LIBRARY 
 
 UNtV^RSTTYWF 
 CALIFORNIA 
 
 SAN OULGO
 
 SECRETS OF EARTH AND SEA
 
 BY THE SAME AUTHOR 
 
 SCIENCE FROM AN EASY CHAIR 
 
 SCIENCE FROM AN EASY -CHAIR. Second Scries 
 
 DIVERSIONS OF A NATURