned in c. 6.
This was used, as also the Aminean, for making omphacium, as mentioned
in B. xii. c. 60. See also c. 18 of this Book.

[1357] “Black psythian.”

[1358] Mentioned by Galen among the sweet wines.

[1359] See B. iii. c. 14. Now Solana in Sicily, which produces
excellent wine.

[1360] Honied wine.

[1361] This was evidently a kind of grape sirop, or grape jelly. “Rob”
is perhaps, as Hardouin suggests, a not inappropriate name for it.

[1362] When cold, they would have nearly the same consistency.

[1363] The raisin wine of Crete was the most prized of all as a class.

[1364] Mentioned in c. 4. Probably a muscatel grape.

[1365] See c. 4 of this Book.

[1366] Or “vat.” The common reading was “oleo,” which would imply
that they were plunged into boiling oil. Columella favours the latter
reading, B. xii. c. 16.

[1367] The reading is probably defective here.

[1368] Passum secundarium.

[1369] Or “always sweet.”

[1370] “Always must.”

[1371] Fervere, “boil,” or “effervesce.”

[1372] “Sweet” drink. Fée seems to think that this sweet wine must have
been something similar to champagne. Hardouin says that it corresponds
to the vin doux de Limoux, or blanquette de Limoux, and the vin Muscat
d’Azile.

[1373] See c. 3 of this Book.

[1374] “Poured,” or “strained through.”

[1375] “Honey wine.” A disagreeable medicament, Fée thinks, rather than
a wine.

[1376] Somewhat similar to the vin de premiere goutte of the French. It
would seem to have been more of a liqueur than a wine. Tokay is made in
a somewhat similar manner.

[1377] Or “second” press wines.

[1378] De Re Rust. c. 153.

[1379] Vinum operarium.

[1380] This method is still adopted, Fée says, in making “piquette,” or
“small wine,” throughout most of the countries of Europe.

[1381] Or “wine-lee drink.” It would make an acid beverage, of
disagreeable taste.

[1382] “Nobilia.” In c. 29 he speaks of 195 kinds, and, reckoning all
the varieties, double that number.

[1383] Fée observes that the varieties of the modern wines are quite
innumerable. He remarks also that Pliny does not speak of the Asiatic
wines mentioned by Athenæus, which were kept in large bottles, hung
in the chimney corner; where the liquid, by evaporation, acquired the
consistency of salt. The wines of other countries evidently were little
known to Pliny.

[1384] “Circa pericula arbusti.” This is probably the meaning of this
very elliptical passage. See p. 218.

[1385] Called Metellus, by Valerius Maximus, B. vi. c. 3.

[1386] See B. xvii. c. 11.

[1387] Over the Celtiberi.

[1388] The younger Pliny, B. ii. Ep. 2, censures this stingy practice.
See also Martial, B. iii. Epig. 60.

[1389] That this, however, was not uncommonly done, we may judge from
the remark made by the governor of the feast, John ii. 10, to the
bridegroom.

[1390] Called “myrrhina.” Fée remarks that the flavour of myrrh is
acrid and bitter, its odour strong and disagreeable, and says that it
is difficult to conceive how the ancients could drink wine with this
substance in solution.

[1391] As the “Persa” has come down to us, we find no mention of myrrh
in the passage alluded to.

[1392] See B. xii. c. 49. This is mentioned in the Persa, A. i. sc. 3,
l. 7.

[1393] Aromatic or perfumed wines.

[1394] Murrhinam.

[1395] The Cheat or Impostor: a play of Plautus. See A. ii. sc. 4, l.
51, _et seq._

[1396] Must boiled down to half its original quantity.

[1397] Apothecas. The “apothecæ” were rooms at the top of the house,
in which the wines were placed for the purpose of seasoning. Sometimes
a current of smoke was directed through them. They were quite distinct
from the “cella vinaria,” or “wine-cellar.” The Opimian wine is
mentioned in c. 4.

[1398] This writer is unknown.

[1399] Or amphora.

[1400] Vessels containing a congius, or the eighth of an amphora,
nearly six pints English.

[1401] As to this malady, see B. xi. c. 71.

[1402] B.C. 46.

[1403] B. xii. c. 61.

[1404] Or “labrusca.” “Œnanthinum” means “made of vine flowers.” The
wild vine is not a distinct species from the cultivated vine: it is
only a variety of it, known in botany as the Vitis silvestris labrusca
of Tournefort. Fée thinks that as the must could only be used in
autumn, when the wild vine was not flowering, the flowers of it must
have been dried.

[1405] “Solstitiales.” Because they withstand the heat of the solstice.
Marcellus Empiricus calls them “caniculati,” because they bear the heat
of the Dog-star.

[1406] Fée remarks that this assertion is quite erroneous.

[1407] From the Greek, meaning “without strength.” The mixture, Fée
remarks, would appear to be neither potable nor wholesome.

[1408] See B. xviii. c. 24. A kind of beer might be made with it, Fée
says; but this mixture must have been very unpalatable.

[1409] See B. xiii. c. 32.

[1410] A vinous drink may be made in the manner here stated; but
the palm-wine of the peoples of Asia and Africa is only made of the
fermented sap of the tree. See B. xiii. c. 9.

[1411] He says “caryotæ,” and not chydææ, in B. xiii. c. 4. The modius
was something more than our peck.

[1412] From the Greek σύκη, a “fig.” This wine was made, Fée thinks,
from the produce of some variety of the sycamore. See B. xiii. c. 14.

[1413] “Prime palm” apparently.

[1414] Tortivum, probably: the second squeezing.

[1415] See B. xiii. c. 15.

[1416] See B. xiii. c. 14.

[1417] See B. xiii. c. 16.

[1418] From ῥόα, a “pomegranate.”

[1419] Dioscorides calls it “strobilites.” Fée says that they could be
of no service in producing a vinous drink.

[1420] See B. xv. c. 37.

[1421] Or “myrtle wine.”

[1422] Myrtle will not make a wine, but simply a medicament, in which
wine is the menstruum.

[1423] Artemisia abrotonum of Linnæus.

[1424] Ruta graveolens of Linnæus.

[1425] Nepeta cataria of Linnæus.

[1426] Thymus serpyllum of Linnæus.

[1427] Marrubium vulgare of Linnæus.

[1428] Grape-juice boiled down to one-third.

[1429] Brassica napus of Linnæus.

[1430] Scilla marina of Linnæus.

[1431] Nardus Gallicus, or Valeriana Celtica of Linnæus. See B. xii. c.
26.

[1432] Nardus silvestris or baccaris.

[1433] Aromatic wines.

[1434] In c. 15 of this Book.

[1435] Valeriana Celtica.

[1436] Convolvulus scoparius of Linnæus.

[1437] Andropogon schœnanthus of Linnæus.

[1438] Costus Indicus of Linnæus.

[1439] Andropogon nardus of Linnæus.

[1440] See B. xiii. c. 2.

[1441] See B. xii. c. 43.

[1442] Crocus sativus of Linnæus.

[1443] Asarum Europæum of Linnæus.

[1444] See B. xii. c. 59.

[1445] Condita.

[1446] Piperata.

[1447] Inula helenium of Linnæus. See B. xxi. c. 91.

[1448] Medicago sativa of Linnæus.

[1449] Symphytum officinale of Linnæus, being all different varieties.

[1450] “Absinthites” made of the Artemisia Pontica of Linnæus. A
medicinal wine is still prepared with wormwood; and “apsinthe,” a
liqueur much esteemed in France, is made from it.

[1451] Hyssopites.

[1452] Hyssopites officinalis of Linnæus.

[1453] Helleborites.

[1454] Scammonites.

[1455] Fée says that this is not the fact; and queries whether the
vulgar notion still entertained on this subject, may not be traced up
to our author. It is a not uncommon belief that roses smell all the
sweeter if onions are planted near them.

[1456] Lavendula stœchas of Linnæus. See B. xxvii. c. 107.

[1457] Gentiana lutea of Linnæus. See B. xxv. c. 34. Gentian wine is
still made.

[1458] Thymus tragoriganum of Linnæus. See B. xx. c. 68.

[1459] Origanum dictamnus of Linnæus. See B. xxv. c. 63.

[1460] Asarum Europæum of Linnæus. See B. xii. c. 27.

[1461] Query, if not carrot? See B. xxv. c. 64.

[1462] A variety of salvia or sage: it will be mentioned again, further
on.

[1463] Laserpitium hirsutum of Linnæus. See B. xxv. cc. 11, 12, and 13.

[1464] Acorus calamus of Linnæus. See B. xxv. c. 100.

[1465] See B. xxi. c. 32.

[1466] See B. xxi. c. 31.

[1467] Atrapora mandragora of Linnæus. This wine would act as a
narcotic poison, it would appear.

[1468] Andropogon schœnanthus of Linnæus. See B. xxi. c. 72.

[1469] The origin and meaning of these names are unknown.

[1470] See B. xii. c. 11. Juniperus Lycia, and Juniperus Phœnicea of
Linnæus.

[1471] Cupressus sempervirens of Linnæus.

[1472] Laurus nobilis of Linnæus. See B. xv. c. 39.

[1473] Juniperus communis of Linnæus.

[1474] See B. xiii. c. 12. The Pistacia terebinthus of Linnæus.

[1475] See B. xii. c. 36. The Pistacia lentiscus of Linnæus.

[1476] “Chamelæa.” The Granium Cnidium, Daphne Cnidium, and Daphne
cneorum of Linnæus. See B. xiii. c. 35. Venomous plants, which, taken
internally, would be productive of dangerous results.

[1477] Chamæpitrys. The Teucrium chamæpitrys of Linnæus. See B. xxv. c.
20.

[1478] Chamædrys. The Teucrium chamædrys of Linnæus. See B. xxiv. c.
80. Dioscorides mentions most of these so-called wines.

[1479] Mead, or metheglin. See B. xxii. c. 51.

[1480] There is no ground, Fée says, for this recommendation.

[1481] Stoves are now used for this purpose.

[1482] “Hydromēlum,” on the other hand, made of water and apples, was
the same as our modern cider.

[1483] See B. xxiii. c. 9.

[1484] “Subfervefactis.” “Just come on the boil.”

[1485] The oxymel of modern times contains no salt, and is only used as
a medicament.

[1486] As drinks, no doubt; and with good reason, as to most of them.

[1487] Coactus.

[1488] Our medicinal wines will mostly keep longer than this, owing
probably to the difference in the mode of making the real wines that
form their basis.

[1489] There is little doubt that this is fabulous: wine taken in
excess, we know, is productive of loss of the senses, frenzy in the
shape of delirium tremens.

[1490] This is not unlikely; for, as Fée remarks, the red wines,
containing a large proportion of alcohol, act upon the brain and
promote sleep, while the white wines, charged with carbonic gas, are
productive of wakefulness.

[1491] Or healing vine. See B. xxiii. c. 11.

[1492] “Libanios.” Probably incense was put in this wine, to produce
the flavour.

[1493] From ἀ, “not,” and σπένδειν, “to make libation.”

[1494] See c. 9 of this Book. It was introduced, probably, from Thasos.

[1495] From ἐκβάλλω, “to eject.”

[1496] Apothecis.

[1497] He alludes to the working of wines in periods of extreme heat;
also in the spring.

[1498] Of our modern wines, Madeira and Bourdeaux improve by being
carried across sea. Burgundy, if any thing, deteriorates, by the
diminution of its bouquet.

[1499] After the grapes had been trodden and pressed, the husks were
taken out and their edges cut, and then again subjected to pressure:
the result was known as “tortivum,” or “circumcisivum,” a wine of very
inferior quality.

[1500] He alludes to the young shoots, which have an agreeable acidity,
owing to acetic and tartaric acids.

[1501] Acetic acid; the result, no doubt, of the faulty mode of
manufacture universally prevalent; their wines contained evidently but
little alcohol.

[1502] See B. xxiii. c. 24, and B. xxxvi. c. 48.

[1503] A process very likely, as Fée remarks, to turn the wines
speedily to vinegar.

[1504] Down to one-third. This practice of using boiled grape-juice as
a seasoning, is still followed in Spain in making some of the liqueurs;
but it is not generally recommended.

[1505] B. xvi. c. 21.

[1506] Asia Minor, namely.

[1507] B. xiii. c. 12.

[1508] B. xii. c. 37.

[1509] It produces but a very minute quantity of resin, which is no
longer an article of commerce.

[1510] See B. xiii. c. 11, and B. xvi. c. 21. Not the cedar of Lebanon,
probably, which only gives a very small quantity of resin, but one of
the junipers.

[1511] Fée suggests that this may have been the resin of the Arabian
terebinth.

[1512] See B. xxiv. c. 22.

[1513] Perhaps from the Pistacia terebinthus of Linnæus.

[1514] This was made from the terebinth: but the modern resin of
Colophon is extracted from varieties of the coniferæ.

[1515] See B. xxiv. c. 22.

[1516] Earths are not soluble in oils.

[1517] As being a mark of extreme effeminacy.

[1518] The greater the quantity of alcohol, the more resin the wine
would be able to hold in solution.

[1519] See B. xvi. c. 22.

[1520] “Crapula” properly means head-ache, and what is not uncommonly
known as “seediness.” Resined wine was thought to be productive of
these effects, and hence obtained the name. This kind of wine was used
itself, as we see above, in seasoning the other kinds. Fée remarks,
that in reality resins have no such effect as imparting body to weak
wines.

[1521] The whole of this passage is hopelessly corrupt, and we can only
guess at the meaning.

[1522] We have already stated that “vappa” is properly vinegar, which
has been exposed to the air and has lost its flavour. In this fresh
chemical change, which he calls a second fermentation, the wine becomes
vinegar; and probably in the cases he mentions, for some peculiar
reason, its speedy transition to “vappa” could not be arrested.

[1523] Mixed with water, it was the “posca,” or common drink of the
Roman soldiers; and it was used extensively both by Greeks and Romans
in their cooking, and at meals.

[1524] In c. 24.

[1525] By the mixture of ashes, Fée says, the wines would lose their
colour, and have a detestable alkaline flavour.

[1526] A perfect absurdity, Fée remarks.

[1527] B. xvi. cc. 16-23.

[1528] Bitterness, driness, and a disagreeable smell.

[1529] Georg. ii. 498.

[1530] See B. iv. c. 12.

[1531] See B. xii. c. 36.

[1532] See B. xxi. c. 19.

[1533] Bees’ wax, Fée remarks, would not have this effect, but vinegar
vessels would.

[1534] De Re Rust. c. 23.

[1535] The second “squeezings.”

[1536] If the wine is turning to vinegar, subacetate of lead will be
formed.

[1537] They are tartrates, and have no affinity at all with nitre.

[1538] Casks, in fact, similar to those used in France at the present
day. In Spain they use earthen jars and the skins of animals.

[1539] Oblong earthen vessels, used as vats.

[1540] “Ventruosa.” He means “round.”

[1541] As oblong ones, probably.

[1542] While fermenting, and before racking off.

[1543] Flos vini, the Mycoderma vini of Desmazieres, a mould or
pellicule which forms on the surface, and afterwards falls and is held
in suspension.

[1544] Vessels of lead are never used for this purpose at the present
day; as that metal would oxidize too rapidly, and liquids would have
great difficulty in coming to a boil. A slow fire must have been used
by the ancients.

[1545] They were thought to give a bad flavour to the sapa or defrutum.

[1546] A mere puerility, as Fée remarks.

[1547] He does not state the reason, nor does it appear to be known. At
the present day warmed wine is sometimes given to a jaded horse, to put
him on his legs again.

[1548] Though practised by those who wished to drink largely, this was
considered to diminish the flavour of delicate wines.

[1549] See B. xxii. c. 23, and B. xxv. c. 95; also c. 7 of the present
Book. Wine is no longer considered an antidote to cicuta or hemlock.

[1550] See B. xxxvi. c. 42.

[1551] This seems to be the meaning of “lectum;” but the passage is
obscure.

[1552] Tunicam.

[1553] He satirizes, probably, some kind of gymnastic exercises that
had been introduced to promote the speedy passage of the wine through
the body.

[1554] “In vino veritas.”

[1555] Fée remarks that this is one proof that the wine of the ancients
was essentially different in its nature from ours. In our day wine
gives anything but a “pallid” hue.

[1556] “Rapere vitam.”

[1557] See B. xxiii. c. 23.

[1558] Three gallons and three pints!! There must have been some
jugglery in this performance.

[1559] Probably towards those guilty of excesses in wine.

[1560] As Præfectus Urbis.

[1561] Love of drinking.

[1562] The mode of testing whether any “heeltaps” were left or not. It
was this custom, probably, that gave rise to the favourite game of the
cottabus.

[1563] Dr. Middleton, in his Life of Cicero, in his unlimited
partiality for the family, quotes this as an instance of courage and
high spirit.

[1564] According to Paterculus, he was fond of driving about in a
chariot, crowned with ivy, a golden goblet in his hand, and dressed
like Bacchus, by which title he ordered himself to be addressed.

[1565] He alludes to beer, or rather sweet wort, for hops were not
used till the latter part, probably, of the middle ages. Lupines were
sometimes used for flavouring beer.

[1566] Diodorus Siculus says that the Egyptian beer was nearly equal to
wine in strength and flavour.

[1567] See end of B. iii.

[1568] See end of B. vii.

[1569] See end of B. vii.

[1570] See end of B. iii.

[1571] See end of B. x.

[1572] See end of B. xi.

[1573] See end of B. ii.

[1574] Decimus Junius Silanus. He was commissioned by the senate, about
B.C. 146, to translate into Latin the twenty-eight books of Mago, the
Carthaginian, on Agriculture. See B. xviii. c. 5.

[1575] See end of B. x.

[1576] See end of B. vii.

[1577] See end of B. iii.

[1578] See end of B. iii.

[1579] Julius Græcinus. He was one of the most distinguished orators
of his time. Having refused to accuse M. Julius Silanus, he was put to
death A.D. 39. He wrote a work, in two books, on the culture of the
vine.

[1580] He was a contemporary of Celsus and Columella, the latter of
whom states that he wrote a work on a peculiar method of cultivating
the vine. See also B. xvii. c. 18.

[1581] See end of B. viii.

[1582] See end of B. vii.

[1583] See end of B. viii.

[1584] Nothing is known of him. He may possibly have written on
Husbandry, and seems to have spoken in dispraise of the son of Cicero.
See c. 28 of the present Book.

[1585] The famous Roman Comic poet, born B.C. 184. Twenty of his
comedies are still in existence.

[1586] For Alfius Flavius, see end of B. ix.; for Cneius Flavius, see
end of B. xii.

[1587] Or Dorsenus Fabius, an ancient Comic dramatist, censured by
Horace for the buffoonery of his characters, and the carelessness of
his productions. In the 15th Chapter of this Book, Pliny quotes a line
from his _Acharistio_.

[1588] Q. Mutius Scævola, consul B.C. 95, and assassinated by C.
Flavius Fimbria, having been proscribed by the Marian faction. He wrote
several works on the Roman law, and Cicero was in the number of his
disciples.

[1589] Sextus Ælius Pætus Catus, a celebrated jurisconsult, and consul
B.C. 198. He wrote a work on the Twelve Tables.

[1590] See end of B. iii.

[1591] Son of Corvinus Messala. He appears to have been a man of bad
repute: of his writings nothing seems to be known.

[1592] See end of B. ii.

[1593] A freedman of Pompey, by whose command he translated into Latin
the work of Mithridates on Poisons. After Pompey’s death, he maintained
himself by keeping a school at Rome.

[1594] For Fabianus Papirius, see end of B. ii. Fabianus Sabinus is
supposed to have been the same person.

[1595] See end of B. xii.

[1596] He is mentioned by the elder Seneca, but nothing whatever is
known of him.

[1597] See end of B. vii.

[1598] See end of B. iii.

[1599] See end of B. ii.

[1600] See end of B. ii.

[1601] See end of B. viii.

[1602] See end of B. viii.

[1603] See end of B. viii.

[1604] See end of B. iv.

[1605] See end of B. viii.

[1606] See end of B. viii.

[1607] See end of B. viii.

[1608] See end of B. viii.

[1609] See end of B. viii.

[1610] See end of B. viii.

[1611] See end of B. viii.

[1612] See end of B. viii.

[1613] See end of B. xiii.

[1614] See end of B. viii.

[1615] See end of B. vi.

[1616] See end of B. viii.

[1617] Supposed to have been a writer on Agriculture, but nothing
further is known of him.

[1618] See end of B. viii.

[1619] See end of B. viii.

[1620] See end of B. ii.

[1621] See end of B. x.

[1622] See end of B. viii.

[1623] See end of B. viii.

[1624] See end of B. viii.

[1625] See end of B. viii.

[1626] See end of B. xii.

[1627] See end of B. viii.

[1628] See end of B vii.

[1629] See end of B. ii.

[1630] See end of B. v.

[1631] Hist. Plant. iv. c.

[1632] The Olea Europæa of Linnæus. See B. xxi. c. 31.

[1633] This has not been observed to be the fact. It has been known to
grow in ancient Mesopotamia, more than one hundred leagues from the sea.

[1634] It is supposed that it is indigenous to Asia, whence it was
introduced into Africa and the South of Europe. There is little doubt
that long before the period mentioned by Pliny, it was grown in Africa
by the Carthaginians, and in the South of Gaul, at the colony of
Massilia.

[1635] This work of Hesiod is no longer in existence; but the assertion
is exaggerated, even if he alludes to the growth of the tree from seed.
Fée remarks that a man who has sown the olive at twenty, may gather
excellent fruit before he arrives at old age. It is more generally
propagated by slips or sets. If the trunk is destroyed by accident, the
roots will throw out fresh suckers.

[1636] This is the case. We may remark that the tree will grow in this
country, but the fruit never comes to maturity.

[1637] Georg. ii. 85, also ii. 420.

[1638] Probably the Olea maximo fructu of Tournefort. It has its name
from the Greek ὄρχις the “testis,” a name by which it is still known in
some parts of Provence.

[1639] Or “shuttle” olive. Probably the modern pickoline, or long olive.

[1640] Probably the Olea media rotunda præcox of Tournefort. It is
slightly bitter.

[1641] This is so much the case, that though the olives of Spain and
Portugal are among the finest, their oils are of the very worst quality.

[1642] It does not appear that the method of preparing oil by the use
of boiling water was known to the ancients. Unripe olives produce an
excellent oil, but in very small quantities. Hence they are rarely used
for the purpose.

[1643] Called “virgin,” or “native” oil in France, and very highly
esteemed.

[1644] Sporta.

[1645] “Exilibus regulis.” A kind of wooden strainer, apparently
invented to supersede the wicker, or basket strainer.

[1646] It is more insipid the riper the fruit, and the less odorous.

[1647] By absorbing the oxygen of the air. It may be preserved two or
three years even, in vessels hermetically closed. The oil of France
keeps better than any other.

[1648] As well as the grape.

[1649] In consequence of the faulty mode of manufacture, the oil of
Italy is now inferior to that of France. The oil of Aix is particularly
esteemed.

[1650] In Campania. See B. xvii. c. 3. Horace and Martial speak in
praise of the Venafran olive. Hardouin suggests that Licinius Crassus
may have introduced the Licinian olive.

[1651] The heat of Africa is unfavourable to the olive.

[1652] The fæces, marc, or lees. This is a crude juice contained in the
cellular tissue of the fruit, known as _viridine_ or _chlorophylle_.

[1653] This is owing, Fée says, to a sort of fermentation, which alters
the tissue of the cells containing the oil, displaces the constituent
elements, and forms others, such as mucus, sugar, acetic acid,
ammoniac, &c. When ripe, the olive contains four oils; that of the
skin, the flesh, the stone, and the kernel.

[1654] In B. xii. c. 60.

[1655] See B. xviii. c. 74.

[1656] 16th of September.

[1657] De Causis, B. i. c. 23.

[1658] This cannot possibly _increase_ the oil, but it would render it
more fluid, and thereby facilitate its escape from the cells of the
berry.

[1659] But Cato, Re Rust. c. 144, adds the very significant words,
“injussu domini aut custodis.” “Without the leave of the owner or the
keeper.”

[1660] It is found that the olive, after an abundant season, will not
bear in the following year; probably the result of exhaustion.

[1661] More commonly spelt “pausia.”

[1662] “Regia.” It is impossible to identify these varieties.

[1663] 8th of February.

[1664] This assertion of Pliny is not generally true. The large olives
of Spain yield oil very plentifully.

[1665] Probably a member of the variety known to naturalists as the
Olea fructu majori, carne crassâ, of Tournefort, the royal olive or
“triparde” of the French. The name is thought to be from the Greek
φαῦλος, the fruit being considered valueless from its paucity of oil.

[1666] There are but few olive-trees in either Egypt or Decapolis at
the present day, and no attempts are made to extract oil from them.

[1667] “Carnis.” He gives this name to the solid part, or pericarp.

[1668] See B. iii. c. 9.

[1669] These methods are not now adopted for preserving the olive. The
fruit are first washed in an alkaline solution, and then placed in salt
and water. The colymbas was so called from κολυμβάω, “to swim,” in its
own oil, namely. Dioscorides descants on the medicinal properties of
the colymbades. B. i. c. 140.

[1670] There are several varieties known of this colour, and more
particularly the fruit of the Olea atro-rubens of Gouan.

[1671] The Spanish olive, Hardouin says. Fée thinks that the name
“superba,” “haughty,” is given figuratively, as meaning rough and
austere.

[1672] The olives of the present Merida, in Spain, are of a rough,
disagreeable flavour.

[1673] This seems to be the meaning of “pinguis;” but, as Fée observes,
salt would have no such effect as here stated, but would impart a
disagreeable flavour to the oil.

[1674] Fée regards this assertion as quite fabulous.

[1675] It will be stated in B. xxviii. c. 13, to what purposes this
abominable collection of filth was applied.

[1676] 15th of July. He alludes to the inspection of the Equites, which
originally belonged to the Censors, but afterwards to the Emperors.
On this occasion there was “recognitio,” or “review,” and then a
“transvectio,” or “procession” of the horsemen.

[1677] The ovation was a lesser triumph, at which the general entered
the city not in a chariot, but on foot. In later times, however, the
victor entered on horseback: and a wreath of myrtle, sometimes laurel,
was worn by him. For further particulars as to the ovation, see c. 38
of the present Book.

[1678] Or “oleaster.”

[1679] De Re Rust. c. 6.

[1680] A middling or even poor soil is chosen for the olive at the
present day.

[1681] Apparently meaning the “white wax” olive.

[1682] In warm countries, a site exposed to the north is chosen: in
colder ones, a site which faces the south.

[1683] See B. xvii. c. 37. This moss has not been identified with
precision; but the leaf of the olive is often attacked by an
_erysiphus_, known to naturalists as the Alphitomorpha communis; but it
is white, not of a red colour.

[1684] Fée queries how any one could possibly eat olives that had been
steeped in a solution of mastich. They must have been nauseous in the
extreme.

[1685] De Re Rust. c. 64.

[1686] “Fracibus.” The opinion of Pliny, that olives deteriorate by
being left in the store-room, is considered to be well founded; the
olives being apt to ferment, to the deterioration of the oil: at the
same time, he is wrong in supposing that the amount of oil diminishes
by keeping the berries.

[1687] “Cortinas.” If we may judge from the name, these vessels were
three-footed, like a tripod.

[1688] There are no good grounds for this recommendation, which is
based on the erroneous supposition that heat increases the oil in the
berry. The free circulation of the air also ought not to be restricted,
as nothing is gained by it. In general, the method of extracting the
oil is the same with the moderns as with the ancients, though these
last did not employ the aid of boiling water.

[1689] Labra.

[1690] A “making,” or “batch.”

[1691] Or “flower.”

[1692] It may be remarked, that in this Chapter Pliny totally confounds
fixed oils, volatile oils, and medicinal oils. Those in the list which
he here gives, and which are not otherwise noticed in the Notes, may be
considered to belong to this last class.

[1693] The oleaster furnishes but little oil, and it is seldom
extracted. The oil is thinner than ordinary olive oil, and has a
stronger odour.

[1694] The Daphne Cneorum and Daphne Cnidium of botanists. See B. xiii.
c. 35, also B. xxiv. c. 82. Fée doubts if an oil was ever made from the
chamelæa.

[1695] See B. xxiii. c. 41: the Ricinus communis of Linnæus, which
abounds in Egypt at the present day. Though it appears to have been
formerly sometimes used for the table, at the present day the oil is
only known as “castor” oil, a strong purgative. It is one of the fixed
oils. The Jews and Abyssinian Christians say that it was under this
tree that Jonah sat.

[1696] A “tick.”

[1697] This method, Fée says, is still pursued in America.

[1698] See B. xiii. c. 2. One of the fixed oils.

[1699] An essential oil may be extracted from either; it is of acrid
taste, green, and aromatic; but does not seem to have been known to the
ancients. The berries give by decoction a fixed oil, of green colour,
sweet, and odoriferous. The oils in general here spoken of by Pliny as
extracted from the laurel, are medicinal oils.

[1700] The Laurus latifolia of Bauhin.

[1701] The Myrtus latifolia Romana of Bauhin. It yields an essential
oil, and by its decoction might give a fixed oil, in small quantity,
but very odoriferous. As boiled with olive oil, he treats it as a
volatile oil.

[1702] See B. xxv. c. 100. This myrtle is the Ruscus aculeatus of
Linnæus.

[1703] See B. xiii. c. 29, and B xxiii. c. 45. A volatile oil might
be extracted from the citrus, if one of the thuyæ, as also from the
cypress.

[1704] See B. xxiii. c. 45. It is a fixed oil, still considerably used
in some parts of Europe.

[1705] From the Greek καρύα, a “walnut.”

[1706] “Pitch oil.” See B. xxiv. c. 11. This would be a volatile oil.

[1707] See B. xxiii. c. 45, also B. xiii. c. 35. Fée is of opinion,
that as no fixed oil can be extracted from the Daphne Cnidium or Daphne
Cneorum, Pliny must allude to a medicinal composition, like the oil of
wild myrtle, previously mentioned.

[1708] A fixed oil. See B. xii. c. 36. The seeds were used for making
it. See B. xxiii. c. 45.

[1709] See B. xii. c. 51, and B. xxiii. c. 45. The leaves of the
Lawsonia are very odoriferous.

[1710] The myrobalanus, or ben. See B. xii. c. 46, and B. xxiii. c. 46.

[1711] Neither the chesnut nor rice produce any kind of fixed oil.

[1712] See B. xvii. c. 13.

[1713] Or Fish-eaters. See B. xxxii. c. 38. This is one of the fixed
oils.

[1714] In reality, no fixed oil can be obtained from them.

[1715] Or wild vine. See B. xii. c. 61, and B. xiii. c. 2.

[1716] Not an oil, so much as a medicinal preparation. Dioscorides
mentions as component parts of it, omphacium, sweet rush, Celtic nard,
aspalathus, costus, and must. It received its name from γλεῦκος “must.”

[1717] The Convolvulus scoparius of Linnæus. See B. xii. c 52, and B.
xiii. c. 2.

[1718] See B. xii. c. 48.

[1719] See B. xii. c. 54, and B. xiii. c. 2.

[1720] See B. xii. c. 29.

[1721] See B. xii. c. 57.

[1722] See B. xiii. c. 2, p. 163.

[1723] See B. xii. c. 41.

[1724] See B. xiii. c. 2.

[1725] Fée doubts the possibility of such a resemblance.

[1726] Hyoscyamus. A medicinal oil is still extracted from it. See B.
xxiii. c. 49.

[1727] This medicinal oil is no longer used. The Lupinus albus was
formerly held in greater esteem than it is now.

[1728] The Raphanus sativus of Linnæus. See B. xix. c. 26. This is one
of the fixed oils; varieties of it are rape oil, and colza oil, now so
extensively used.

[1729] From the Greek χόρτος, “grass.” This medicinal oil would be
totally without power or effect.

[1730] A fixed oil is still extracted in Egypt from the grain known as
sesamum.

[1731] See B. xxii. c. 15.

[1732] From κνίδη, a “nettle.” The nettle, or Urtica urens of Linnæus,
has no oleaginous principles in its seed.

[1733] Lily oil is still used as a medicinal composition: it is made
from the petals of the white lily, Lilium candidum of Linnæus.

[1734] From Selga, a town of Pisidia. See B. xxiii. c. 49.

[1735] See B. iii. c. 9, and B. xxiii. c. 49.

[1736] A volatile oil, mixed with a small proportion of empyreumatic
oil and carbon.

[1737] “Oil-honey.” Probably a terebinthine, or oleo-resin. See B.
xxiii. c. 50.

[1738] When rancid and oxygenized by age, it has an irritating quality,
and may be found useful for herpetic diseases.

[1739] It very probably will have this effect; but at the expense of
the colour of the ivory, which very soon will turn yellow.

[1740] It has quite lost its ancient repute: the only use it is now put
to is the manufacture of an inferior soap. See B. xxiii. c. 37.

[1741] De Re Rust. cc. 130, 169.

[1742] Dolia and cadi. Fée observes, that this, if done with the modern
vessels, would have a tendency to make the oil turn rancid.

[1743] On the contrary, Fée is inclined to think it would attract them,
from its mucilaginous properties.

[1744] Olive oil, however, has a tendency to generate verdigrease in
copper vessels.

[1745] This, as Fée remarks, is probably so absurd as not to be worth
discussing.

[1746] Re Rust. B. i. c. 2.

[1747] If she happens to have destroyed the buds, but not otherwise.

[1748] The Pinus cembro, probably, of Linnæus.

[1749] See B. xvi. c. 23. The nuts of the pine are sweet, and have an
agreeable flavour.

[1750] Probably the wild pine, the Pinus silvestris of the moderns. The
nuts are slightly resinous.

[1751] Neither the people of Turin nor of any other place are known at
the present day to make this preparation.

[1752] The quince, the Pirus Cydonia of Linnæus.

[1753] From Cydonia, a city of Crete. The Latin name is only a
corruption of the Greek one: in England they were formerly called
“melicotones.”

[1754] Or “golden apple.” The quince was sacred to Venus, and was an
emblem of love.

[1755] Apparently meaning the “sparrow quince.” Dioscorides, Galen,
and Athenæus, however, say that it was a large variety. Qy. if in such
case, it might not mean the ostrich quince?

[1756] “Early ripener.”

[1757] Quinces are not grafted on quinces at the present day, but the
pear is.

[1758] Fée suggests that this is a kind of pear.

[1759] Probably on account of the fragrance of their scent.

[1760] We learn from other sources that the bed-chambers were
frequently ornamented with statues of the divinities.

[1761] The Mala cotonea silvestris of Bauhin; the Cydonia vulgaris of
modern botanists.

[1762] “Mala.” The term “malum,” somewhat similar to “pome” with us,
was applied to a number of different fruits: the orange, the citron,
the pomegranate, the apricot, and others.

[1763] Or peach.

[1764] See B. xiii. c. 34.

[1765] Or “pound-weight” pears: the Pirus volema of Linnæus.

[1766] Or “hard-berry”—probably in reference to the firmness of the
flesh. It is generally thought to be the nectarine.

[1767] “Præcocia.” It is generally thought that in this name originates
the word “apricot,” the Prunus Armeniaca of Linnæus. There is, however,
an early peach that ripens by the middle of July, though it is very
doubtful if it was known to Pliny.

[1768] “From above.”

[1769] Perhaps the Prunus ungarica of naturalists, the black damask
plum; or else the Prunus perdrigona, the perdrigon.

[1770] Probably the Prunus galatensis of naturalists.

[1771] “Hordearia:” the Prunus præcox of naturalists; probably our
harvest plum.

[1772] Or “ass”-plum. The Prunus acinaria of naturalists: the cherry
plum of the French.

[1773] Or “wax plum.” The Prunus cereola of naturalists: the mirabelle
of the French.

[1774] Possibly the Prunus enucleata of Lamarck: the myrobalan of the
French. Many varieties, however, are purple.

[1775] There are two opinions on this: that it is the Prunus Claudiana
of Lamarck, the “Reine Claude” of the French; or else that it is
identical with the apricot already mentioned, remarkable for the
sweetness of its smell.

[1776] Or nut-prune.

[1777] The Prunus insititia of Linnæus.

[1778] The result of this would only be a plum like that of the tree
from which the graft was cut.

[1779] The same as with reference to the graft on the apple.

[1780] This is probably quite fabulous.

[1781] B. xiii. c. 10.

[1782] The Prunus Damascena of the naturalists; our common damson, with
its numerous varieties.

[1783] Probably the Cordia myxa of Linnæus; the Sebestier of the
French. It has a viscous pulp, and is much used as a pectoral. It grows
only in Syria and Egypt; and hence Fée is inclined to reject what Pliny
says as to its naturalization at Rome, and the account he gives as to
its being engrafted on the sorb.

[1784] _I. e._ Asia Minor.

[1785] Hospitium.

[1786] See B. xiii. c. 17. The Balanites Ægyptiaca of Delille.

[1787] It was this probably, and not the peach-tree, that would not
bear fruit in the isle of Rhodes.

[1788] Perseus.

[1789] Fée remarks that the wild plum, the Prunus silvestris or
insititia of Linnæus, was to be found in Italy before the days of Cato.

[1790] See B. xii. c. 7.

[1791] Of Media.

[1792] Its fruit will ripen in France, as far north as Tours. It is
the Zizyphus vulgaris of Lamarck. It resembles a small plum, and is
sometimes used as a sweetmeat. The confection sold as jujube paste is
not the dried jelly of this fruit, but merely gum arabic and sugar,
coloured.

[1793] A variety of the jujube, Fée is inclined to think. A nut-peach
has also been suggested.

[1794] A.U.C. 779.

[1795] Or perhaps embankment: “agger.”

[1796] A reddish colour. For the composition of this colour, see B.
xxxv. c. 24.

[1797] “Lanata;” perhaps rather the “downy” fruit; a variety of quince,
Fée thinks. Pliny probably had never seen this fruit, in his opinion,
and only speaks after Virgil, Ecl. ii. l. 51. “Ipse ego cana legam
tenera lanugine mala.”

[1798] See B. xii. c. 6. The Matian and the Cestian apple are thought
by Dalechamps to have been the French “court-pendu,” or “short stalk.”

[1799] The Scandian is thought to have been a winter pear.

[1800] Adrian Junius takes this to be the “kers-appel” of the Flemish.

[1801] De Re Rust. cc. 7 and 143.

[1802] Dolia.

[1803] Hardouin says that this is the “Pomme d’api” of the French; it
is the “Court-pendu” with Adrian Junius.

[1804] The “Pomme de Saint Thomas,” according to Adrian Junius:
Dalechamps identifies it with the pomme de Granoi. See B. iii. c. 19,
and cc. 17 and 18 of the present Book.

[1805] “Græcula.” So called, perhaps, from Tarentum, situated in Magna
Græcia.

[1806] Twins. This variety is unknown.

[1807] Or “red” apple. The red calville of the French, according to
Hardouin; the Pomme suzine, according to Dalechamps.

[1808] The Girandotte of the French; the appel-heeren of the Dutch.

[1809] The “early ripener.” Dalechamps identifies it with the pomme
Saint Jean, the apple of St. John.

[1810] The Pomme rose, or rose apple, according to Dalechamps.

[1811] Or “erect teat.” The Pomme taponne of the French, according to
Dalechamps.

[1812] Or eunuch. The Passe pomme, or Pomme grillotte of the French.

[1813] Or “leaf apple.” Fée remarks that this occasionally happens, but
the apple does not form a distinct variety.

[1814] The Pomme pannete, according to Dalechamps: the Pomme gelée of
Provence.

[1815] Or “lung” apple. The Pomme folane, according to Dalechamps.

[1816] The Pirus malus of Linnæus, the wild apple, or estranguillon of
the French.

[1817] It is doubtful whether he does not allude here to a peculiar
variety.

[1818] Or “mealy” apples.

[1819] Or “proud” pear. The Petite muscadelle, according to Dalechamps.
Adrian Junius says that it is the water-peere of the Dutch.

[1820] From Crustumium in Italy; the Poire perle, or pearl pear,
according to Dalechamps: the Jacob’s peere of the Flemish.

[1821] The Poire sucrée, or “sugar-pear,” according to Hardouin; the
Bergamotte, according to Dalechamps.

[1822] “Potu.” He would appear to allude to the manufacture of perry.

[1823] The Syrian pear is commended by Martial; it has not been
identified, however.

[1824] The Poire musot, according to Dalechamps. Adrian Junius says
that it is the Engelsche braet-peere of the Flemish.

[1825] The Pirus Pompeiana of Linnæus. Dalechamps identifies it with
the Bon chretien, and Adrian Junius with the Taffel-peere of the
Flemish.

[1826] The “breast-formed.”

[1827] The Pirus Favonia of Linnæus: the Grosse poire muscadelle of the
French.

[1828] The Poire prevost, according to Dalechamps.

[1829] The Poire foré, according to Dalechamps.

[1830] The Saint Thomas’s pear of the Flemish.

[1831] The Poire chat of the French, according to Dalechamps; the
Riet-peere of the Flemish.

[1832] “Like onyx.” The Cuisse-madame, according to Dalechamps.

[1833] The Calveau rosat, according to Dalechamps. Perhaps the Poire
d’ambre, or amber pear, of the French.

[1834] The Poire d’argent, or silver pear, according to Dalechamps.

[1835] Or “barley pear.” The Poire de Saint Jean, according to
Dalechamps; the musquette or muscadella, according to Adrian Junius.

[1836] Barley-harvest.

[1837] So called from its resemblance to the “ampulla,” a big-bellied
vessel with a small neck, identified with the Poire d’angoisse by
Dalechamps.

[1838] The Poire de jalousie, according to Dalechamps.

[1839] Or gourd-pear. This is the “isbout” according to Adrian Junius,
the Poire courge of Dalechamps, and the Poire de sarteau, or de campane
of others.

[1840] The Poire de Venus, according to Adrian Junius; the Poire
acciole, according to Dalechamps.

[1841] Coloured pear.

[1842] “Regium.” The Poire carmagnole, according to Dalechamps; the
Mispeel-peere of the Flemish, according to Adrian Junius.

[1843] The Poire sarteau, according to Dalechamps.

[1844] Georgics, ii. 87.

[1845] “A handful”—probably the pound or pounder pear: the Bergamotte,
according to Hardouin; the Bon chretien of summer, according to Adrian
Junius.

[1846] De Re Rust. c. 7.

[1847] Or “Seedling.”

[1848] The “early ripener.” Fée suggests that this may be a variety of
the Bon chretien.

[1849] Georgics, ii. 69. This statement of Virgil must be regarded
as fabulous; grafting being impracticable with trees not of the same
family, and not always successful even then.

[1850] This was probably some superstition taught by the augurs for the
purpose of enveloping their profession in additional mystery and awe.

[1851] Cadis.

[1852] He probably alludes here to cider and perry. See p. 300, and B.
xxiii. c. 62.

[1853] “Pulmentarii vicem;” properly “a substitute for pulmentarium,”
which was anything eaten with bread, such as meat, vegetables, &c.
He alludes to marmalade. The French raisine is a somewhat similar
preparation from pears and quinces boiled in new wine.

[1854] “Specularibus.” He alludes to windows of transparent stone,
lapis specularis, or mica; windows of glass being probably unknown
in his time. The ordinary windows were merely openings closed with
shutters. See B. xxxvi. c. 45.

[1855] He must allude to a kind of quince marmalade.

[1856] As Fée remarks, the fruit, if treated thus, would soon lose all
the properties for which it is valued.

[1857] De Re Rust. B. i. c. 59.

[1858] A faulty proceeding, however dry it may be.

[1859] This fruit, Fée remarks, keeps but indifferently, and soon
becomes soft, vinous, and acid.

[1860] An absurd superstition.

[1861] A method not unlikely to spoil the grape, from the difficulty of
removing the coat thus given to it.

[1862] A very absurd notion, as Fée observes. To keep fruit in millet
is also condemned.

[1863] Which, of course, must deteriorate the flavour of the grape.

[1864] It is doubtful if they will increase in size, when once plucked.

[1865] The modern authorities recommend the precisely opposite plan.

[1866] As absurd as the use of the bulb of squill.

[1867] In a pit two feet deep, &c. See above.

[1868] Capsæ.

[1869] See B. xxi. c. 49.

[1870] De Re Rust. B. xii. c. 43.

[1871] These must make raisins of the sun.

[1872] These must have been perfectly dry, or else they would tend to
rot the grapes or raisins.

[1873] Columella, for instance, B. xii. c. 43.

[1874] The dust is in reality very liable to spoil the fruit, from the
tenacity with which it adheres. In all these methods, little attention
would seem to be paid to the retention of the flavour of the fruits.

[1875] A detestable practice, Fée says, as the oil makes an indelible
mark on the grape, and gives it an abominable flavour. It is the best
method to put the fruit in bags of paper or hair.

[1876] See B. xiii. c. 19.

[1877] There are about forty varieties now known.

[1878] B. xiii. c. 14, 15. These are the Ficus sycomorus of Linnæus.

[1879] In Troas; called the Alexandrian fig, from the city of
Alexandria there. Fée doubts if this was really a fig, and suggests
that it might be the fruit of a variety of Diospyros.

[1880] No fig-tree now known is destitute of this.

[1881] Fée treats this as an exaggeration.

[1882] From “mamilla,” a teat.

[1883] In Egypt. The Figue servantine, or cordeliere.

[1884] “Delicata.” The “bon-bouche.”

[1885] Fée suggests that this may have been the small early fig.

[1886] From Livia, the wife of Augustus.

[1887] From Pompeius Magnus.

[1888] Apparently meaning the “marsh” fig.

[1889] The Laconian reed, Theophrastus says, B. iv. c. 12.

[1890] The “white-wax” fig.

[1891] Fée queries whether it may not be the Grosse bourjasotte.

[1892] Or “people’s” fig. The small early white fig.

[1893] Or “swallow”-fig.

[1894] Or it may mean “white and black,” that being the colour of the
fig. Such a variety is still known.

[1895] A Spanish variety; those of the south of Spain are very highly
esteemed.

[1896] The modern “black” fig.

[1897] The sun of the former year.

[1898] In Mœsia—the present Servia and Bulgaria.

[1899] Another war is said to have originated in this fruit. Xerxes was
tempted by the fine figs of Athens to undertake the invasion of Greece.

[1900] “Tertium ante diem.” In dating from an event, the Romans
included both days in the computation; the one they dated _from_, and
the day _of_, the event.

[1901] In sending for the fig, and thinking of this method of speaking
to the feelings of his fellow-countrymen.

[1902] A place in the Forum, where public meetings were held, and
certain offences tried.

[1903] He alludes to the Puteal, or enclosed space in the Forum,
consecrated by Scribonius Libo, in consequence of the spot having been
struck by lightning.

[1904] On the banks of the Tiber, below the Palatine Mount. The whole
of this passage is in a most corrupt state, and it is difficult to
extract a meaning from it.

[1905] By slips from the old tree, as Tacitus seems to say—“in novos
fœtus revivisceret.”

[1906] At the foot of the Capitoline Hill.

[1907] Probably near where the Curtius Lacus had stood in the early
days of Rome. The story of Metius Curtius, who leaped into the yawning
gulph in the Forum, in order to save his country, is known to every
classical reader.

[1908] The Forum.

[1909] See B. xix. c. 6.

[1910] The Ficus Carica of Linnæus. It _does_ bear fruit, though small,
and disagreeable to the taste.

[1911] This insect is one of the Hymenoptera; the Cynips Psenes of
Linnæus and Fabricius. There is another insect of the same genus, but
not so well known.

[1912] Fée observes that the caprification accelerates the ripeness of
the fruit, but at the expense of the flavour. For the same purpose the
upper part of the fig is often pricked with a pointed quill.

[1913] “Infantiam pomi”—literally, “the infancy of the fruit.”

[1914] Fée denies the truth of this assertion.

[1915] Frumenta.

[1916] A mixture of the sugar of the fruit with the milky juice of the
tree, which is a species of caoutchouc.

[1917] Capsis.

[1918] See B. iii. c. 11. The Balearic Isles still produce great
quantities of excellent dried figs.

[1919] See B. iii. c. 17.

[1920] Orcæ.

[1921] Cadi.

[1922] Ground, perhaps, into a kind of flour.

[1923] Opsonii vicem. “Opsonium” was anything eaten with bread, such as
vegetables, meat, and fish, for instance.

[1924] De Re Rust. c. 56.

[1925] Because they would be sure, under any circumstances, to eat
plenty of them.

[1926] See B. xiii. c. 10.

[1927] These were so called from Caunus, a city of Caria, famous
for its dried figs. Pronounced “Cavneas,” it would sound to the
superstitious, “Cave ne eas,” “Take care that you go not.”

[1928] At Brundisium.

[1929] A.U.C. 801.

[1930] Alba Longa. See B. iii. c. 9.

[1931] The sorb belongs to the genus pirus of the naturalists.

[1932] The Mespilus germanica of the botanists.

[1933] The azarolier, a tree of the south of Europe, the Mespilus apii
folio laciniato of C. Bauhin.

[1934] The Mespilus Italica folio laurino serrato of C. Bauhin, the
Mespilus cotoneaster of J. Bauhin.

[1935] Its identity is matter of uncertainty; but it has been thought
to be the Cratægus oxyacantha of modern botanists.

[1936] By “amplissimus,” he must mean that it spreads out very much in
proportion to its height, as it is merely a shrub.

[1937] Fée thinks it a tree indigenous to the north.

[1938] The ordinary sorb-apple of horticulturists.

[1939] The sorb-pear.

[1940] Varying but little, probably, from the common sorb, the Sorbus
domestica of Linnæus.

[1941] Fée is inclined to think that it is the Sorbus terminalis of
Lamarck. Anguillara thinks that it is the Cratægus of Theophrastus,
considered by Sprengel to be identical with the Cratægus azarolus of
Linnæus. In ripening, the fruit of the sorb undergoes a sort of vinous
fermentation: hence a kind of cider made of it.

[1942] De Re Rust. cc. 7 and 145.

[1943] The Juglans regia of Linnæus.

[1944] Tastes have probably altered since this was written.

[1945] These were rude and sometimes obscene songs sung at festivals,
and more particularly marriages. While these songs were being sung at
the door of the nuptial chamber, it was the custom for the husband to
scramble walnuts among the young people assembled there. The walnut is
the nut mentioned in Solomon’s Song, vi. 11.

[1946] Or, more probably, from the union of the two portions of the
inner shell.

[1947] “Tripudium sonivium;” implying that it was considered sacred to
marriage, from the use made of it by the friends of the bridegroom when
thrown violently against the nuptial chamber, with the view of drowning
the cries of the bride. A very absurd notion, to all appearance.

[1948] The “Persian” nut.

[1949] The “king’s” nut. The walnut-tree still abounds in Persia, and
is found wild on the slopes of the Himalaya.

[1950] Implying that it comes from the Greek κάρη, “the head.” Some
etymologists think that it is from the Celto-Scythian _carw_, a boat;
such being the shape of the two parts of the inner shell.

[1951] It is still a common notion, Fée says, that it is highly
injurious to sleep beneath a walnut-tree.

[1952] It is still used for this purpose.

[1953] Red hair was admired by the Romans. The Roman females used this
juice also for dyeing their hair when grey.

[1954] They are not _entirely_ separate.

[1955] The Corylus avellana maxima of Willdenow.

[1956] The filbert, the Corylus tubulosa of Willdenow.

[1957] Abellinum, in Campania. See B. iii. c. 9.

[1958] The down on the nut is more apparent when it is young; but it is
easily rubbed off. The outer coat is probably meant.

[1959] Hazel nuts are sometimes roasted in some parts of Europe, but
not with us.

[1960] The Amygdalus communis of Linnæus.

[1961] De Re Rust. c. 8. Some think that this was the bitter almond;
and the word “acriore,” used by Pliny, would almost seem to imply that
such is the case.

[1962] Apparently the “smooth” or “bald” nut. May not a variety
something like the hickory nut of America be meant?

[1963] Festus says that a kind of nut was so called, because the
Prænestines, when besieged by Hannibal at Casilinum, subsisted upon
them. See Livy, B. xxiii. Fée considers it only another name for the
common hazel nut.

[1964] De Re Rust. c. 145.

[1965] The soft-shelled almond, or princess almond of the French; the
Amygdalus communis fragilis of naturalists.

[1966] This last variety does not seem to have been identified: the
hard-shell almonds do not appear to be larger than the others.

[1967] Or “soft” almond, a variety only of the Amygdalus fragilis.

[1968] There is little doubt that Fée is right in his assertion, that
this great personage imposed on our author; as no trees of this family
are known to bear two crops.

[1969] B. xiii. c. 10.

[1970] In c. xxi. of this Book.

[1971] The tree is the Fagus castanea of Linnæus.

[1972] Cortex.

[1973] The common mode of eating it at the present day. The Italians
also take off the skin and dry the nut; thus keeping it from year to
year. When required for eating, it is softened by the steam of boiling
water.

[1974] Not improbably said in allusion to the fasts introduced by the
Jews, who had become very numerous in Rome.

[1975] It was said to have come from Castana, a city of Pontus, whence
its name “Castanea.” It is probably indigenous to Europe.

[1976] The Greek for “Jove’s acorn.”

[1977] Or “acorn chesnut.” The same variety, Fée says, that is found
in the vicinity of Perigueux, small, nearly round, and without any
particular flavour.

[1978] The Ganebelone chesnut of Perigueux, Fée says, answers to this
description.

[1979] On account of the prickles on the outer shell.

[1980] B. xvii. c. 26.

[1981] Fée says that the royal white chesnut of the vicinity of
Perigueux answers to this.

[1982] “Boiling” chesnuts.

[1983] He alludes to wild or horse chesnuts, probably.

[1984] See B. xiii. c. 16.

[1985] This skin is not eatable. It is fibrous and astringent.

[1986] In B. xvi. c. 6.

[1987] “Acinis.” The grape, ivy-berry, elder-berry, and others.

[1988] “Inter cutem succumque.”

[1989] Baccis. Some confusion is created by the non-existence of
English words to denote the difference between “acinus” and “bacca.”
The latter is properly the “berry;” the grape being the type of the
“acinus.”

[1990] See B. xvi. c. 41. The mulberry is the Morus nigra of modern
naturalists. It is generally thought that this was the only variety
known to the ancients; but Fée queries, from the story of Pyramus and
Thisbe, which represents the mulberry as changing from white to blood
colour, that the white mulberry was not unknown to them; but through
some cause, now unknown, was gradually lost sight of.

[1991] This is still the case with the mulberry.

[1992] See B. xvi. c. 71, and B. xxiv. c. 73. He alludes to the
blackberry.

[1993] The common strawberry, the Fragaria vesca of Linnæus. See B.
xxi. c. 50. A native of the Alps and the forests of Gaul, it was
unknown to the Greeks.

[1994] The Arbutus unedo of Linnæus. It is one of the ericaceous
trees, and its fruit bears a considerable resemblance to the
strawberry—otherwise there is not the slightest affinity between
them. The taste of the arbute is poor indeed, compared to that of the
strawberry.

[1995] He suggests that it is so called from “unum edo,” “I eat but
one;” a rather fanciful etymology, it would seem.

[1996] This supposition is not warranted, from merely the fact of there
being two names.

[1997] See B. xvi. c. 52.

[1998] See B. xxiv. c. 35.

[1999] See B. xiii. c. 34.

[2000] “Baccis.” Berries, properly so called.

[2001] The Celtis Australis of Linnæus.

[2002] Supposed by some to be the holly. See B. xxv. c. 72.

[2003] He alludes to a variety of the cratægus.

[2004] The Cerasus vulgaris of modern botanists. It is said to have
obtained its name from Cerasus, in Asia Minor, where Lucullus found it.

[2005] He must allude to what he has stated in B. xii. c. 3, for he has
nowhere said that the cherry will not grow in Egypt. It is said that
the cherry is not to be found in Egypt at the present day.

[2006] The griotte cherry of the French, the mazzard of the English.

[2007] A variety of the mazzard, Fée thinks.

[2008] Some take this for the Cerasus Juliana, the guignier of the
French, our white heart; others, again, for the merisier, our morello.

[2009] It is most generally thought that this is the Cerasus avium of
botanists, our morello, which is a very tender cherry.

[2010] Or “hard berry,” the Prunus bigarella of Linnæus, the red
bigaroon.

[2011] Fée queries whether it may not have received its name of
“Pliniana” in compliment to our author, or one of his family.

[2012] Hardouin thinks that this Portuguese cherry is the griotte, or
mazzard.

[2013] No such cherry is known at the present day.

[2014] Such a graft is impossible; the laurel-cherry must have had some
other origin.

[2015] Fée suggests that this may be the early dwarf cherry.

[2016] Or “ground-cherry;” a dwarf variety, if, indeed, it was a
cherry-tree at all, of which Fée expresses some doubt.

[2017] This explains, Fée says, why it will not grow in Egypt.

[2018] The Cornus mas of Linnæus. The fruit of the cornel has a tart
flavour, but is not eaten in modern Europe, except by school-boys.

[2019] That produces mastich. See B. xii. c. 36.

[2020] He alludes more especially, perhaps, to the use of cicuta or
hemlock by drunkards, who looked upon it as an antidote to the effects
of wine. See B. xiv. c. 7.

[2021] Fée remarks, that in this enumeration there is no method.
Linnæus enumerates eleven principal flavours in the vegetable
kingdom—dry or insipid, aqueous, viscous, salt, acrid, styptic, sweet,
fat, bitter, acid, and nauseous; these terms, however seem, some of
them, to be very indefinite.

[2022] It requires considerable discernment to appropriate nicely its
English synonym to these four varieties of tastes, “acer, acutus,
acerbus, and acidus,” more especially when we find that the “bitter”
and the “rough” are occupied already by the “amarus” and the “austerus.”

[2023] In allusion, probably, to the pungency of the aroma or bouquet.

[2024] Lenitate.

[2025] This seems to be the meaning of “succus.”

[2026] The “insipid.”

[2027] This is so much the case, that the most nauseous medicine may
be taken almost with impunity—so far as taste is concerned—by tightly
pressing the nostrils while taking it.

[2028] Fée remarks that this is true of fire, and of distilled or
perfectly pure water; but that physiologists are universally agreed
that the air has its own peculiar smell.

[2029] All fruits that are rich in sugar and amidine, Fée says, either
have, or acquire in time, a vinous flavour, by the development of a
certain quantity of alcohol.

[2030] In the fruit with a fixed oil, this principle succeeds, when
they are ripe, to the mucilaginous.

[2031] He must mean a thinner juice, though still sweet.

[2032] About the peduncle or stalk of the fig. The juice here, Fée
says, is a real sugar, of the same nature as that which circulates
throughout the whole fruit: the juice in the interior of which is
produced by another order of vessels.

[2033] The juice is only foamy when the vinous fermentation is
established. It has that appearance, however, when the fruit is bitten
with the teeth.

[2034] The “hard-berry,” or nectarine.

[2035] In the sense of aromatic, or penetrating.

[2036] He probably means those of a luscious or sirupy nature, without
any acidity whatever.

[2037] He seems to mean that the thick, luscious wines require longer
keeping, before they will gain any aroma at all. This would be done,
probably, at the expense of their sweetness.

[2038] Or he may mean, that a fine flavour and a fine smell cannot
co-exist.

[2039] The reading here should be “acutissimus,” probably, instead of
“acerrimus.” The odour exists in the rind of the citron and in the
outer coat of the quince; if these are removed, the fruit becomes
inodorous.

[2040] “Tenuis.” He may possibly mean “faint.”

[2041] The fruit of the ben, or myrobalanus, the Balanites Ægyptiaca.
See B. xiii. cc. 17 and 19.

[2042] Vitium.

[2043] Hard-berry or nectarine. See c. 11.

[2044] Lignum: literally, “wood.” “There is no wood, either within
or without.” He has one universal name for what we call shell, seed,
stones, pips, grains, &c.

[2045] The “spado,” or “eunuch” date. See B. xiii. c. 8.

[2046] See B. xiii. c. 17. The fruit of the ben is alluded to, but, as
Fée observes, Pliny is wrong in calling it an almond, as it is a pulpy
fruit.

[2047] The Nymphæa nelumbo of Linnæus.

[2048] Or shell, which, as Fée remarks, participates but very little in
the properties of the flesh.

[2049] Or “honey” apple; see c. 15 of this Book.

[2050] Or “Carian” fig. See c. 19 of this Book.

[2051] See B. xiii. c. 11.

[2052] See B. xiii. c. 42, and B. xx. cc. 9 and 23.

[2053] See B. xiii. c. 26, and B. xxiv. c. 66.

[2054] See B. xiii. c. 22. Fée remarks that it is singular how the
ancients could eat the branches of the fig-tree, the juice being
actually a poison.

[2055] See B. xiii. c. 44.

[2056] See c. 26 of this Book.

[2057] He is wrong: the same is the case with the berries of the
laurel, and, indeed, many other kinds of berries.

[2058] See c. 7 of this Book.

[2059] See B. xiv. c. 9.

[2060] See B. xii. c. 14.

[2061] A kind of sausage, seasoned with myrtle. See also B. xxvii c. 49.

[2062] He means the Acroceraunian chain in Epirus, mentioned in B. iii.

[2063] See B. iii. c. 9.

[2064] He was one of the companions of Ulysses, fabled by Homer and
Ovid to have been transformed by Circe into a swine.

[2065] Μυρσίνη was its Greek name.

[2066] See B. xxv. c. 59.

[2067] See B. xii. c. 2. Ovid, Fasti, B. iv. l. 15, _et seq._, says
that Venus concealed herself from the gaze of the Satyrs behind this
tree.

[2068] Either this story is untrue, or we have a right to suspect that
some underhand agency was employed for the purpose of imposing on the
superstitious credulity of the Roman people.

[2069] Or Social War. See B. ii c. 85.

[2070] Near the altar of Consus, close to the meta of the Circus.

[2071] De Re Rust. c. 8.

[2072] The so-called wild myrtle does not in reality belong to the
genus Myrtus.

[2073] See B. xxiii. c. 83; the Ruscus aculeatus of the family of the
Asparagea.

[2074] The common myrtle, Myrtus communis of the naturalists.

[2075] Or Roman myrtle, a variety of the Myrtus communis.

[2076] The “six row” myrtle. Fée thinks that it belongs to the Myrtus
angustifolia Bœtica of Bauhin.

[2077] De Re Rust. 125.

[2078] See B. xxiii. c. 81.

[2079] A new proof, as Fée remarks, that the ancients had peculiar
notions of their own, as to the flavour of wine; myrtle berries, he
says, would impart to wine a detestable aromatic flavour.

[2080] “Saccis:” the strainer being made of cloth. See B. xiv. c. 28.

[2081] They would be of no assistance whatever, and this statement is
entirely fictitious.

[2082] He may possibly mean hernia.

[2083] In addition to all those particulars, he might have stated that
the Lares, or household gods, were crowned with myrtle, and that it was
not allowed to enter the Temple of Bona Dea.

[2084] A.U.C. 251.

[2085] See the Notes to c. 35 of this Book.

[2086] Because the enemy would be less likely to envy us a bloodless
triumph.

[2087] He disdained the more humble myrtle crown, and intrigued
successfully with the Senate to allow him to wear a wreath of laurel.

[2088] The Senate refused him a triumph; and he accordingly celebrated
one on the Alban Mount, B.C. 231. Paulus Diaconus says that his reason
for wearing a myrtle crown was his victory over the Corsicans on the
Myrtle Plains, though where they were, or what victory is alluded to,
is not known.

[2089] The brother of Valerius Publicola.

[2090] We learn from two passages in Ovid that the laurel was suspended
over the gates of the emperors. This, as Fée remarks, was done for two
reasons: because it was looked upon as a protection against lightning,
and because it was considered an emblem of immortality.

[2091] De Re Rust. 133.

[2092] Or “laurel of Apollo:” it was into this tree that Daphne was
fabled to have been changed. See Ovid’s Met. B. i. l. 557, _et seq._

[2093] Cato, De Re Rust. c. 121, tells us that this cake was made of
fine wheat, must, anise, cummin, suet, cheese, and scraped laurel
sprigs. Laurel leaves were placed under it when baked. This mixture was
considered a light food, good for the stomach!

[2094] At the Pythian Games celebrated there.

[2095] Meaning that it curves at the edge, something like a pent-house.

[2096] Or tine tree, the Viburnum tinus of Linnæus, one of the
caprifolia. It is not reckoned as one of the laurels, though it has
many of the same characteristics.

[2097] Regia.

[2098] The barren laurel of the triumphs was the Laurus nobilis of
Linnæus, which has only male flowers.

[2099] The Laurus vulgaris folio undulato of the Parisian _Hortus_, Fée
says.

[2100] Not a laurel, nor yet a dicotyledon, Fée says, but one of the
Asparagea, probably the Ruscus hypoglossum of Linnæus, sometimes known,
however, as the Alexandrian laurel.

[2101] Or “eunuch” laurel; a variety, probably, of the Laurus nobilis.

[2102] The “ground laurel:” according to Sprengel, this is the Ruscus
racemosus of Linnæus. See B. xxiv. c. 81.

[2103] From Alexandria in Troas: the Ruscus hypophyllum of Linnæus, it
is supposed.

[2104] “The tongue below.” This, Fée justly says, would appear to be a
more appropriate name for the taxa, mentioned above.

[2105] From the berry being attached to the leaf.

[2106] “The thrower out from below,” perhaps.

[2107] Sprengel thinks that it is the Clematis vitalba of Linnæus.
Fuchsius identities it with the Daphne laureola of Linnæus; and Fée
thinks it may be either that or the Daphne mezereum of Linnæus.

[2108] “Crown of Alexander.”

[2109] Curiously enough, it is generally considered now more suggestive
of war than of peace.

[2110] The despatches were wrapped in laurel leaves.

[2111] Optimus Maximus.

[2112] L. Junius Brutus, the nephew of Tarquin. Pliny alludes to the
message sent to Delphi, for the purpose of consulting the oracle on a
serpent being seen in the royal palace.

[2113] He alludes to the circumstance of the priestess being asked who
should reign at Rome after Tarquin; upon which she answered, “He who
first kisses his mother;” on which Brutus, the supposed idiot, stumbled
to the ground, and kissed the earth, the mother of all.

[2114] A mere absurdity; the same has been said of the beech, and with
equal veracity.

[2115] He makes a distinction between “altar” and “ara” here. The
former was the altar of the superior Divinities, the latter of the
superior and inferior as well.

[2116] The crackling of the laurel is caused by efforts of the
essential oil to escape from the parenchyma or cellular tissue of the
leaf, which it breaks with considerable violence when burning.

[2117] Nervorum. See B. xxiii. c. 80.

[2118] Suetonius, c. 66, confirms this. Fée says that the same
superstition still exists in some parts of France. See B. ii. c. 56.

[2119] “The Poultry.”

[2120] See c. 39 of this Book.

[2121] See B. xxxi. c. 3. As Poinsinet remarks, this is not strictly
true; the name “Vinucius” most probably came from “vinea,” a vineyard.
Numerous names were derived also from seeds and vegetables; Piso,
Cicero, and Lactuca, for instance, among a host of others. “Scipio,”
too, means a “walking-stick.”

[2122] The “laurel-grove.”

[2123] See B. xvii. c. 11.

[2124] See end of B. viii.

[2125] See end of B. ii.

[2126] See end of B. vii.

[2127] See end of B. iii.

[2128] See end of B. vii.

[2129] See end of B. iii.

[2130] See end of B. x.

[2131] See end of B. xi.

[2132] See end of B. ii.

[2133] See end of B. xiv.

[2134] See end of B. x.

[2135] See end of B. vii.

[2136] See end of B. iii.

[2137] See end of B. iii.

[2138] See end of B. xiv.

[2139] See end of B. xiv.

[2140] See end of B. viii.

[2141] See end of B. vii.

[2142] See end of B. xiv.

[2143] See end of B. xiv.

[2144] See end of B. ii.

[2145] See end of B. xiv.

[2146] See end of B. xiv.

[2147] See end of B. xii.

[2148] See end of B. xiv.

[2149] See end of B. xiv.

[2150] See end of B. xiv.

[2151] See end of B. iii.

[2152] See end of B. xii.

[2153] See end of B. xiv.

[2154] See end of B. ii.

[2155] See end of B. ii.

[2156] See end of B. viii.

[2157] See end of B. viii.

[2158] See end of B. viii.

[2159] See end of B. iv.

[2160] See end of B. viii.

[2161] See end of B. viii.

[2162] See end of B. viii.

[2163] See end of B. viii.

[2164] See end of B. viii.

[2165] See end of B. viii.

[2166] See end of B. viii.

[2167] See end of B. viii.

[2168] See end of B. viii.

[2169] See end of B. vi.

[2170] See end of B. viii.

[2171] See end of B. xiv.

[2172] He is mentioned also by Varro and Columella, as a writer upon
agriculture; but all further particulars of him are unknown.

[2173] See end of B. viii.

[2174] See end of B. ii.

[2175] See end of B. x.

[2176] See end of B. viii.

[2177] See end of B. viii.

[2178] See end of B. viii.

[2179] See end of B. viii.

[2180] See end of B. xii.

[2181] See end of B. viii.

[2182] See end of B. viii.

[2183] See end of B. vii.

[2184] See end of B. xi.

[2185] Beyond what Pliny here says, nothing is known of him.

[2186] See end of B. xi.

[2187] A physician who lived probably at the end of the first century
B.C. He was a disciple of Erasistratus, and founded a medical school
at Smyrna. He is quoted by Athenæus, and in B. xxvii. c. 14, Pliny
calls him “a physician of no small authority.” He seems to have been a
voluminous writer; but none of his works have survived.

[2188] See end of B. xi.

[2189] See end of B. ii.

[2190] See end of B. v.

[2191] The methods of grafting and inoculation.

[2192] B. xiii. c. 50. They dwelt between the Ems and the Elbe.

[2193] See B. iv. c. 29.

[2194] “Ulvâ.” This appears to be a general name for all kinds of
aquatic fresh-water plants; as “alga” is that of the various sea-weeds.

[2195] He alludes to turf for firing; the Humus turfa of the
naturalists.

[2196] Of course this applies only to those who dwelt near the
sea-shore, and not those more inland.

[2197] Guichardin remarks, that Pliny does not here bear in mind the
sweets of liberty.

[2198] So Laberius says, “Fortuna multis parcere in pœnam solet;”
“Fortune is the saving of many, when she means to punish them.”

[2199] He alludes to the vicinity of the Zuyder Zee. See B. iv. c. 29.
The spots where these forests once stood are now cultivated plains,
covered with villages and other works of the industry of man.

[2200] “Quercus.” We shall see, in the course of this Book, that its
identity has not been satisfactorily established.

[2201] See B. iv. c. 28, and the Note, Vol. i. p. 348. The village of
Hercingen, near Waldsee, is supposed to retain the ancient name.

[2202] “Robora.” It will be seen in this Book that the robur has not
been identified, any more than the quercus.

[2203] Fée treats this story as utterly fabulous. The branches of the
Ficus Indica grow downwards, and so form arcades certainly; but such is
not the case with any European tree.

[2204] Not only oaks, but a variety of other trees, were included under
this name by the ancients; the “glans” embracing not only the acorn,
but the mast of the beech, and the hard fruits of other trees

[2205] He alludes to the crown of oak-leaves, which was suspended on
the gates before the palace of the emperors. A civic crown had been
voted by the senate to Julius Cæsar, on the ground of having saved his
country.

[2206] Given to the first man who scaled the wall of a besieged place.
It was made of gold, and decorated with turrets.

[2207] Given to the first soldier who surmounted the vallum or
entrenchments. It was made of gold, and ornamented with “valli,” or
palisades.

[2208] One of the varieties of the triumphal crown was the “corona
aurea,” or “golden crown.”

[2209] Made of gold, and decorated with the “rostra,” or “beaks” of
ships.

[2210] See B. vii. c. 31.

[2211] The orator’s stage in the Forum was decorated with the “rostra,”
or “beaks” of the ships of the Antiates; hence it received the name of
“Rostrum.” The locality of the Rostra was changed by Julius Cæsar.

[2212] Alluding to the prostitution of the Rostra by the tribunes and
others for the purposes of sedition, and the presentation by Augustus
of the rostrate crown to Agrippa.

[2213] Which was suspended, as already mentioned, at the gate of his
palace.

[2214] Athenæus and Fabius Pictor say that Janus was the first wearer
of a crown; Pherecydes says it was Saturn, Diodorus Siculus Jupiter,
and Leo Ægyptiacus Isis, who wore one of wheat.

[2215] Il. xiii, 736.

[2216] See cc. 34 and 35 of the present Book.

[2217] The Olympian, Pythian, Isthmian, and Nemæan games.

[2218] See B. vii. c. 27.

[2219] He is called Tullus Hostilius by Dionysius of Halicarnassus, the
same as his grandson.

[2220] A.U.C. 411. The leaves of the holm-oak were employed by Romulus
on the occasion above-mentioned.

[2221] These varieties of the oak will be considered in the next
chapter.

[2222] At the Olympic games celebrated in honour of Jupiter. At Olympia
there was a statue of that god, one of the master-pieces of Phidias.

[2223] Implying thereby, that the city that could produce a man who
could so distinguish himself, stood in no need of walls.

[2224] In the Circus.

[2225] In B. vii. c. 29.

[2226] B. vii. c. 29.

[2227] Livy says eight. He saved the life of Servilius, the Master of
the Horse.

[2228] “Glandes.” Under this name, for which we do not appear to have
any English equivalent, were included, as already mentioned, not only
the acorn of the oak, but the nut or mast of the beech, and probably
most of the hard or kernel fruits. In the present instance Pliny
probably alludes only to the fruit of the oak and the beech. Acorns are
but little used as an article of food in these days. Roasted, they have
been proposed as a substitute for coffee.

[2229] The acorn of the Quercus ballota of Linnæus is probably
meant, which is still much used in the province of Salamanca, and
forms an agreeable article of food. This acorn, Fée says, contains a
considerable proportion of saccharine matter, and is better roasted in
the ashes than boiled in water. It is not, however, used as a dessert,
as in the time of the Romans. These acorns are sold at market in
Andalusia in the month of October.

[2230] So far as it goes, the kernel of the mast or beech-nut is not
unpalatable; but in the English beech it is very diminutive.

[2231] The word “quercus” is frequently used as a general name for the
oak; but throughout the present Book it is most employed as meaning a
distinct variety of the oak, one of the larger kinds, Fée says, and
answering to the Quercus racemosa of Lamarck, the Quercus robur of
Linnæus, and the Rouvre of the French.

[2232] This also has been much employed as a general name for the
oak; but here, and in other parts of this Book, it is applied to one
variety. Fée thinks that it answers to the Quercus sessiliflora of
Smith, sometimes also called “rouvre” by the French.

[2233] The Quercus æsculus of Linnæus. It is not improbable that this
oak is a different tree from the “Æsculus” of Horace and Virgil, which
was perhaps either a walnut, or a variety of the beech.

[2234] It has been suggested that this is the same with the Quercus
cerrus of Linnæus, and the Quercus crinita of Lamarck, the gland of
which is placed in a prickly cupule. It is rarely found in France, but
is often to be met with in Piedmont and the Apennines.

[2235] The Fagus silvatica of Lamarck. Its Latin name, “fagus,” is
supposed to have been derived from the Greek φάγω, “to eat.” An oil is
extracted from the acorns or nuts, that is much used in some parts of
France.

[2236] He speaks probably of one of the galls which are found attached
to the leaves of the forest trees.

[2237] “Ilex.” Fée thinks that the varieties known as the Prinos and
the Ballota were often confounded by the ancients with the “ilex” or
“holm-oak.” This tree, he says, bears no resemblance to the ordinary
oak, except in the blossoms and the fruit. It is the Ilex of Linnæus,
the “yeuse,” or “green oak,” of the French.

[2238] The Quercus suber of Linnæus; it is found more particularly in
the department of the Landes in France.

[2239] As Fée remarks, Pliny is clearly in error here; one kind being
the veritable ilex or holm oak, the other, the aquifolium or holly,
quite a different tree.

[2240] The smilax or milax was a real holm oak, but the aquifolia was
the holly.

[2241] Od. xi. 242. Fée remarks that the berry of the holly has no
resemblance to the acorn whatever, and he says that this statement of
Pliny almost leads him to think that the second variety here mentioned
by him was not in reality the holly, but a variety of the quercus.

[2242] Fée observes that, properly speaking, there is no sex in the
oak, the individuals being neither male nor female. The Flora Danica
however, as he observes, gives the name of “Quercus fœmina” to the
Quercus racemosa of Lamarck.

[2243] Or “broad-leaved” oak; one of the varieties of the Quercus
sessiliflora of Smith—_Flor. Brit._

[2244] This statement is contrary to general experience in modern
times, the flavour of the acorn being uniformly acrid and bitter
throughout. It is not impossible, however, that the flavour may have
been more palatable in ancient times.

[2245] A variety of the common oak, the Quercus racemosa of Lamarck;
Sprengel takes it to be the Quercus ballota of Desfontaines.

[2246] The Quercus ægilops of Linnæus. It is a native of Piedmont, some
parts of Italy, and the island of Crete.

[2247] Pliny’s account of making charcoal is derived from Theophrastus,
B. iii. c. 10. Fée remarks that it differs little from the method
adopted in France at the present day.

[2248] The Quercus Hispanica, probably, of Lamarck, of which Fée thinks
the Quercus pseudo-suber of Desfontaines is a variety; it is found in
Greece and on the shores of the Mediterranean, near Gibraltar. The
Greek name signifies the “sea cork-tree.”

[2249] The statement here given as to the effect of beech-mast on
swine, is destitute, Fée remarks, of all foundation. If fed upon it,
their flesh will naturally be of a soft, spongy nature.

[2250] This assertion is perhaps too general; gall-nuts are produced in
very small quantities by the holm-oak.

[2251] A variety of the Quercus racemosa, which produces the green
gall-nut of Aleppo, considered in modern, as in ancient, times the
choicest in quality.

[2252] Theophrastus says the end of June.

[2253] Its growth, in reality, is not so rapid as this.

[2254] Such a thing is never seen at the present day.

[2255] In Syria, we have mentioned the galls of Aleppo in Note [2251].

[2256] This is the case when the inside has been eaten away by the
insect that breeds there; of course, in such case it is hollow, light,
and worthless.

[2257] The ancients were not aware that the gall was produced from the
eggs of the cynips, deposited upon the leaf or bark of the tree. Tan
and gallic acid are its principal component parts.

[2258] A substance quite unknown now; but it is very doubtful if Pliny
is rightly informed here.

[2259] A fungous gall, produced by the Cynips fungosa. It is not used
for any domestic purpose at the present day.

[2260] This kind of gall is now unknown. Fée questions the assertion
about its juice.

[2261] The Cynips quercus baccarum of Linnæus, one of the common galls.

[2262] The root cynips, the Cynips radicum of Fourcroi, produces these
galls, which lie near the root, and have the appearance of ligneous
nodosities. It is harder than wood, and contains cells, in which the
larva of the insect lies coiled up.

[2263] This is a proof, as Fée remarks, that the ancients had observed
the existence of the cynips; though, at the same time, it is equally
evident that they did not know the important part it acts in the
formation of the gall.

[2264] This word, as employed by Theophrastus, means a catkin, the
Julus amentum of the botanists; but it is doubtful if Pliny attaches
this meaning to the word, as the lime or linden-tree has no catkin, but
an inflorescence of a different character. It is not improbable that,
under this name, he alludes to some excrescence.

[2265] These were the “boletus” and the “suillus” the last of which
seem only to have been recently introduced at table in the time of
Pliny. See B. xxii. c. 47.

[2266] He alludes clearly to fungi of radically different qualities,
as the nature of the trees beneath which they grow cannot possibly
influence them, any further than by the various proportions of shade
they afford. The soil, however, exercises great influence on the
quality of the fungus; growing upon a hill, it may be innoxious, while
in a wet soil it may be productive of death.

[2267] See cc. 93, 94, and 95, of this Book.

[2268] Works and Days, l. 230.

[2269] Pliny seems to have here taken in a literal sense, what has been
said figuratively by Virgil, Ecl. iv. l. 26:

  “Et duræ quercus sudabunt roscida mella;”

and by Ovid, in relation to the Golden Age, Met. i. 113:

  “Flavaque de viridi stillabant ilice mella.”

Fée remarks, that we find on the leaf of the lime-tree a thin, sugary
deposit, left by insects, and that a species of manna exudes from the
Coniferæ, as also the bark of the beech. This, however, is never the
case with the oak.

[2270] B. xi. c. 12.

[2271] By this word, Fée observes, we must not understand the word
“nitre,” in the modern sense, but the sub-carbonate of potash;
while the ashes of trees growing on the shores of the sea produce a
sub-carbonate of soda.

[2272] “Coccus.” This is not a gall, but the distended body of an
insect, the kermes, which grows on a peculiar oak, the “Quercus
coccifera,” found in the south of Europe.

[2273] We have previously mentioned, that he seems to have confounded
the holly with the holm oak.

[2274] Poinsinet, rather absurdly, as it would appear, finds in this
word the origin of our word “cochineal.”

[2275] The kermes berry is but little used in Spain, or, indeed,
anywhere else, since the discovery of the cochineal of America.

[2276] B. ix. c. 65.

[2277] Not the white agaric, Fée says, of modern pharmacy; but, as
no kind of agaric is found in the oak, it does not seem possible to
identify it. See B. xxv. c. 57.

[2278] It is evident that no fungus would give out phosphoric light;
but it may have resulted from old wood in a state of decomposition.

[2279] It is pretty clear that one of the lichens of the genus _usnea_
is here referred to. Amadue, or German tinder, seems somewhat similar.

[2280] B. xii. c. 50.

[2281] On the contrary, Fée says, the acorn of the Quercus suber is of
a sweet and agreeable flavour, and is much sought as a food for pigs.
The hams of Bayonne are said to owe their high reputation to the acorns
of the cork-tree.

[2282] The word “cork” is clearly derived from the Latin “cortex,”
“bark.” See Beckmann’s History of Inventions, V. i. p. 320, _et seq._,
_Bohn’s Edition_, for a very interesting account of this tree.

[2283] This passage, the meaning of which is so obvious, is discussed
at some length by Beckmann, Vol. i. pp. 321, 322.

[2284] It is still employed for making soles which are impervious to
the wet.

[2285] It is doubtful whether this name was given to the shoes, or the
females who wore them, and we have therefore preserved the doubt, in
the ambiguous “them.” Beckmann also discusses this passage, p. 321. He
informs us, p. 322, that the Roman ladies who wished to appear taller
than they really were, were in the habit of putting plenty of cork
under their soles.

[2286] At the present day, it grows in the greatest abundance in
France, the Landes more particularly.

[2287] This is still the case in some of the poorer provinces of Spain.

[2288] As Fée remarks, Mars is no longer the Divinity in honour of whom
characters are traced on the bark of trees.

[2289] On the contrary. Fée says, the resinous woods are the most proof
of all against the action of the air.

[2290] Festus says that the Fagutal, a shrine of Jupiter, was so called
from a beech tree (fagus) that stood there, and was sacred to that god.

[2291] Or osier.

[2292] Or “plantation of the æsculus.”

[2293] A.U.C. 367.

[2294] Fée regards this as an extremely doubtful assertion.

[2295] The Pinus pinea of Linnæus, the cultivated pine.

[2296] The Pinus silvestris of Linnæus, the wild pine; the Pinus
maritima of Lamarck is a variety of it.

[2297] B. xv. c. 9.

[2298] In c. 23 of this Book.

[2299] A variety of the Pinus silvestris of Linnæus.

[2300] “Liburnicæ.” See B. ix. cc. 5 and 48.

[2301] The Abies excelsa of Decandolle—the _Pesse_ or _Faux sapin_
(false fir) of the French. This tree, however, has not the pectinated,
or comb-like leaf, mentioned by Pliny in c. 38.

[2302] It is still known in commerce as “false incense;” and is often
sold as incense for the rites of the Roman church: while sometimes it
is purposely employed, as being cheaper.

[2303] A great street in Capua, which consisted entirely of the shops
of sellers of unguents and perfumes.

[2304] It has the same pyramidal form as the pitch-tree. It is still
much used in ship-building, both for its resinous and durable qualities
and the lightness of the wood.

[2305] The presence of resin is _not_ looked upon as any defect in
the fir at the present day. It produces what is known in commerce as
“Strasbourg turpentine.”

[2306] The Abies larix of Linnæus, and the Larix Europæa, it is
thought, of Decandolles.

[2307] It is the Venice turpentine of commerce. Each tree will furnish
seven or eight pounds each year for half a century.

[2308] It is doubtful if the tæda, or torch-tree, has been identified.
Some take it to be the Pinus mugho of Miller, the torch-pine of the
French; others, again, suggest that it is the same as the Pinus cembro
of the botanists.

[2309] So called from its resemblance to a fig. Fée says that there is
little doubt that this pretended fruit was merely a resinous secretion,
which hardens and assumes the form of a fig.

[2310] He somewhat mistranslates a passage of Theophrastus here, who,
without transforming the larch into another tree, says that it is a
sign of disease in the larch, when its secretions are augmented to such
a degree that it seems to turn itself into resin.

[2311] The lamp-black of commerce is made from the soot of the pine.

[2312] This statement, though supported by that of Vitruvius, B. ii. c.
9, is quite erroneous. The wood of the larch gives out more heat than
that of the fir, and produces more live coal in proportion.

[2313] This, Fée remarks, is the fact.

[2314] This description is inexact, and we should have some difficulty
in recognizing here the larch as known to us.

[2315] Pliny is in error here, there being no distinction of sex in
the coniferous trees. All that he relates relative to the differences
between the male and female pine is consequently false. He has,
however, in this instance, only perpetuated an erroneous opinion of
Theophrastus.

[2316] This is an erroneous statement. The larch has its cone, as well
as the rest. It is possible, however, that its small size may have
caused it to be overlooked by Pliny.

[2317] Or “louse-bearing.” As Fée says, it is difficult to see the
analogy.

[2318] The Taxus baccata of Linnæus. The account here given is in
general very correct.

[2319] It is supposed that Pliny derives this notion as to the yew
berry from Julius Cæsar, who says that “Cativulcus killed himself with
the yew, a tree which grows in great abundance in Gaul and Germany.”
It is, however, now known that the berry is quite innocuous; but the
leaves and shoots are destructive of animal life.

[2320] “Viatoria;” probably not unlike our travelling flasks and
pocket-pistols. This statement made by Pliny is not at all improbable.

[2321] This statement does not deserve a serious contradiction.

[2322] It is not improbable, however, that τόξον, an “arrow,” is of
older date than “taxus,” as signifying the name of the yew.

[2323] Numerous varieties of the coniferæ supply us with tar, and Pliny
is in error in deriving it solely from the torch-tree, the Pinus mugho
of Linnæus.

[2324] See B. xxiv. c. 23.

[2325] It is still obtained in a similar way.

[2326] Fée remarks, that Pliny is in error here; this red, watery
fluid formed in the extraction of tars, being quite a different thing
from “cedrium,” the _alkitran_ or _kitran_ of the Arabs; which is not
improbably made from a cedar, or perhaps the Juniperus Phœnicea, called
“Cedrus” by the two Bauhins and Tournefort. He says that it is not
likely that the Egyptians would use this red substance for the purpose
of preserving the dead, charged as it is with empyreumatic oil, and
destitute of all properties peculiar to resins.

[2327] See B. xxi. c. 3, and B. xxiv. c. 23.

[2328] This is impracticable; neither vinegar, wine, nor water, will
mingle with pitch. These resins, however, if stirred up briskly in hot
water, become of a paler colour, and acquire an additional suppleness.

[2329] Perhaps so called from Calabria, a country where the pine
abounded, and part of which was called Bruttium.

[2330] Or wine-vats.

[2331] See c. 8 of the present Book.

[2332] Stillaticia.

[2333] See B. xiv. c. 25.

[2334] This operation removes from the pitch a great portion of its
essential oil, and disengages it of any extraneous bodies that may have
been mixed with it.

[2335] Fée remarks that there is no necessity for this selection,
though no doubt rain-water is superior to spring or cistern water, for
some purposes, from its holding no terreous salts in solution.

[2336] This would colour the resin more strongly, Fée says, and give it
a greater degree of friability.

[2337] See B. xxxiv. c. 20.

[2338] See B. xiv. c. 25, and B. xxiv. c. 22.

[2339] “Sartago.” Generally understood to be the same as our
frying-pan. Fée remarks that this method would most inevitably cause
the mass infusion to ignite; and should such not be the case, a
coloured resin would be the result, coloured with a large quantity
of carbon, and destitute of all the essential oil that the resin
originally contained.

[2340] See B. xiv. c. 20.

[2341] The terebinthine of the mastich, Fée says, is an oleo-resin, or
in other words, composed of an essential oil and a resin.

[2342] Apparently meaning “boiled pitch.”

[2343] See B. xxiv. c. 26.

[2344] This account has been borrowed from Theophrastus, Hist. Plant.
B ix. c. ii. The modern method of extracting the resin of the pine is
very similar.

[2345] There is no foundation whatever for this statement.

[2346] The pith of the pine cannot be separated from the wood, and,
indeed, is not easily distinguished from it. Fée says that in some
of these trees masses of resin are found in the cavities which run
longitudinally with the fibres, and queries whether this may not be the
“marrow” or “pith” of the tree mentioned by Pliny.

[2347] As a torch or candle, probably.

[2348] This division of the larch into sexes, as previously mentioned,
is only fanciful, and has no foundation in fact. The result of this
operation, Fée says, would be only a sort of tar.

[2349] See B. xxxv. c. 51. He alludes to the bitumen known as asphalt,
bitumen of Judæa, mineral pitch, mountain pitch, malthe, pissalphate.

[2350] These particulars, borrowed from Theophrastus, are in general
correct.

[2351] This is not the fact; the essential oil in which the resin so
greatly abounds, becomes volatile with remarkable facility.

[2352] Most probably one of the varieties of the pine; but the mode in
which Pliny expresses himself renders it impossible to identify it with
any precision.

[2353] B. xv. c. 9.

[2354] The name borne also by the torch-tree.

[2355] See c. 76 of this Book.

[2356] He does not speak in this place of the “ornus” or “mountain
ash;” nor, as Fée observes, does he mention the use of the bark of the
ash as a febrifuge, or of its leaves as a purgative. This ash is the
Fraxinus excelsior of Decandolles.

[2357] Il. xxiv. 277.

[2358] Pliny makes a mistake here, in copying from Theophrastus, who
says that it is the yew that bears so strong a resemblance to the cedar.

[2359] Or “bull’s-ash.” This variety does not seem to have been
identified.

[2360] This statement results from his misinterpretation of the
language of Theophrastus, who is really speaking of the yew, which
Pliny mistakes for the ash.

[2361] Miller asserts that, if given to cows, this leaf will impart
a bad flavour to the milk; a statement which; Fée says, is quite
incorrect.

[2362] A merely fanciful notion, without apparently the slightest
foundation: the same, too, may be said of the alleged antipathy of the
serpent to the beech-tree, which is neither venomous nor odoriferous.

[2363] This story of Pliny has been corroborated by M. de Verone, and
as strongly contradicted by Camerarius and Charras: with M. Fée, then,
we must leave it to the reader to judge which is the most likely to
be speaking the truth. It is not improbable that Pliny may have been
imposed upon, as his credulity would not at all times preclude him from
being duped.

[2364] There is no such distinction in the linden or lime, as the
flowers are hermaphroditical. They are merely two varieties: the male
of Pliny being the Tilia microphylla of Decandolles, and a variety
of the Tilia Europæa of Linnæus; and the female being the Tilia
platyphyllos, another variety of the Tilia Europæa of Linnæus.

[2365] Not at all singular, Fée says, the fruit being dry and insipid.

[2366] In France these cords are still made, and are used for
well-ropes, wheat-sheafs, &c. In the north of France, too, brooms are
made of the outer bark, and the same is the case in Westphalia.

[2367] See B. xxi. c. 4. Ovid, Fasti, B. v. l. 337, speaks of the
revellers at drunken banquets binding their hair with the philyra.

[2368] “Teredo.” If he means under this name to include the tinea as
well, the assertion is far too general, as this wood is eaten away
by insects, though more slowly than the majority of the non-resinous
woods. It is sometimes perforated quite through by the larvæ of the
byrrhus, our death-watch.

[2369] This is incorrect. It attains a very considerable height, and
sometimes an enormous size. The trunk is known to grow to as much as
forty or fifty feet in circumference.

[2370] The maple is much less in size than what the lime or linden
really is.

[2371] See B. xiii. c. 29.

[2372] Fée says there are but five varieties of the maple known in
France. He doubts whether the common maple, the Acer campestre of
Linnæus, was known to the ancients.

[2373] Fée identifies it with the Acer pseudo-platanus of Linnæus, the
Acer montanum candidum of C. Bauhin. This tree is not uncommon in Italy.

[2374] “Acer pavonaceum:” “peacock maple.” He gives a similar account
of the spots on the wood of the citrus, B. xiii. c. 19.

[2375] Or “thick-veined” maple.

[2376] Supposed by Fée to be the Acer Monspessulanus of Linnæus, also
the Acer trilobum of Linnæus.

[2377] A variety of the Acer pseudo-platanus of Linnæus, according to
Fée.

[2378] The Carpinus betulus of Linnæus; the horn-beam or yoke-elm.

[2379] “Silicios.” This word appears to be explained by the
accompanying word “laminas;” but it is very doubtful what is the
correct reading.

[2380] The Alnus glutinosa of Decandolles. In c. 38, Pliny says, very
incorrectly, that the alder has a remarkably thick leaf; and in c. 45,
with equal incorrectness, that it bears neither seed nor fruit.

[2381] Fée observes, that it is incorrect to say that the male tree
blossoms before the female, if such is Pliny’s meaning here.

[2382] From the Greek, meaning “a tree with clusters.” It is the
Staphylea pinnata of Linnæus, the wild or false pistachio of the French.

[2383] “Siliqua.” This term, Fée says, is very inappropriate to the
fruit of this tree, which is contained in a membranous capsule. The
kernel is oily, and has the taste of the almond more than the nut.

[2384] The Buxus sempervirens of Linnæus.

[2385] It is still extensively used for a similar purpose.

[2386] There are only two species now known: that previously mentioned,
and the Buxus Balearica of Lamarck. The first is divided into the four
varieties, arborescens, angustifolia, suffruticosa, and myrtifolia.

[2387] The Buxus sempervirens of Linnæus; very common in the south of
France, and on the banks of the Loire.

[2388] It is doubtful if this is a box at all. The wild olive,
mentioned in B. xv. c. 7, has the same name; all the varieties of the
box emit a disagreeable smell.

[2389] A variety of the Buxus sempervirens, the same as the Buxus
suffruticosa of Lamarck.

[2390] The Pyrenean box is mostly of the arborescent kind.

[2391] In Phrygia. See B. v. c. 29.

[2392] The arborescent variety.

[2393] This is doubted by Fée, but it is by no means impossible.
In Pennsylvania the bees collect a poisonous honey from the Kalmia
latifolia.

[2394] A very good charcoal might be made from it, but the wood is too
valuable for such a purpose. It burns with a bright, clear flame, and
throws out a considerable heat.

[2395] Although (in common, too, with other trees) it is used as a
support for the vine, that does not any the more make it of the same
nature as the fruit-trees.

[2396] The Ulmus effusa of Willdenow; the Ulmus montana of Smith:
_Flor. Brit._

[2397] The Ulmus campestris of Linnæus; the Ulmus marita of other
botanists.

[2398] The ordinary elm, Fée thinks.

[2399] A variety of the Ulmus campestris, probably.

[2400] This name is still preserved by botanists. Pliny is incorrect in
saying that the large elm produces no seed, the only difference being
that the seed is smaller than in the other kinds. Columella, B. v.
c. 6, contradicts the statement here made by Pliny, but says that it
_appears_ to be sterile, in comparison with the others.

[2401] The Pinus maritima of Linnæus, which produces the greater part
of the resins used in France, is found, however, in great abundance in
the flat country of the Landes.

[2402] On the contrary, the yoke-elm, or horn-beam, grows almost
exclusively on the plains; and the same with the cornel and the poplar.

[2403] The Rhus cotinus of Linnæus, the fustic. See B. xiii. c. 41.
This, however, imparts a yellow colour, while Pliny speaks of a purple.
It has been asserted, however, that the roots of it produce a fine red.
There is no tree in Europe that produces a purple for dyeing.

[2404] The maple, the ash, and the service-tree, are as often found in
the plains as on the hills.

[2405] See c. 43, and B. xxiv. c. 43. The Cornus sanguinea of Linnæus,
the blood-red cornel; the branches of which are red in the winter, and
the fruit filled with a blood-red juice. This is probably the same
shrub as the male cornel, mentioned further on by Pliny.

[2406] The Genista tinctoria of Linnæus, or “dyers’” broom.

[2407] Or “service-tree,” the Sorbus domestica of Linnæus. It thrives
just as well in a warm locality as a cold one.

[2408] The Betula alba of Linnæus. It was an object of terror not only
in the hands of the Roman lictor, but in those of the pedagogue also,
and is still to some extent. Hence it was formerly nicknamed “Arbor
sapientiæ,” the “tree of wisdom.”

[2409] This is no longer done in France, but it is in Russia, where
they extract from it an empyreumatic oil, which is used in preparing
Russia leather, and which imparts to it its agreeable smell.

[2410] Boys, both of whose parents were surviving, used to carry before
the bride a torch of white thorn. This thorn was, not improbably, the
“Cratægus oxyacantha” of Linnæus, which bears a white flower. See B.
xxiv. c. 66.

[2411] The Cytisus laburnum of Linnæus, also known as “false ebony,”
still a native of the Alps.

[2412] But blackish in the centre; whence its name of false ebony.

[2413] Meaning the clusters of the flowers.

[2414] The Anthyllis barba Jovis of modern botanists. The leaves have
upon them a silvery down, whence the name “argyrophylla,” given to it
by Mænch.

[2415] But in c. 30, he says that the poplar grows on hilly or
mountainous declivities.

[2416] This tree has not been satisfactorily identified; but Fée is
of opinion that it is probably a variety of the willow, the Salix
vitellina of Linnæus. Sprengel thinks that it is the Salix capræa.

[2417] The Ligustrum vulgare of Linnæus. It has black fruit and a white
flower, and is rendered famous by the lines of Virgil—Ecl. ii. 17:

  “O formose puer, nimium ne crede colori;
   Alba ligustra cadunt, vaccinia nigra leguntur.”

It is evidently this juxtaposition that has prompted Pliny to mention
the vaccinium in the succeeding passage. In B. xii. c. 51, and B. xxiv.
c. 45, Pliny seems inclined to confound this shrub with the Cyprus, the
Lawsonia inermis of Linnæus, the Henna of the east, a totally different
plant.

[2418] Wooden tallies used by public officers in keeping their
accounts. They were employed till the middle ages.

[2419] The Primus mahaleb, Desfontaines says; but Fée identifies it
with the black heath-berry, or whortle-berry, still called “vaciet” in
France. It does not, however, grow, as Pliny says, in watery places,
but in woods and on shrubby hills.

[2420] See B. xxi. c. 97.

[2421] These observations, Fée says, are borrowed from Theophrastus,
Hist. Plant. B. iii. c. 4, and are founded on truth.

[2422] “Silvestres,” and “urbaniores.”

[2423] Urbanæ.

[2424] The Nerion oleander of Linnæus; the laurel-rose, or rose of
St. Anthony of the French; it has some distant resemblance to the
olive-tree, but its leaf is that of the laurel, and its flower very
similar to that of the rose.

[2425] See B. xxiv. c. 61.

[2426] “Nerion” is the Greek name.

[2427] It has certain dangerous properties, which cause the herbivorous
animals to avoid touching it. It acts strongly on the muscular system,
and, as Fée remarks, used as an antidote to the stings of serpents, it
is not improbable that its effect would be the worst of the two.

[2428] See B. xiii. c. 37. The tamarisk of the moderns is not an
evergreen, which has caused writers to doubt if it is identical with
the tamariscus of the ancients, and to be disposed to look for it among
the larger ericæ or heaths. The leaves of the larch fall every year;
those of the other evergreens mostly every two or three years.

[2429] See B. xiii. c. 40.

[2430] See B. xiii. c. 40. This assertion of Pliny is erroneous, as
these trees are in reality evergreens, though all trees of that class
are liable to lose their leaves through certain maladies.

[2431] “Quercus.” The ilex or holm-oak is an evergreen.

[2432] Pliny is in error here. Varro, De Re Rust. B. i. c. 7, has made
mention of this tree.

[2433] The hot climates possess a greater number of evergreens than
the temperate regions, but not of the same species or genus. The vine
invariably loses its leaves each year.

[2434] This last assertion, Fée says, is far from true, in relation to
the coniferous trees.

[2435] See B. xv. c. 7.

[2436] The Populus alba of Linnæus.

[2437] The Populus nigra of Linnæus.

[2438] The Populus tremula of Linnæus. This statement as to the leaves
of the poplar is verified by modern experience.

[2439] This does not appear to be exactly correct as to the ivy.
The leaves on the young suckers or the old and sterile branches are
divided into three or five regular lobes, while those which grow on the
branches destined to bear the blossoms are ovals or lanceolated ovals
in shape.

[2440] It is not from the leaves, but from the fruit of the tree that
this down falls; the seeds being enveloped with a cottony substance.
This passage is hopelessly corrupt.

[2441] See B. xviii. c. 68, where he enlarges still further on this
asserted peculiarity; he borrows his statement from Theophrastus, Hist.
Plant. B. i. c. 16.

[2442] These statements are quite conformable with the fact.

[2443] This statement is quite true, so far as the fact that the leaves
have not the same position in the day-time as during the night: the
changes of position vary greatly, however, in the different kinds. It
is generally thought that an organic irritability is the cause of this
phenomenon.

[2444] This seems to be the meaning of “In aliis gentium lana est.”
He alludes, probably, to cotton or silk: see B. vi. c. 20. Thunberg
tells us that at Roodesand, near the Cape of Good Hope, there grows so
thick a down on the Buplevrum giganteum of Lamarck, that it is employed
to imitate a sort of white velvet, and is used for bonnets, gloves,
stockings, &c.

[2445] B. xiii. c. 7.

[2446] “Genere ilicum.” It is not improbable that he here refers to the
variety of the holm-oak which he has previously called “aquifolia,”
apparently confounding it with the holly. See c. 8 of this Book.

[2447] See B. xiii. c. 37.

[2448] This must be understood of the young leaf of the alder, which
has a sort of thick gummy varnish on it.

[2449] B. xiii. c. 7.

[2450] B. xv. c. 15. Pliny is not correct here; the leaf of the pear
is oval or lanceolated, while that of the apple is oval and somewhat
angular, though not exactly “mucronata,” or sharply pointed.

[2451] Not exactly “divided,” but strongly lobed.

[2452] If this is the case, the pitch-tree can hardly be identical with
the false fir, the Abies excelsa of Decandolles. See c. 18 of this
Book, and the Note.

[2453] This passage would be apt to mislead, did we not know that the
leaves of the coniferous trees here mentioned are not prickly, in the
same sense as those of the holly, which are armed with very formidable
weapons.

[2454] More particularly in the Populus tremula, the “quivering” poplar.

[2455] Crepitantia.

[2456] See B. xv. c. 15. Not a species, but an accidental monstrosity.

[2457] See B. xv. c. 37, where he speaks of the Hexastich myrtle.

[2458] The leaves of the elm and the tree supposed to be identical with
the cytisus of the ancients have no characteristics in common. See B.
xiii. c. 47, and the Notes.

[2459] De Re Rust. cc. 5, 30, 45.

[2460] Very inappropriate food for cattle, it would appear: the fig
leaf being charged with a corrosive milky juice; the leaf of the holm
oak, hard and leathery; and that of the ivy, bitter and nauseous in the
highest degree.

[2461] Eighth of February.

[2462] See B. viii. c. 67.

[2463] Catlitio.

[2464] He alludes to the period of the rising of the sap; an entirely
distinct process from germination.

[2465] This statement, as also that relative to the holm oak, and other
trees previously mentioned, is quite incorrect. The blossoms of the
fig-tree are very much concealed, however, from view in the involucre
of the clinanthium.

[2466] This is not the fact, though the blossom of the juniper is of
humble character, and not easily seen. Theophrastus, B. iii. c. 6, only
says that it is a matter of doubt, what Pliny so positively affirms.

[2467] This is the fact; the male tree is sterile, but it fecundates
the female.

[2468] These remarks, borrowed from Theophrastus, are generally
consistent with our experience.

[2469] Fée remarks that Pliny here copies from Theophrastus, a writer
of Greece, without making allowance for the difference of localities.
Theophrastus, however, gives the laurel an earlier period for budding
than Pliny does.

[2470] The Rhamnus paliurus of Linnæus.

[2471] This is entirely fanciful: though it is the case that in some
trees, the ligneous ones, namely, there are two germinations in the
year, one at the beginning of spring, which acts more particularly on
the branches, and the other at the end of summer, which acts more upon
the parts nearer the roots.

[2472] See B. xviii. c. 57.

[2473] There is no such thing as a third budding.

[2474] As already stated, there are never more than two germinations.

[2475] This rupture of the epidermis, caused by the formation beneath
of new ligneous and conical layers, takes place not solely, as Pliny
and Theophrastus state, at the time of germination, but slowly and
continuously.

[2476] On the contrary, they are irregular both in their commencement
and their duration.

[2477] This is not the case; each bud is independent of the one that
has preceded it. A sucker, however, newly developed may give birth to
buds not at the extremity, but throughout the whole length of it.

[2478] See B. xviii. c. 67. What Pliny says here is in general true,
though its germination does not take place with such rapidity as he
states.

[2479] A mere fable, of course.

[2480] In the last Chapter.

[2481] In Paris, Fée says, the almond does not blossom till March. If
the tree should blossom too soon, it is often at the expense of the
fruit.

[2482] Probably the apricot. See B. xv. c. 12.

[2483] See B. xv. c. 11.

[2484] See B. xxiv. c. 8.

[2485] This, of course, is not the fact. As to the succeeding
statements, they are borrowed mostly from Theophrastus, and are in
general correct.

[2486] The rising of the sap.

[2487] The Pleiades. See B. xviii. cc. 59, 60.

[2488] It was supposed in astrology that the stars exercised an effect
equally upon animal and vegetable life.

[2489] 25th of July.

[2490] See B. xviii. c. 68.

[2491] The Cornus mas of botanists; probably the Frutex sanguineus
mentioned in c. 30. See also B. xv. c. 31.

[2492] Probably the Lonicera Alpigena of Linnæus; the fruit of which
resembles a cherry, but is of a sour flavour, and produces vomiting.

[2493] The wood is so durable, that a tree of this kind in the forest
of Montmorency is said to be a thousand years old.

[2494] See B. xviii. cc. 59, 60.

[2495] See c. 6 of this Book.

[2496] See B. xii. c. 7.

[2497] This supposed marvel merely arises from the fact that the fruit
has a strong ligneous stalk, which almost precludes the possibility of
its dropping off. This is the case, too, not only with the pine, but
with numerous other trees as well.

[2498] “Dried” nuts.

[2499] See B. xxiv. c. 41.

[2500] But in B. xxiv. c. 32, he speaks of the fruit of the black
poplar as an antidote for epilepsy. In fact, he is quite in error in
denying a seed to any of these trees.

[2501] See c. 29 of this Book.

[2502] The Rhamnus alaternus of Linnæus, the Phylica elatior of
C. Bauhin. In reality, it bears a small black berry, of purgative
qualities.

[2503] “Infelices,” “unhappy” rather.

[2504] Daughter of Sithon, king of Thrace, who hanged herself on
account of the supposed inconstancy of her lover, Demophöon. See Ovid,
Heroid. 2.

[2505] This must not be taken to the letter; indeed, Fée thinks that
the proper meaning is:—“Young trees do not produce fruit till they have
arrived at a certain state of maturity.” Trees mostly continue on the
increase till they die.

[2506] See B. xvii. c. 2. The assertion here made has not been
confirmed by experience.

[2507] “Frugiperda:” in the Greek, ὠλεσίκαρπον. See Homer. Od. x. l.
510. It has been suggested, Pliny says, that the willow seed had this
epithet from its effect in causing abortion; but he does not seem to
share the opinion.

[2508] This cannot be a willow, Fée remarks; indeed, Theophrastus, B.
iii. c. 5, speaks of a black poplar as growing there.

[2509] See B. xv. c. 13. It is not impossible that Pliny may have
mistaken here the Persea, or Balanites Ægyptiaca, for the Persica, or
peach. See p. 296.

[2510] Fée remarks, that this expression is remarkable as giving a just
notion of the relative functions of the male and female in plants. He
says that one might almost be tempted to believe that they suspected
something of the nature and functions of the pistils and stamens.

[2511] This statement, which is drawn from Theophrastus, is rather
fanciful than rigorously true.

[2512] B. xiii. c. 7.

[2513] Or “forerunner.” The Spaniards call a similar fig “brevas,” the
“ready ripener.”

[2514] See B. xv. c. 19.

[2515] See B. xv. c. 21.

[2516] This does not happen in the northern climates; though sometimes
it is the case that a fruit-tree blossoms again towards the end of
summer, and if the autumn is fine and prolonged, these late fruits will
ripen. Such a phenomenon, however, is of very rare occurrence.

[2517] See B. xviii. c. 74.

[2518] “Insanæ.” There are some varieties of the vine which blossom
more than once, and bear green grapes and fully ripe ones at the same
moment.

[2519] De Re Rust. c. 7.

[2520] The suggested reading, “apud matrem magnam,” seems preferable to
“apud mare,” and receives support from what is said relative to Smyrna
in B. xiv. c. 6.

[2521] See B. v. c. 3.

[2522] B. xviii. c. 51.

[2523] B. xv. c. 19.

[2524] This is not the fact: the fruits of all trees have their proper
time for ripening.

[2525] He speaks here in too general terms; the pear, for instance, is
not more fruitful when old than when young.

[2526] He speaks of the process of caprification. See B. xv. c. 21.

[2527] So our proverb, “Soon ripe, soon rotten;” applicable to mankind
as well as trees. See B. xxiii. c. 23.

[2528] See B. xv. c. 27. The mulberry tree will live for several
centuries.

[2529] This stimulates the sap, and adds to its activity: but the tree
grows old all the sooner, being the more speedily exhausted.

[2530] In cc. 9-14 of the present Book.

[2531] This passage is quite unintelligible; and it is with good reason
that Fée questions whether Pliny really understood the author that he
copied from.

[2532] Fée remarks, that Pliny does not seem to know that the catkin is
an assemblage of flowers, and that without it the tree would be totally
barren.

[2533] Pliny blunders sadly here, in copying from Theophrastus, B.
iii. c. 16. He mixes up a description of the box and the cratægus, or
holm-oak, making the latter to be a seed of the former: and he then
attributes a mistletoe to the box, which Theophrastus speaks of as
growing on the cratægus.

[2534] See c. 93, where he enlarges on the varieties of the mistletoe.

[2535] See B. xxiv. c. 71.

[2536] He means the garden or border-box, mentioned in c. 28 of this
Book.

[2537] See B. xiii. c. 17: the African lotus, probably; the Zizyphus
lotus of Desfontaines.

[2538] This statement is entirely incorrect. If a tree loses the
terminal bud, it will grow no higher; but it will not die if the
extremities of the branches are cut. Such, in fact, is much more likely
to happen when they are all cut off, from the extreme loss of juices
which must naturally ensue at the several cicatrices united.

[2539] The Celtis australis of Linnæus. Pliny is in error in calling
this tree the “Grecian bean.” In B. xiii. c. 22, he erroneously calls
the African lotus by the name of “celtis,” which only belongs to the
lotus of Italy; that of Africa being altogether different.

[2540] The bark, which is astringent, is still used in preparing skins,
and a black colouring matter extracted from the root is employed in
dyeing wool.

[2541] Quite an accidental resemblance, if, indeed, it ever existed.

[2542] “Oculus”—the bud on the trunk.

[2543] This must be either a mistake or an exaggeration; the cherry
never being a very large tree.

[2544] It is evident that he is speaking of the epidermis only, and not
the cortical layers and the liber.

[2545] The roots of trees being ligneous, “carnosæ,” Fée remarks, is an
inappropriate term.

[2546] Georg. ii. 291.

[2547] “Lagenas.” Fée takes this to mean here vessels to hold liquids,
and remarks that the workers in wicker cannot attain this degree of
perfection at the present day.

[2548] Pliny is in error in rejecting this notion.

[2549] See B. xii. c. 5, and B. xiii. c. 29. What Pliny states of the
fir, or Abies pectinata, Theophrastus relates of the πεύκη, or Abies
excelsa of Decandolles. There is little doubt that in either case the
statement is incorrect.

[2550] On the contrary, the roots of trees increase in size till the
period of their death.

[2551] By preventing the action of the air from drying the roots, and
so killing the tree.

[2552] A grove, probably, consecrated to the Muses.

[2553] These stories must be regarded as either fables or impostures;
though it is very possible for a tree to survive after the epidermis
has been removed with the adze.

[2554] See B. xvii. c. 9.

[2555] In c. 7 of this Book.

[2556] It is not improbable that he has in view here the passage in
Virgil’s Georgics, B. ii. l. 109, _et seq._

[2557] Or balm of Gilead. See B. xii. c. 54. Bruce assures us that it
is indigenous to Abyssinia; if so, it has been transplanted in Arabia.
It is no more to be found in Judæa.

[2558] This is inserted, as it is evident that the text without it is
imperfect. Fée says that even in Judæa it was transplanted from Arabia.

[2559] As to the identification of the cinnamomum of Pliny,
see B. xii. cc. 41 and 42, and the Notes.

[2560] As to the question of the identity of the amomum, see B. xii. c.
28.

[2561] See B. xii. c. 26.

[2562] This cannot be the ordinary Piper nigrum, or black pepper, which
does not deserve the title “arbor.” It is, no doubt, the pepper of
Italy, which he mentions in B. xii. c. 14.

[2563] The Cassia Italica, probably, of B. xii. c. 43. The cassia of
the East could not possibly survive in Italy. The fact is, no doubt,
that the Romans gave the names of cassia, piper, and amomum, to certain
indigenous plants, and then persuaded themselves that they had the
genuine plants of the East.

[2564] See B. xii. c. 30.

[2565] Under the name of Cedrus, no doubt, several of the junipers have
been included. See B. xiii. c. 11.

[2566] Fée is inclined to doubt this statement. The myrtle has been
known to stand the winters of Lower Brittany.

[2567] Owing, no doubt, as Fée says, solely to bad methods of
cultivation. The same, too, with the grafted peach and the Greek nut or
almond.

[2568] The Cupressus sempervirens of Linnæus, the Cupressus fastigiata
of Decandolle.

[2569] De Re Rust. cc. 48, 151.

[2570] “Morosa;” meaning that it reaches maturity but very slowly.

[2571] Tristis tentantum sensu torquebit amaror.—Virg. Georg. ii. 247.

[2572] This statement is exaggerated.

[2573] It is still to be seen very frequently in the cemeteries of
Greece and Constantinople.

[2574] The cypress is in reality monœcious, the structure of the same
plant being both male and female.

[2575] This was formerly done with the cypress, in England, to a
considerable extent. Such absurdities are now but rare.

[2576] The Cupressus fastigiata of Decandolle: and a variety of the
Cupressus sempervirens of Linnæus.

[2577] The Cupressus horizontalis of Miller; the variety B of the C.
sempervirens of Linnæus.

[2578] The present name given to this tree in the island of Crete, is
the “daughter’s dowry.”

[2579] De Re Rust. c. 151.

[2580] B. iii. c. 12.

[2581] This, Fée says, is the case with none of the coniferous trees.

[2582] Of course this spontaneous creation of the cypress is fabulous;
and, indeed, the whole account, which is borrowed from Theophrastus, is
greatly exaggerated.

[2583] B. xix. c. 15.

[2584] This story, which is borrowed from Theophrastus, is evidently
fabulous.

[2585] Meaning Asia Minor.

[2586] Hist. Plant. B. iii c. 10.

[2587] See B. vi. c. 23.

[2588] Bacchus, after the alleged conquest by him of India, was said to
have returned crowned with ivy, and seated in a car drawn by tigers.

[2589] It is a mistake to suppose that the ivy exhausts the juices of
trees. Its tendrils fasten upon the cortical fissures; and, if the tree
is but small, its development is apt to be retarded thereby. It is
beneficial, rather than destructive, to walls.

[2590] This plant is really monœcious or androgynous.

[2591] The Rosa Eglanteria.

[2592] The Hedera helix of Linnæus, or, possibly, a variety of it with
variegated leaves.

[2593] The Hedera arborea of C. Bauhin, the common ivy.

[2594] The Hedera major sterilis of C. Bauhin.

[2595] The first variety of the common ivy, the Hedera helix of Linnæus.

[2596] A wreath of ivy was the usual prize in the poetic contests.

[2597] See B. v. c. 16, and B. vi. c. 23.

[2598] The “red berry” and the “golden fruit.”

[2599] The berries are yellow in the first variety of the common ivy,
the Hedera poetica of C. Bauhin.

[2600] This is the case sometimes with the black ivy, the Hedera
arborea of C. Bauhin. Only isolated cases, however, are to be met with.

[2601] There is an ivy of this kind, the Hedera humi repens of
botanists; but most of the commentators are of opinion that it is the
ground ivy, the Glechoma hederacea of Linnæus, that is spoken of.
Sprengel takes it to be the Anthirrinum Azarina, from which opinion,
however, Fée dissents.

[2602] The Smilax aspera of Linnæus; the sarsaparilla plant.

[2603] Fée is inclined to question this; but the breadth of the tablets
may have been very small in this instance.

[2604] Of course this is fabulous: though it is not impossible that
the writing on the tablets may sometimes have caused “a noise in the
world,” and that hence the poets may have given rise to this story.

[2605] Pliny borrows this fabulous story from Cato, De Re Rust. c. 3.

[2606] The reeds cannot be appropriately ranked among the shrubs.

[2607] For musical purposes, namely.

[2608] B. v. c. 20.

[2609] “Calamus.” The so-called reed of the East, used for making darts
and arrows, does not belong to the genus Arundo, but to those of the
Bambos and Nastus.

[2610] Few readers of history will fail to recollect the report made to
King Henry V. by Davy Gam, before the battle of Agincourt:—“The enemy
are so numerous,” said the messenger, “that their arrows will darken
the sun.” “We must e’en be content to fight in the dark then,” was the
warrior’s reply.

[2611] See B. vii. c. 2. This is probably an exaggeration. He alludes
to the Bambos arundinacea of Lamarck, the Arundo arbor of C. Bauhin.

[2612] The Arundo donax of Linnæus.

[2613] Or the pipe-reed.

[2614] The tibia, or pipe, was played lengthwise, like the flageolet or
clarionet.

[2615] A variety of the Arundo donax. The Orchomenian reed is of the
same class. The fistula was played sideways; and seems to have been
a name given both to the Syrinx or the Pandæan pipes, and the flute,
properly so called.

[2616] In the last Chapter. The Arundo donax, probably, so far as
European warfare was concerned.

[2617] A variety of the Arundo donax of Linnæus.

[2618] This is not the fact.

[2619] The Arundo versicolor of Miller.

[2620] Constantinus and Schneider, upon Theophrastus, Hist. Plant. B.
iv. c. 11, suspect the correctness of this word.

[2621] See B. xx. c. 88, and B. xxxii. c. 52.

[2622] The Arundo phragmites of Linnæus. The Plotias, no doubt, was
only a variety of it.

[2623] “Arundo tibialis.” The story about the time taken by it to grow,
and the increase of the waters, is, of course, fabulous.

[2624] The “yoke reed,” or “reed for a double flute.”

[2625] Perhaps so called from the silkiness of its flossy pinicules.

[2626] This seems to be the meaning of “ad inclusos cantus.”

[2627] B. xviii. c. 74.

[2628] Lingulis.

[2629] The words “dextræ” and “sinistræ,” denote the treble and the
bass flutes; it is thought by some, because the former were held with
the right hand, and the latter with the left. Two treble or bass flutes
were occasionally played on at the same time.

[2630] See B. xiii. c. 32.

[2631] These were of the variety Zeugites, previously mentioned.

[2632] Fée suggests, that what he mentions here may not have been a
reed at all, but one of the cyperaceous plants, the papyrus, perhaps.

[2633] De Re Rust. c. 6. It was the donax that was thus employed; as it
is in France at the present day.

[2634] Oculis. See B. xvii. c. 33.

[2635] See B. xix. c. 42.

[2636] The white willow, Salix Alba of Linnæus.

[2637] The Salix vitellina more particularly is used in France for this
purpose.

[2638] The Salix helix of Linnæus.

[2639] The Salix amygdalina of Linnæus.

[2640] De Re Rust. c. 6. Fée remarks that the notions of modern
agriculturists are very different on this point.

[2641] The Salix purpurea of Linnæus: the Salix vulgaris rubens of C.
Bauhin.

[2642] This belongs, probably, to the Salix helix of Linnæus.

[2643] Fée queries whether this may not be the Salix incana of Schrank
and Hoffmann, the bark of which is a brown green.

[2644] Belonging to the Salix helix of Linnæus.

[2645] Belonging to the Salix purpurea of Linnæus.

[2646] Field-mouse or squirrel colour. See B. viii. c. 82. The same,
probably, as the Salix vitellina of Linnæus.

[2647] A variety, Fée thinks, of the Salix rubens.

[2648] The Scirpus lacustris of Linnæus.

[2649] And not in front of them.

[2650] Mapalia.

[2651] Egypt, namely.

[2652] The bramble is sometimes found on the banks of watery spots and
in marshy localities, but more frequently in mountainous and arid spots.

[2653] Known to us as blackberries. This tree is the Rubus fruticosus
of Linnæus; the same as the Rubus tomentosus, and the Rubus
corylifolius of other modern botanists.

[2654] The Rosa canina of Linnæus: the dog-rose or Eglantine.

[2655] The Rubus Idæus of botanists; the ordinary raspberry.

[2656] See B. xxiv. c. 75.

[2657] See B. xxiv. c. 35.

[2658] They are still used for dyeing, but not for staining the hair.

[2659] Only as a purgative, probably.

[2660] Though the acid it contains would curdle milk, still its natural
acridity would disqualify it from being used for making cheese.

[2661] The white sap or inner bark; the aubier of the French. Fée
remarks, that its supposed analogy with fat is incorrect.

[2662] He means the outer ligneous layers of the wood. They differ only
in their relative hardness.

[2663] “Pulpæ.” The ligneous fibres which form the tissue of the bark.

[2664] “Venæ.” By this term he probably means the nutritive vessels and
the ligneous fibres united. It was anciently the general belief that
the fibres acted their part in the nutriment of the tree.

[2665] “Graphium.” Properly a stylus or iron pen.

[2666] “Glandia.” This analogy, Fée remarks, does not hold good.

[2667] See B. xiii. c. 29, and c. 27 of this Book.

[2668] And at an angle with the grain or fibre of the wood.

[2669] And at right angles. In the Dicotyledons, the disposition of the
fibres is longitudinal and transversal.

[2670] Guttum.

[2671] For the simple reason, because the part near the root is of
greater diameter.

[2672] Soft ligneous layers.

[2673] In c. 72 of this Book.

[2674] Hard wood—such as we know generally as “heart;” “heart of oak”
for instance.

[2675] Probably that of the ligneous layers near the pith or sap.

[2676] “Limo:” the alburnum previously mentioned.

[2677] This practice was formerly forbidden by the forest laws of
France.

[2678] In B. xviii.

[2679] Pliny borrows this superstition from Theophrastus, Hist. Plant.
B. vi. c. 1.

[2680] This was the name of mimic sea-fights, exhibited at Rome in
the Circus or amphitheatres, or else in lakes dug expressly for the
purpose. Hardouin says, there were five Naumachiæ at Rome, in the 14th
region of the City.

[2681] This practice is no longer followed.

[2682] De Re Rust. c. 31; also cc. 17 and 37.

[2683] This practice is observed in modern times.

[2684] C. 37.

[2685] Pliny, no doubt, observes an analogy between the hair of
the human head, and trees as forming the hair of the earth. The
superstition here mentioned, Fée says, was, till very recently,
observed in France to a considerable extent.

[2686] De Re Rust. 1, 37.

[2687] Terebinthine or turpentine.

[2688] “Ad fabrorum intestina opera medulla sectilis.” This passage is
probably corrupt.

[2689] In c. 74.

[2690] With reference to the fir, namely.

[2691] B. iii. c. 5.

[2692] B. iv. c. 3.

[2693] An additional proof, perhaps, that the cedar of the ancients
is only one of the junipers, and that, as Fée says, they were not
acquainted with the real cedar.

[2694] B. iii. c. 4.

[2695] “Spiras.” It seems to have been the opinion of the ancients that
the internal knots of the wood are formed spirally. Such is not the
fact, as they consist of independent layers.

[2696] Centra.

[2697] He takes this account from Theophrastus, Hist. Plant. B. v. c. 3.

[2698] The greatest height, Fée says, of any tree known, is that of the
palm, known as ceroxylon; it sometimes attains a height of 250 feet.
Adanson speaks of the baobab as being 90 feet in circumference.

[2699] In c. 74.

[2700] See B. xix. c. 6.

[2701] A spot enclosed in the Campus Martius, for the resort of the
people during the Comitia, and when giving their votes.

[2702] “Diribitorium.” This was the place, probably, where the
diribitores distributed to the citizens the tabellæ, with which they
voted in the Comitia, or else, as Wunder thinks, divided the votes,
acting as “tellers,” in the modern phrase.

[2703] Caligula.

[2704] B. xxxvi. c. 14.

[2705] See B. xxxvi. c. 14. This was a mortar made of volcanic ashes,
which hardened under water. It is now known as Pozzuolane.

[2706] The Pinus cedrus of Linnæus.

[2707] The canoes were formed probably of the fir.

[2708] The Celtis australis of Linnæus.

[2709] See B. xiii. c. 27.

[2710] This, Fée says, is not the case, if the Syrian terebinth is the
same as the Pistacia terebinthus of Linnæus.

[2711] This is not the case; a nail has a firm hold in all resinous
woods.

[2712] This is evidently a puerile absurdity: but it is borrowed from
Theophrastus, Hist. Plant. B. v. c. 4.

[2713] The savages of North America, and, indeed, of all parts of the
globe, seem to have been acquainted with this method of kindling fire
from the very earliest times.

[2714] See B. xxiv. c. 49. The Viticella, belonging to the genus
clematis.

[2715] This unfounded notion is borrowed from Theophrastus, B. v. c. 4.

[2716] In the modern botanical sense of the word, the male trees do not
bear at all.

[2717] Asia Minor, namely. See B. xxxv. c. 21.

[2718] The junctures where the pieces of wood are united by glue. This
is to be observed very easily in the greater part of the oaken statuary
that is so plentiful in the churches of Belgium.

[2719] Cypress is perhaps the most lasting of all woods.

[2720] One of the earliest appellations, probably, of Jupiter among the
Romans. See Ovid’s Fasti, B. iii. l. 445, _et seq._

[2721] This is correct. Their resin defends them from the
action of the air, from damp, and the attacks of noxious insects.

[2722] A variety of the oak. See c. 6 of this Book.

[2723] As mentioned at the end of c. 74.

[2724] See B. xi. c. 2.

[2725] See B. xvii. c. 37.

[2726] In c. 74.

[2727] There is nothing very surprising in this, as most woods are
preserved better when completely immersed in water, than when exposed
to the variations of the atmosphere.

[2728] He borrows this fable from Theophrastus, B. v. c. 5.

[2729] This process, Fée says, would be attended with no success.

[2730] It is not quite clear whether he intends this observation to
apply to the poplar and the palm, or to the last only. It is true,
however, in neither case, and is contrary, as Fée observes, to all
physical laws.

[2731] The resistance that woods offer when placed vertically is in the
same ratio as that presented by them when employed horizontally. This
paragraph is borrowed from Theophrastus, B. iii. c. 4, and B. v. cc. 6,
7, 8.

[2732] Ferula.

[2733] In c. 77.

[2734] See c. 24.

[2735] Fée thinks, from the context, that the meaning is, that the vine
was employed in the construction of chariots; it depends entirely on
the punctuation adopted.

[2736] This could only have happened in the first year that they were
so employed.

[2737] De Re Rust. c. 31.

[2738] It is singular, Fée says, to find the wood of the palm, and that
of the poplar, which are destitute of veins, enumerated among those
employed for veneering.

[2739] In c. 27.

[2740] According to Adanson, the baobab will live for more than six
thousand years.

[2741] The Celtis australis of Linnæus.

[2742] In consequence of the disputes between the patricians and
plebeians.

[2743] Thus deriving Lucina from “lucus,” a grove.

[2744] Capillos.

[2745] An area before the temple of Vulcan.

[2746] “Stationes municipiorum.” A sort of exchange, near the Forum,
where the citizens met to discuss the topics of the day.

[2747] See B. iv. c. 18. Of course, this story must be regarded as
fabulous.

[2748] Quercus.

[2749] These are fables founded upon the known longevity of trees,
which, as Fée remarks, Pliny relates with a truly “infantine
simplicity.”

[2750] See B. v. c. 43.

[2751] See B. v. c. 29.

[2752] The palm is by no means a long-lived tree.

[2753] The pomegranate, on the contrary, has been known to live many
centuries.

[2754] He has elsewhere said that the vine is extremely long-lived.

[2755] In the last Chapter he has spoken of a laurel having existed for
many centuries.

[2756] To its great detriment, probably.

[2757] Fée says that no holm-oak is ever known to attain this size.

[2758] See c. 62.

[2759] Sprengel says that this is the parasitic plant, which he calls
Cassyta filiformis. Fée says that this opinion, though perhaps not to
be absolutely rejected, must be accepted with reserve.

[2760] It does not seem to have been identified.

[2761] See B. xviii. c. 33.

[2762] Serpyllum. See B. xx. c. 90.

[2763] A mistletoe, apparently, growing upon the wild olive. Fée says
that no such viscus appears to be known.

[2764] See B. xxvii. c. 66. The Calcitrapa stellata of Lamarck. Fée
remarks that Pliny has committed a great error, in making it a parasite
of the Spina fullonia. Dioscorides only says that the two plants grow
in the same spots.

[2765] The Viscum Europæum of modern naturalists.

[2766] The Viscum album of Linnæus; but Sprengel takes it to be the
Loranthus Europæus.

[2767] Fée questions whether this may not be the Loranthus Europæus.

[2768] The Viscum album of Linnæus; the oak mistletoe or real mistletoe.

[2769] This is not the fact: it grows upon a vast multitude of other
trees.

[2770] It is no longer used for this purpose.

[2771] The mistletoe never in any case loses its leaves, upon whatever
tree it may grow.

[2772] This is, of course, untrue; but the seeds, after being voided by
birds, are more likely to adhere to the bark of trees, and so find a
nidus for germination.

[2773] The exact opposite is the case, the female being the fruitful
plant.

[2774] The method used in Italy for making bird-lime is very similar at
the present day.

[2775] Magos.

[2776] Decandolle was of opinion, that the mistletoe of the
Druids was not a viscum, but the Loranthus Europæus, which is much more
commonly found on oaks.

[2777] Δρῦς, an “oak.” It is much more probable that it was of Celtic
origin.

[2778] Omnia sanantem.

[2779] “Sagum.” Properly, a “military cloak.”

[2780] It was, in comparatively recent times, supposed to be
efficacious for epilepsy.

[2781] See end of B. ii.

[2782] Author of a History or Annals of Rome. Nothing further is known
of him.

[2783] See end of B. vi.

[2784] See end of B. ii.

[2785] See end of B. iii.

[2786] See end of B. vii.

[2787] See end of B. iii.

[2788] See end of B. ii.

[2789] See end of B. ii.

[2790] See end of B. vii.

[2791] He is wholly unknown; but is conjectured to have lived
in the reign of Caligula or Tiberius.

[2792] See end of B. vii.

[2793] See end of B. xii.

[2794] He is unknown; but Solinus speaks of him as a valuable writer.

[2795] M. Vitruvius Pollio, an eminent architect, employed by Augustus.
His valuable work on architecture is still extant.

[2796] See end of B. xiv.

[2797] See end of B. iii.

[2798] See end of B. vii.

[2799] See end of B. iii.

[2800] See end of B. ii.

[2801] See end of B. ii.

[2802] He alludes to the various shrubs and trees, mentioned
as growing in the sea, B. xiii. c. 48; but which there is little doubt,
in reality belong to the class of fuci.

[2803] “Fiunt verius quam nascuntur;” a distinction
perpetuated in the adage, “Poeta nascitur, non fit.”

[2804] He probably alludes to his remark in B. xvi. c. 1.

[2805] Q. Luctatius Catulus, the colleague of Marius. Being afterwards
condemned to die by Marius, he suffocated himself with the fumes of
charcoal.

[2806] A.U.C. 659.

[2807] Valerius Maximus, B. ix. c. 1, relates this story somewhat
differently.

[2808] The Celtis Australis of Linnæus.

[2809] See B. xxxvi. cc. 3 and 24.

[2810] When, in his capacity of ædile, he gave theatrical
representations for the benefit of the public.

[2811] As Fée remarks, this usage has been reversed in modern times,
and plants often receive their botanical names from men.

[2812] See B. xviii. c. 4.

[2813] Or north north-east, as Fée says. He adds that this aspect in
reality is not favourable to vegetation. Pliny commits the error of
copying _exactly_ from Theophrastus, and thereby giving advice to Roman
agriculturists, which was properly suited to the climate of Greece only.

[2814] This is borrowed from Theophrastus; but, as Fée remarks, if
suitable to the climate of Greece, it is not so to that of Italy or
France, where vegetation is much more promoted by a south wind.

[2815] This assertion, Fée says, is erroneous. See B. xvi. c. 46.

[2816] B. xviii. c. 66.

[2817] See c. 30 of this Book. These notions as to critical periods
to plants connected with the constellations, Fée says, are now almost
dispelled; though they still prevail in France, to some extent.

[2818] “Coitus.” See B. xvi. cc. 39 and 42.

[2819] See B. xvi. c. 46.

[2820] From Theophrastus, De Causis, B. ii. c. 1.

[2821] He alludes to the words of Virgil, Georg. i. 100:—

  “Humida solstitia, atque hiemes orate serenas,
  Agricolæ; hiberno lætissima pulvere farra.”

Fée remarks, that the cultivators of the modern times are more of the
opinion of the poet than the naturalist.

[2822] Because rains would cause the young fruit to fall off. He here
attacks the first portion of the precepts of Virgil; but only, it
appears, in reference to the vine.

[2823] “Lactescentibus.” Fée remarks on the appropriateness of this
expression, as the act of germination, he says, in the cereals and all
the seeds in which the perisperm is feculent, changes the fecula into
an emulsive liquid, in which state the seed may be said, with Pliny, to
be “lactescent.”

[2824] Which appears to have been extensively done with the young
garden trees.

[2825] Georg. ii. 398.

[2826] Taken altogether, a southern aspect is preferable to all others.

[2827] See B. ii. c. 46.

[2828] Cc. 46 and 47.

[2829] He seems to lose sight of the fact that they _bud_ before those
that look to the north.

[2830] B. xvi. cc. 30, 31.

[2831] A rich black mould, probably.

[2832] A ferruginous argilla.

[2833] It must of necessity denote a soil rich in humus, though not, of
course, adapted for all kinds of cultivation.

[2834] He alludes to the difficulty with which argilla, from its
tenacity, is employed in cultivation.

[2835] Columella says the contrary, and so does Virgil, Georg. ii.
226, speaking of this fact as a method of ascertaining the respective
qualities of the earth.

[2836] Virgil, Georg. ii. 220, says the contrary.

[2837] In allusion to what Virgil says, Georg. ii. 254:—

  “Quæ gravis est, ipso tacitam se pondere prodit,
    Quæque levis——”

Fée remarks, however, that it is easy enough to analyse the earth, and
ascertain the proportions of humus, and of the siliceous, cretaceous,
or argillaceous earths; the relative proportions of which render it
strong or light, as the case may be.

[2838] As Fée says, these earths vary according to the nature of the
soils that are brought down by the streams; in general, however, they
are extremely prolific.

[2839] Fée says that Pliny is here guilty of some degree of
exaggeration. See B. iii. c. 9, p. 195 of Vol. 1: also B. xviii. c. 29.

[2840] “Tophus;” formed of volcanic scoriæ. Fée remarks, that it is
somewhat similar in nature to marl, and that though unproductive by
itself, it is beneficial when mixed with vegetable earth. Tufa and marl
appear to have been often confounded by the ancient writers.

[2841] Georg. ii. 189.

[2842] The Pteris aquilina of the modern botanists.

[2843] Marine salt, or sub-hydrochlorate of soda, Fée thinks, is here
alluded to. It is still used with varied success in some parts of the
west of France.

[2844] Hardouin says, that he here alludes to the proverbial saying
among the ancients, “Perflare altissima ventos”—“The winds blow only on
the most elevated ground.”

[2845] In B. xiv. cc. 4 and 12.

[2846] “Emisso.” Fée would appear to think that the lake suddenly
_made its appearance_, after an earthquake, and from the context he
would appear to be right. These accounts are all of them borrowed from
Theophrastus.

[2847] See B. v. c. 36.

[2848] See B. xv. c. 2.

[2849] See B. xiv. c. 8.

[2850] See B. xiv. c. 8.

[2851] See B. iii. c. 9.

[2852] See B. iii. c. 17.

[2853] Sumen. Properly, “udder.” A cow’s udder was considered one of
the choicest of delicacies by the Romans.

[2854] This is, of course, an exaggeration. The stake must have been
driven in very deep to disappear so speedily.

[2855] De Re Rust. 5.

[2856] This he says in reference to his belief, with Epicurus, in the
eternity of matter.

[2857] De Re Rust. 1.

[2858] See B. iii. c. 6.

[2859] De Re Rust. 151.

[2860] “Pulla.” The “vegetable” earth of modern botanists.

[2861] “Teneram.”

[2862] Iliad, xviii. 541 and 548.

[2863] Vulcan.

[2864] De Oratore, sec. 39.

[2865] See B. xiii. c. 4.

[2866] “Sapiunt,” rather than “redolent.”

[2867] This supposed flavour of the earth is, in reality, attributable
to the extraneous vegetable matter which it contains.

[2868] See B. xii. c. 52, as to this notion.

[2869] The reason being, that in such cases the soil is saturated with
thyme, origanum, mint, and other odoriferous herbs.

[2870] This opinion is contrary to that expressed by Columella, B.
ii. c. 1; but the justice of it is universally recognized. Upon this
theory, too, is based the modern practice of alternating the crops
in successive years, the necessity of providing for heavy rents, not
allowing the land to enjoy absolute rest.

[2871] This has not come to pass even yet, nearly two thousand years
since the days of Pliny.

[2872] See B. v. c. 3, and B. xviii. c. 21.

[2873] Fée taxes our author here with exaggeration. For Byzacium, see
B. v. c. 3, and B. xviii. c. 21.

[2874] Nevertheless, as Fée remarks, the method is often practised with
great success. Pliny is at issue here with Theophrastus, De Causis, B.
iii. c. 25.

[2875] A natural mixture of argilla and calcareous stones, or
subcarbonate of chalk. Fée remarks, that the ancients were not
acquainted with the proper method of applying it. Marl only exercises
its fertilizing influence after being reduced to dust by the action
of the atmosphere, by absorbing the oxygen of the air, and giving to
vegetation the carbonic acid that is necessary for their nourishment.

[2876] “White argilla.” This, Fée thinks, is the calcareous marl, three
varieties of which are known, the compact, the schistoid, and the
friable.

[2877] At the present day there are only two varieties of marl
recognized, the argillaceous and the calcareous; it is to the latter,
Fée thinks, that the varieties here mentioned as anciently recognized,
belonged.

[2878] The Marga terrea of Linnæus. It abounds in various parts of
Europe.

[2879] From the Greek, meaning “not bitter marl.”

[2880] Marl does not begin to fertilize till several years after it has
been laid down; hence, it is generally recommended to marl the land a
little at a time, and often. If the ground is fully marled, it requires
to be marled afresh in about eight or ten years, and not fifty, as
Pliny says.

[2881] “Argentaria.” Used, probably, in the same way as whitening in
modern times. See B. xxxv. c. 58.

[2882] An exaggeration, no doubt.

[2883] Probably meaning “smooth marl;” a variety, Fée thinks, of
argillaceous marl, and, perhaps, the potter’s argillaceous marl, or
potter’s argil. He suggests, also that it may have possibly been
the Marga fullonum saponacea lamellosa of Valerius; in other words,
fullers’ earth.

[2884] Creta fullonia.

[2885] See B. xxxv. c. 46.

[2886] This would rather seem to be a name borrowed from the Greek,
αἰγλήεις, “shining,” and πελιὸς, “white.” Notwithstanding the
resemblance, however, it is just possible that it may have been derived
from the Gallic. Fée queries whether this is the schistoid calcareous
marl, or the schistoid argillaceous marl, the laminæ of which divide
with great facility, and the varieties of which display many colours.

[2887] A variety of the terreous marl.

[2888] It has the effect of augmenting their fruitfulness, and
ameliorating the quality of the fruit. Lime is still considered an
excellent improver for strong, humid soils.

[2889] From this passage, Fée thinks that the Columbine marl must have
been of the white, slightly sparkling kind.

[2890] Though ashes fertilize the ground, more particularly when of an
argillaceous nature, they are not so extensively used now as in ancient
times. Pliny alludes here more particularly to wood and dunghill ashes.

[2891] This, however, he omits to do.

[2892] He alludes, probably, to Theophrastus, De Causis, B. iii. c. 22.

[2893] Odyssey xxiv. 225.

[2894] From “stercus,” “dung.” A fabulous personage, most probably.

[2895] De Re Rust. i. 38.

[2896] De Re Rust. ii. 15.

[2897] Mixed with other manures, it is employed at the present day in
Normandy.

[2898] This manure is still extensively employed in Flanders,
Switzerland, and the vicinity of Paris. In the north of England it is
mixed with ashes, and laid on the fields. There was an old prejudice,
that vegetation grown with it has a fetid odour, but it has for some
time been looked upon as exploded.

[2899] Or urine. In the vicinity of Paris, a manure is employed called
urate, of which urine forms the basis.

[2900] Fée seems to think that this passage means that the bad smell
of urine is imparted to it by the wine that is drunk. It is difficult
to say what could have been the noxious qualities imparted by wine to
urine as a manure, and Pliny probably would have been somewhat at a
loss to explain his meaning.

[2901] In lapse of time, if exposed to the air, it is reduced to the
state of humus or mould.

[2902] Consisting of lime mixed with vegetable ashes.

[2903] De Re Rust. i. 38.

[2904] “Herbas.” This would appear to mean grass only here; though Fée
seems to think that it means various kinds of herbs.

[2905] This method is sometimes adopted in England with buckwheat,
trefoil, peas, and other leguminous plants; and in the south of France
lupines are still extensively used in the same manner, after the usage
of the ancient Romans here described. The French also employ, but more
rarely, for the same purpose, the large turnip, vetches, peas, trefoil,
Windsor beans, sanfoin, lucerne, &c.; but it is found a very expensive
practice.

[2906] De Re Rust. 37.

[2907] “Frondam putidam.” Fée thinks that this expression is used
in reference to the “ebulum,” dane-wort, wall-wort, or dwarf-elder,
previously mentioned.

[2908] “Concidito.” Sillig adopts the reading “comburito,” “burn the
shoots, and dig in, &c.” But in the original the word is “concidito.”

[2909] De Re Rust. 30.

[2910] This is still extensively practised in England and France, and
other countries. The azote, even, that exhales from the bodies of the
animals, is supposed to have a fertilizing influence, to say nothing of
the dung, grease of the body, and urine.

[2911] De Re Rust. 37.

[2912] “Exsugunt,” “suck up,” or “drain,” is one reading in Cato; and
it is not improbable that it is the correct one.

[2913] Georg. i. 77, 78:

  “Urit enim lini campum seges, urit avenæ,
   Urunt Lethæo perfusa papavera somno.”

[2914] Fée is of opinion, that, with reference to this branch of
agriculture, the ancients displayed more skill and intelligence than
the moderns.

[2915] This absurdity is copied from Varro and Columella.

[2916] _I. e._ in the early part of spring. In modern times, the period
for manuring varies, according to the usage of different localities,
being practised in all the four seasons of the year, according to the
crops, weather, and climate.

[2917] See B. xvi. c. 58.

[2918] The palm is grown in Africa from shoots thrown out from the
axillæ of the leaves; and it is in this circumstance, Fée thinks, that
the story told by Trogus must have originated. Some of the ferns throw
out adventitious buds from the summit of the leaf, and the orange tree
and some others occasionally have them at the base of the leaf.

[2919] Virgil says, Georgics ii. 14:

  “Pars autem posito surgunt de semine; ut altæ
   Castaneæ, nemorumque Jovi quæ maxime frondet.”

[2920] This method of reproduction is seldom or never employed; plants
or cuttings only being used for the purpose.

[2921] Besides which, it is doubtful if they will reproduce the
variety, the seed of which was originally sown.

[2922] In some cases, they are more particularly liable to disease—the
apple, for instance.

[2923] Because the mode of cultivation adopted has little or no
influence upon them. The palm, however, to bear good fruit, requires
the careful attention of man. It is not capable of being grafted.

[2924] In B. xv. c. 39. The laurel may be grown from cuttings or
shoots, and from seed.

[2925] Known as the Laurus tinus, or Viburnum tinus of Linnæus.

[2926] This is not done at the present day, as it is found that the oil
which they contain turns rancid, and prevents germination.

[2927] These methods of preparation are no longer employed.

[2928] It is for this reason, as already stated, that they should be
sown at once.

[2929] See B. xv. c. 39. He there calls it “sterilis,” “barren.”

[2930] See B. xv. c. 37. The myrtle reproduces itself in its native
countries with great facility, but in such case the flowers are only
single. Where a double flower is required, it is grown from layers.

[2931] No better, Fée says, than the ordinary method of making a myrtle
hedge.

[2932] The almond requires a dry, light earth, and a southern aspect.

[2933] These precautions are no longer observed at the present day.

[2934] This precaution, too, is no longer observed.

[2935] The citron is produced, at the present day, from either the
pips, plants, or cuttings.

[2936] This passage is borrowed almost verbatim from Virgil, Georgics
ii. 50, _et seq._

[2937] “Perna.” This method of reproduction is still adopted, but it is
not to be recommended, as the young tree, before it throws out a root,
is liable to be overthrown by high winds. Virgil mentions it, Georg.
ii. 23.

[2938] Palladius only says that the growth of the quince in such case
is very slow.

[2939] This experiment has been tried for curiosity’s sake, and has
succeeded; the roots become dry, lose their fibres, and then develop
buds, from which branches issue; while the buds of the summit become
changed into roots.

[2940] “Seminarii:” “nurseries,” as they are more commonly called.

[2941] The distance, in reality, ought to vary according to the nature
and species of the trees, and the height they are to be allowed to
attain.

[2942] De Re Rust. 48.

[2943] These precautions are not looked upon as necessary for the
indigenous trees at the present day. For the first year, however, Fée
says, the hurdles might be found very useful.

[2944] As the young cypress is very delicate, in the northern climates,
Fée says, this mode of protecting it in the nursery might prove
advantageous.

[2945] There is some exaggeration in this account of the extreme
smallness of the seed of the cypress.

[2946] Wine and oil-presses, for instance.

[2947] B. xix. c. 48, and B. xx. c. 11. As Fée remarks, this is
a fabulous assertion, which may still be based upon truth; as in
gum-resin, for instance, we find occasionally the seeds of the parent
tree accidentally enclosed in the tear-like drops.

[2948] In B. xvi. c. 47.

[2949] In c. 11 of this Book.

[2950] “Volgiolis.” This word is found nowhere else, and the reading is
doubtful.

[2951] This is, at least, an exaggeration.

[2952] See B. xvi. c. 31, and c. 60.

[2953] It is propagated at the present day both from seed and suckers,
but mostly from the latter, as the seed does not germinate for two
years.

[2954] See B. xv. c. 14. Probably a variety of the jujube; but if so,
it could hardly be grafted on trees of so different a nature as those
here mentioned.

[2955] This tree has not been identified. Dalechamps thinks that it is
a species of gooseberry, probably the same as the Ribes grossularia of
Linnæus. It has been also suggested that it may be the Spina cervina
of the Italians, the Rhamnus catharticus of Linnæus, the purgative
buckthorn.

[2956] Fée doubts if the plum can be grafted on the thorn.

[2957] First of March.

[2958] The thickness of the thumb. See the last Chapter.

[2959] He alludes to the Atinian elm, of which he has already said the
same in B. xvi. c. 29.

[2960] From being about nine feet in circumference.

[2961] A “little altar.”

[2962] 13th of February.

[2963] _I. e._ each at an angle with the other, in this form:—

  *       *       *
      *       *
  *       *       *

It was probably so called from the circumstance that each triangle
resembles V, or five.

[2964] This is the reason why a soil of only middling quality is
generally selected for nurseries and seed-plots; otherwise it might be
difficult to transplant the young trees to an improved soil.

[2965] The ordinary depth, at the present day, is about two feet; but
when in an argillaceous soil, as Pliny says, the hole is made deeper.
If the soil is black mould, the hole is not so deep, and of a square
form, just as recommended by Pliny.

[2966] De Re Rust. 43.

[2967] This would be either useless, or positively injurious to the
tree.

[2968] See B. xiv. c. 14. It seems impossible to say with exactness
how this passage came to be inserted in the context; but Sillig is
probably right in suspecting that there is a considerable lacuna here.
It is not improbable that Pliny may have enlarged upon the depth of the
roots of trees, and the method of removing them in ancient times. Such
being the case, he might think it not inappropriate to introduce the
story of Papirius, who, when only intending to have a stump cut down
that grew in the way, took the opportunity of frightening the prætor of
Præneste, by the suddenness of the order to his lictor, and probably
the peremptory tone in which it was given. This was all the more
serious to the prætor, as Papirius had been rebuking him just before in
the severest terms.

[2969] From the bundle of fasces, or rods.

[2970] This precept is borrowed from Virgil, Georg. ii. 348, et seq.

[2971] There is little doubt that they took the right view.

[2972] De Re Rust. 28.

[2973] This precaution is omitted by the modern nurserymen, though Fée
is inclined to think it might be attended with considerable advantage,
as the fibres of the side that has faced the south are not likely to be
so firm as those of the northern side. This precaution, however, would
be of more importance with exotic trees than indigenous ones. It is
still practised to some extent with the layers of the vine.

[2974] Fée suggests that Pliny may have here misunderstood a passage in
Theophrastus, Hist. Plant. ii. 8, with reference to the planting of the
fig.

[2975] There would be no such result, Fée says.

[2976] This is a useless precaution; but at the same time, Pliny’s
fears of its consequences are totally misplaced.

[2977] At 11 A.M., or 2 P.M.; _i. e._ between south and south-east, and
south and south-west.

[2978] De Re Rust. 28.

[2979] Wet moss, or moist earth, is used for the purpose at the present
day.

[2980] De Re Rust. 28. It is most desirable to transplant trees with a
layer of the earth in which they have grown; but if carried out to any
extent, it would be an expensive process.

[2981] “Tradunt.” This expression shows that Pliny does not give credit
to the statement. Columella and Palladius speak of _three_ stones being
laid under the root, evidently as a kind of charm.

[2982] See B. xix. c. 30. A somewhat similar practice is also
recommended in B. xv. c. 18; but, of course, as Fée remarks, it can
lead to no results.

[2983] De Re Rust. 28.

[2984] Fée remarks that this is a useful precaution, more particularly
in the case of the coniferous trees, the fig, and others that are
rich in juice; but if universally used, would be attended with great
expense. The French use for the purpose a mixture of fresh earth and
cow-dung, to which they give the name of “onguent Saint-Fiacre.” See p.
481.

[2985] This is from Theophrastus, Hist. Plant. ii. 7. The question,
however, depends entirely upon the nature of the tree, the quality of
the soil, and various other considerations, as Pliny himself admits.

[2986] See B. xv. c. 24. This notion, Fée remarks, still prevails to a
very considerable extent.

[2987] By depriving it of the light, and the heat of the sun; but, most
probably, from no other reason.

[2988] “Quoniam et protecta vinearum ratione egent.” This passage is
probably in a mutilated state.

[2989] “In se convoluta.”

[2990] The plane was much valued for its shade by convivial parties.
Hence we find in Virgil, Georg. iv. 146—“Atque ministrantem platanum
potantibus umbram.”

[2991] He clearly alludes to the quivering poplar, Populus tremula of
Linnæus.

[2992] This is quite a fallacy. Even in the much more probable cases of
the upas and mangineel, it is not the fact.

[2993] Theophrastus, De Causis, B. iii. c. 8, says, that trees that
grow on declivities have shorter branches than those of the same kind
growing on plains.

[2994] De Re Rust. c. 16.

[2995] This assertion is doubtful; at the present day, in Andalusia,
the palm, the poplar, and many other trees are much larger than the
olive.

[2996] “Thousand pounders.” This, as Fée remarks, is clearly an
exaggeration.

[2997] Virgil, Georg. ii. 57, makes the same remark.

[2998] This shrub has not been identified.

[2999] See B. xii. c. 26.

[3000] De Re Rust. c. 51.

[3001] The French call cultivation by layers “marcotte,” as applied to
trees in general; and “provignage,” as applicable to the vine. The two
methods described by Pliny are still extensively practised.

[3002] Taken from Cato, De Re Rust. c. 133.

[3003] The Juniperus sabina of Linnæus: see B. xxiv. c. 61. It produces
seed, and there is only one variety that is barren; the plant being, in
reality, diœceous.

[3004] The rosemary, in reality, is a hermaphroditic plant, and in all
cases produces seed.

[3005] See B. xvi. c. 33.

[3006] This, Fée remarks, is in reality no more a case of grafting than
the growing of a tree from seed accidentally deposited in the cleft of
a rock.

[3007] Still used for the reproduction of fruit-trees and shrubs in the
pleasure garden.

[3008] Georg. ii. 73.

[3009] This story is borrowed from Theophrastus, De Caus. B. ii. c. 19.
Fée remarks, that it is very doubtful if an operation of so coarse a
nature could be productive of such results; and he says, that, at all
events, the two woods must have been species of the same genus, or else
individuals of the same family. The mode of grafting here described is
called by agriculturists in foreign countries, “Pliny’s graft.”

[3010] These statements as to the locality of the sap are erroneous.

[3011] The fig is the only fruit that is not improved by grafting; but
then it is not similar to most fruit, being, as Fée says, nothing more
than a fleshy floral receptacle.

[3012] This remark is founded on sound notions of vegetable physiology;
but at the same time it is contradictory to what he states in the
sequel as to grafting the pear on the plane, the apple on the cornel,
&c.

[3013] Georg. ii. 78.

[3014] An unnecessary precaution. It is not the situation of the
branches so much as the nature of the soil, traversed by the roots,
corresponding to them, that would be likely to have an influence on the
graft. There is little doubt that Pliny borrowed the present passage
from Columella, De Re Rust. v. 11; and De Arbor. 20.

[3015] This is sound advice.

[3016] See B. xvi. c. 39, 40, and 41.

[3017] In reprehending this absurd notion, Fée bestows a passing
censure on the superstitions of this nature, contained in the English
Vox Stellarum, one of our almanacks; and in the French “Almanach des
Bergers,” “Shepherds’ Almanack.”

[3018] This is borrowed by Palladius, in the operations of February,
tit. 17, and October, tit. 12.

[3019] De Re Rust. 40.

[3020] This is the onguent Saint-Fiacre of the French, and is still
used to protect the graft from all contact with the exterior air.

[3021] “Altitudinem,” as Dalechamps suggests, would appear to be a
better reading than “latitudinem.”

[3022] See B. xxv. c. 40.

[3023] Borrowed from Columella, B. iv. c. 29. This method is still
employed for young plants; in France it is called “salting” the plants.

[3024] De Re Rust. 41.

[3025] The first of these methods is now the only one at all employed
with the vine; indeed, it is more generally reproduced by means of
layers and suckers.

[3026] It is not accurately known what was the form or particular merit
of this auger or wimble.

[3027] Fée remarks, that the period here named is very indefinite. May
and the early part of June are the periods now selected for grafting
the vine.

[3028] This is borrowed from Varro, De Re Rust. B. i. c. 40. In
reality, it makes no difference whether the stock is that of a wild
tree or of the cultivated species.

[3029] “Emplastrum.” Properly, the little strip of bark, which is
fitted in with the eye, and which is _plastered_ or soldered down.

[3030] “Scutula.” So called from its resemblance to a “little shield.”

[3031] De Re Rust. 42.

[3032] Cato says, three and a-half.

[3033] Chalk and cow-dung. See c. 24 of this Book.

[3034] Perhaps “Tuliæ;” which would mean, according to Festus, the
“cascades” or “waterfalls” of Tibur, now Tivoli.

[3035] Fée says, that if we take the word “grafted” here in the
strictest sense, Pliny must have seen as great a marvel as any of those
mentioned in the “Arabian Nights;” in fact, utter impossibilities. He
thinks it possible, however, that a kind of mock grafting may have been
produced in the case, still employed in some parts of Italy, and known
as the “greffe-Diane.” A trunk of an orange tree is split, and slips
of numerous trees are then passed into it, which in time throw out
their foliage and blossoms in various parts of the tree, or at the top;
the consequence of which is, that the stock appears to bear several
varieties of blossoms at the same moment. It is not improbable that
Pliny was thus imposed upon.

[3036] The plane and the oak are no longer employed for the purpose.

[3037] See B. xv. c. 25.

[3038] See c. 29 of this Book.

[3039] See B. xv. c. 17.

[3040] The mulberry is incapable of being grafted on the elm.

[3041] De Re Rust. 45. The method of planting here described is still
the one most generally approved of for the olive.

[3042] De Re Rust. 44. The rules here given are still very generally
observed.

[3043] B. xv. c. 6.

[3044] See c. 2 of this Book, and B. xviii. c. 69.

[3045] The olive is an extremely long-lived tree; it has been known to
live as long as nine or ten centuries. A fragment of the bark, with a
little wood attached, if put in the ground, will throw out roots and
spring up. Hence it is not to be wondered at, that the ancients looked
upon it as immortal.

[3046] B. xviii. c. 74.

[3047] B. xviii. c. 74.

[3048] B. ii. c. 47, and B. xviii. c. 68.

[3049] There is a contradiction here; a few lines above, he says that
they _do_ plant their trees in Greece at this period. He may possibly
mean “sow.”

[3050] See B. xvi. c. 41. The rules here laid down by Pliny are, as
Fée remarks, much too rigorous, and must be modified according to
extraneous circumstances.

[3051] 13th of February.

[3052] B. xv. c. 26.

[3053] 1st of March.

[3054] 15th of March.

[3055] B. xvi. cc. 30, 46, 67, and 78.

[3056] De Re Rust. B. v. c. 11. A very absurd and useless method, Fée
remarks.

[3057] In c. 24 of this Book.

[3058] All the precepts given in this Chapter have been already given
in cc. 3 and 4 of the present Book.

[3059] The maple, linden, elm, and arundo donax, are still employed,
as well as the willow, for this purpose; the latter, however, but very
rarely. The account of its cultivation here given is borrowed from
Columella, De Re Rust. B. iv. c. 30.

[3060] The Salix viminalis of Linnæus, or white osier.

[3061] The Salix alba of Linnæus. These stakes, or props, are for the
support of the vine.

[3062] For making baskets and bindings.

[3063] The Populus canescens of Willdenow.

[3064] The Arundo donax of Linnæus. This account is mostly from
Columella, B. iv. c. 32.

[3065] B. xvi. c. 67.

[3066] First of March.

[3067] This method is condemned by Columella, De Arbor. 29, as the
produce is poor, meagre, and weak. It is but little practised at the
present day.

[3068] A mere superstition, of course.

[3069] “Pedamenta,” uprights, stays, stakes, or props.

[3070] This is not the fact, for the chesnut both grows and buds very
slowly.

[3071] A black, hot kind of earth. See c. 3 of this Book.

[3072] In reality, the chesnut will not thrive in a tufaceous, or,
indeed, in any kind of calcareous, soil.

[3073] In B. xv. c. 25.

[3074] The heaps of five in which they are sown.

[3075] The chesnut is grown with the _greatest difficulty_ from layers
and slips, and never from suckers. Pliny borrows this erroneous
assertion from Columella, B. iv. c. 32. In mentioning the heaps of
five nuts, Pliny seems to have had some superstitious observance in
view, for Columella only says that they must be sown thickly, to
prevent accident. The same is done at the present day, in order to make
provision for the depredations of field-mice, rats, and mice, which are
particularly fond of them.

[3076] The willow and the reed.

[3077] See B. xvi. cc. 5, 6, and 56.

[3078] In B. xvi. c. 60.

[3079] “Armamentis.” More properly, “rigging,” or “tackle.” He alludes
to the trees from which the uprights or stays for the vine are cut, or
which produce osiers for baskets and bindings required in the vintage.

[3080] See B. xiii. c. 42, and B. xvi. c. 65.

[3081] “Gemma.” A name now given by botanists to the buds in general.

[3082] “Oculus.” A bud undeveloped is still so called.

[3083] Germen.

[3084] This remark is not confirmed by experience.

[3085] On the contrary, the fig-tree has been known to live to a very
great age.

[3086] See B. xvi. c. 51.

[3087] This method of planting the vine is still extensively used;
especially the low kinds.

[3088] See c. 13 of this Book.

[3089] Sagittæ.

[3090] Trigemmes.

[3091] “Pampinarius.” This assertion has been found to be erroneous.

[3092] This practice has been condemned by modern cultivators.

[3093] From Columella, B. iii. c. 19.

[3094] In c. 24 of this Book.

[3095] “Marra.” Probably a mattock, with several prongs.

[3096] Occupies more space when thus loosened.

[3097] As compared with the original level of the ground.

[3098] Query, if this is the meaning of “extendi”?

[3099] This method is no longer used.

[3100] This, Fée remarks, is not the case: the tree might bear four
kinds of grapes, but not four kinds on the same bunch.

[3101] De Arbor. c. 9. This is not the fact.

[3102] He was little aware, Fée says, that all ligneous plants have a
radiating pith, distinct from the central one.

[3103] See B. xvi. c. 72.

[3104] Oliver de Serres distinguishes only three—the low, middling, and
tall vines.

[3105] See B. xiv. c. 4.

[3106] See B. xiv. c. 4.

[3107] “Jugum.” The cross-piece running along the top of the stay at
right angles; a rail or trail.

[3108] “Compluviatæ quadruplici.” Four cross-pieces running at right
angles to the prop or stay. See B. xvi. c. 68.

[3109] When these trenches and furrows are employed by the moderns,
they are made to run as much as possible from east to west. Most of the
rules here mentioned by Pliny are still adopted in France.

[3110] Fée regards this precept as a puerility.

[3111] See B. xviii. c. 77.

[3112] See B. xviii. c. 77. Decuman roads or paths ran from east to
west; cardinal roads were those at right angles to them.

[3113] “Pagina.” A set, compartment, or bed.

[3114] “Transtris.” “Ridges,” would appear to be the proper reading
here; more especially as it agrees with what has been previously said
in this Chapter in reference to declivitous ground.

[3115] De Re Rust. 40.

[3116] He differs somewhat in these measurements from Columella, B. iv.
c. 11.

[3117] This is condemned by Columella, B. iv. c. 11; but is approved of
by Virgil, Cato, and other authors.

[3118] In c. 34 of this Book.

[3119] Stays of elder would be utterly worthless, as they would soon
rot, and break directly, upon the least strain.

[3120] This applies solely, Fée observes, to the vine trained on the
trail or cross-piece.

[3121] This certainly appears to be a _non sequitur_, as applied to the
vine.

[3122] In the present Chapter.

[3123] Pampinarium.

[3124] Fructuarium.

[3125] Custos.

[3126] The pilferer, “or little thief,” apparently.

[3127] This, Fée observes, is not in accordance with the fact.

[3128] “Draco.” Male vines appear to have been a kind that threw out no
stock-branches, but ran to wood.

[3129] Than three buds, as already mentioned in the present Chapter.

[3130] “Pollices.” Branches, so called from the resemblance, being cut
off above the first eye. See Columella, De Re Rust. B. iv. c. 24.

[3131] Small forks of hazel are still used for the purpose, in Berri
and the Orleanais.

[3132] This plan is highly recommended by the modern growers.

[3133] This, as Fée remarks, is based upon sound reason.

[3134] In B. xiv. cc. 4 and 5.

[3135] B. xviii. c. 66.

[3136] 13th of April.

[3137] 10th of May.

[3138] A mere puerility—the dust, in fact, being injurious to the
grape, by obstructing the natural action of heat and humidity.

[3139] 15th of May. This clearing of the leaves, though still
practised, Fée says, is by no means beneficial; the only result is,
that the grapes become of a higher colour, but in no degree riper than
they otherwise would have been.

[3140] The proper period for pruning varies in reality according to the
climate.

[3141] See B. xviii. c. 59.

[3142] See Columella, De Re Rust. B. iv. c. 29.

[3143] The real reason, as Fée remarks, is the comparative facility of
cutting aslant rather than horizontally; indeed, if the latter were
attempted, injury to the wood would be the certain result.

[3144] The pruning should come first, in every case, Fée says.

[3145] De Re Rust. c. 33. The advice given by him, though good, is not
applicable to all vineyards.

[3146] A sort of clover, probably. See B. xviii. c. 42, and a few lines
below.

[3147] From the Greek ὠκέως, “quickly”—Varro says.

[3148] See c. 15 of this Book.

[3149] It is still practised in Dauphiné and the department of the
Basses Alpes. It is very prevalent, also, in the South of Italy.

[3150] All these trees are still employed for the purpose in Italy.

[3151] B. xvi. c. 68.

[3152] Palmæ.

[3153] From Columella, B. v. c. 7.

[3154] This method is no longer employed.

[3155] Rasilis.

[3156] Columella, B. v. c. 6.

[3157] Columella, B. v. c. 6.

[3158] Capreolis.

[3159] As being too dense and shady.

[3160] From the Greek, meaning the “vine-band.” It was, probably, a
kind of rush.

[3161] Fée thinks that he may mean the Festuca fluitans more
particularly, by the name _ulva_.

[3162] It is no longer used, and Fée doubts its utility.

[3163] Hardouin suggests “Tarracina.”

[3164] In c. 16 of this Book.

[3165] To drain the upper part of the tree.

[3166] Pergulas. See B. xiv. c. 3.

[3167] See B. xviii. c. 56. These, of course, are mere superstitions.

[3168] Animalium.

[3169] In B. xiii. c. 6.

[3170] In B. xiii. c. 47.

[3171] This is the opinion of Theophrastus, Hist. Plant. B. iv. c. 16.

[3172] In c. 2 of this Book.

[3173] “Vermiculatio.” Fée understands this to apply to the attacks of
insects in general, the Dermestes typographus more particularly.

[3174] Or, in other words, the evil influences of the heavenly bodies:
this, of course, is not believed in at the present day.

[3175] Necrosis, in particular portions of the plant.

[3176] See B. xvi. c. 19. He alludes to an exuberant secretion of
resin, in which case the tree becomes charged with it like a torch.

[3177] He alludes to the epidemic and contagious maladies by which
trees are attacked. The causes of these attacks are often unknown,
but they may probably proceed, in many instances, from springs of hot
water, or gaseous emanations secreted in the earth.

[3178] The woodpecker more particularly. See B. x. c. 20.

[3179] It is not known, with certainty, what these worms or
caterpillars were. The larva of the capricorn beetle, or of the
stag-beetle, has been suggested. Geoffroi thinks that it may have been
the larva of the palm-weevil. This taste for caterpillars, probably, no
longer prevails in any part of Europe.

[3180] This passage, which is quite conformable to truth, is from
Theophrastus, Hist. Plant. B. iv. c. 16, and B. iii. c. 12.

[3181] See B. xvi. c. 80.

[3182] The effects produced upon young shoots by frost, are still so
called.

[3183] Probably from the black colour which it turns.

[3184] In this case it would be very similar to what we call sun-stroke.

[3185] “Clavum,” a nail. He appears to allude to a gall that appears on
the bark of the olive, the eruption forming the shape of a nail, and,
in some instances, a “patella,” or platter. The Coccus adonideum is an
insect that is very destructive to the olive.

[3186] De Re Rust. 6.

[3187] A sort of Erineum, Fée suggests. See B. xv. c. 6.

[3188] “Impetigo.” “Tetter,” or “ringworm,” literally.

[3189] From Theophrastus, Hist. Plant. B. iv. c. 16.

[3190] Σφακελισμὸς and κράδος.

[3191] From Theophrastus, Hist. Plant. B. iv. c. 16. Fée is at a loss
to know what is meant by these viscous dews, and is unable to identify
the disease here mentioned as “scabies.” It is not improbable that it
was caused by an insect.

[3192] See cc. 35 and 45 of this Book.

[3193] See B. xviii. c. 69.

[3194] In c. 35. See also c. 45 of this Book.

[3195] From Theophrastus, Hist. Plant. B. iv. c. 16. If the terminal
bud of the palm is taken off, it will mostly die.

[3196] “Decidunt.” The French use a similar word—_couler_. In this case
the pollen, being washed off by the showers, has not the opportunity of
fecundating the ovary of the flower.

[3197] The insect Ichneumon or Pupivora, probably, which breeds in
the larvæ or else in the body of the caterpillar. The passage is from
Theophrastus, B. iv. c. 16.

[3198] Caused probably by a maggot or moth passing from one grape
or olive to another, and spinning its web in vast quantities. See
Theophrastus, B. iv. c. 17.

[3199] See B. xviii. c. 74.

[3200] On the contrary, this sweet juice is secreted by the insect
itself, an aphis or vine-fretter.

[3201] The north-west wind. See Horace, Sat. B. i. s. v. l. 71.

[3202] See B. ii. c. 46.

[3203] He probably means if applied _to the bark_ of young trees.

[3204] The cork-tree forms no exception to the rule—if a complete ring
of the bark that lies under the epidermis is removed, the death of the
tree is the inevitable result. See B. xvi. c. 13.

[3205] Probably the Arbutus integrifolia. See B. xiii. c. 40.

[3206] This in reality is not the bark, but merely the epidermis, which
is capable of reproduction in many trees.

[3207] See c. 16 of this Book.

[3208] This method, however, is often found efficacious in preserving
the life of the oak, as well as many other trees, by excluding the
action of the air and water.

[3209] It prevents them from increasing in height, but does not cause
their death.

[3210] De Re Rust. B. i. c. 2.

[3211] In B. viii. c. 76, and B. xv. c. 8.

[3212] This statement is fabulous. Goats are apt to injure trees by
biting the buds and young shoots. Fabulous as it is, however, Fée
remarks that it still obtains credit among the peasantry in France.

[3213] This fabulous story is taken from Theophrastus, De Causis, B. v.
c. 25.

[3214] Also from Theophrastus, Hist. Plant. B. iv. cc. 19-20, and De
Causis, B. v. c. 22. It is just possible that on some of the branches
being torn off by an animal, the tree may have grown with increased
vigour.

[3215] In B. xiii. c. 9, and in c. 30 of this Book.

[3216] See B. xvi. c. 47.

[3217] It must be remembered that ivy is not a parasite, and that it
has no suckers to absorb the nutriment of another tree.

[3218] See B. xvi. c. 62.

[3219] C. Bauhin gives this name to several species of Atriplex. Lacuna
was of opinion that the Halimon of Dioscorides was the same as the
Viburnum.

[3220] A superstitious belief only, as Fée remarks.

[3221] See B. xix. c. 26.

[3222] Virgil shared this belief: see Georg. ii. l. 299.

[3223] This may be true in some measure as to nitre, alum, and warm
sea-water; but not so as to the shells of beans and pigeon-pease, which
would make an excellent manure for it.

[3224] This, as Fée remarks, is not by any means impossible, nor,
indeed, are any other of the cases mentioned in this paragraph, owing
to some accidental circumstance.

[3225] See B. xxix. c. 29.

[3226] These stories can, of course, be only regarded as fabulous.

[3227] This may easily be accounted for, by the seed accidentally
lodging in a crevice of the tree.

[3228] A. U. C. 600.

[3229] An exaggerated account merely of a land-slip.

[3230] See c. 43 of this Book.

[3231] See c. 45 of this Book.

[3232] In B. xvi. cc. 53, 56, 66, 67, and 90.

[3233] This was the native place of Ovid, who alludes to its cold
streams, Tristia, B. iv. El. x. ll. 3, 4:—

  “Sulmo mihi patria est, gelidis uberrimus undis,
    Millia qui novies distat ab urbe decem.”

Irrigation of the vine is still practised in the east, in Italy, and in
Spain; but it does not tend to improve the quality of the wine.

[3234] The Sagrus, now the Sangro.

[3235] “Uredo rubigo” and “uredo caries.”

[3236] Cc. 45 and 70.

[3237] Still practised upon the cherry-tree.

[3238] He alludes to the medical operation for the removal of carious
bones, described by Celsus, B. viii. c. 3.

[3239] This is still done by some persons; but it can be productive of
no beneficial result.

[3240] See B. xv. c. 21: the Cynips psenes of Linn. It penetrates the
fig at the base, and deposits an egg in each seed, which is ultimately
eaten by the larva; hence the supposed transformation.

[3241] A kind of wasp, probably.

[3242] A puerility borrowed from Columella, B. v. c. 10.

[3243] From Columella, B. v. c. 10.

[3244] Trucidatio.

[3245] For the removal of moss and lichens, which obstruct evaporation,
and collect moisture to an inconvenient degree, besides harbouring
insects.

[3246] Agriculturists, Fée says, are not agreed upon this question.

[3247] Or laser. See B. xix. c. 15.

[3248] See B. xviii. c. 35.

[3249] Pœnâ emendantur.

[3250] It is very doubtful whether this is not likely to prove very
injurious to them. This passage is from Theophrastus, De Causis, B.
iii. c. 23.

[3251] Without any efficacy, beyond a doubt.

[3252] The action of salt upon vegetation is, at the best, very
uncertain.

[3253] These recipes are worthless, and almost impracticable.

[3254] This method is still adopted, but with none of the accessories
here mentioned by Pliny.

[3255] A dangerous practice, Fée remarks, and certainly not to be
adopted.

[3256] Mitior.

[3257] De Re Rust. 93.

[3258] At the present day, fumigations are preferred to any such
mixtures as those here described. Caterpillars are killed by the fumes
of sulphur, bitumen, or damp straw.

[3259] “Convolvulus.” He alludes to the vine Pyralis, one of the
Lepidoptera, the caterpillar of which rolls itself up in the leaves of
the tree, after eating away the foot-stalk.

[3260] The “fly,” or “winged” insect. The grey weevil, Fée thinks, that
eats the buds and the young grapes.

[3261] An absurd superstition.

[3262] This may possibly be efficacious, but the other precepts here
given are full of absurdity.

[3263] It might possibly drive them to a distance, but would do no more.

[3264] An absurd notion, very similar to some connected with the same
subject, which have prevailed even in recent times.

[3265] De Re Rust. 160. The words of this charm over the split reed
while held near the injured limb, were as follow:—“Sanitas fracto—motas
danata daries dardaries astataries”—mere gibberish.

[3266] De Re Rust. 139. This prayer was offered to the deity of the
sacred grove, after a pig had been first offered—“If thou art a god, or
if thou art a goddess, to whom this grove is sacred, may it be allowed
me, through the expiation made by this pig, and for the purpose of
restraining the overgrowth of this grove, &c.” It must be remembered
that it was considered a most heinous offence to cut down or lop a
consecrated grove. See Ovid, Met. B. viii. c. 743.

[3267] See end of B. ii.

[3268] See end of B. iii.

[3269] See end of B. ii.

[3270] See end of B. vii.

[3271] See end of B. vii.

[3272] See end of B. iii.

[3273] See end of B. x.

[3274] See end of B. xi.

[3275] See end of B. xvi.

[3276] See end of B. vii.

[3277] See end of B. ix.

[3278] See end of B. xiv.

[3279] See end of B. viii.

[3280] See end of B. xiv.

[3281] Fabianus Papirius; see end of B. ii.

[3282] See end of B. x.

[3283] See end of B. xiv.

[3284] A Roman rhetorician, preceptor of Antony and Augustus. He is
said to have claimed descent from Epidius, a deity worshipped on the
banks of the Sarnus.

[3285] See end of B. ii.

[3286] See end of B. vii.

[3287] See end of B. iii.

[3288] See end of B. ii.

[3289] See end of B. ii.

[3290] See end of B. ii.

[3291] See end of B. viii.

[3292] See end of B. viii.

[3293] See end of B. viii.

[3294] See end of B. viii.

[3295] For Xenophon of Athens, see end of B. iv. For Xenophon of
Lampsacus, see end of B. iii.

[3296] See end of B. viii.

[3297] See end of B. viii.

[3298] See end of B. viii.

[3299] See end of B. viii.

[3300] See end of B. viii.

[3301] See end of B. viii.

[3302] See end of B. viii.

[3303] See end of B. viii.

[3304] See end of B. vi.

[3305] See end of B. viii.

[3306] See end of B. xiv.

[3307] See end of B. viii.

[3308] See end of B. viii.

[3309] See end of B. ii.

[3310] See end of B. x.

[3311] See end of B. viii.

[3312] See end of B. viii.

[3313] See end of B. viii.

[3314] See end of B. viii.

[3315] See end of B. xii.

[3316] See end of B. viii.

[3317] See end of B. viii.


END OF VOL. III.


J. BILLING, PRINTER AND STEREOTYPER, WOKING, SURREY.


Transcriber’s notes:

The spelling, hyphenation, punctuation and accentuation are as the
original, except for apparent typographical errors which have been
silently corrected.

‘BOOK XII.’ heading is ‘BOOK X.’ in the original and has been
corrected.

‘BOOK XIV’ and ‘BOOK XV’ are both titled ‘THE NATURAL HISTORY OF
THE FRUIT-TREES.’ ‘BOOK XIV’ describes the grape vine and ‘BOOK XV’
describes the olive and various other trees.

Footnote [1718] ‘See B. xii. c. 95.’ in the original is incorrect and
has been changed by the transcriber to read ‘See B. xii. c. 48.’

Footnote [3192] ‘See cc. 35 and 50 of this Book.’ in the original is
incorrect and has been changed by the transcriber to read ‘See cc. 35
and 45 of this Book.’

Footnote [3236] Refers to chapter 70 of book XVII which does not exist.

In ‘GREEK AND ROMAN MONEY’ the following changes have been made:—

   Obolus, G                      1-1/2 .5 pence. Silver.
   now reads:—
   Obolus, G                      1-1/2 pence + .5 farthings. Silver.

   Quadrans. R                    53,125 farthing. Copper.
   now reads:—
   Quadrans. R                    .53125 farthings. Copper.





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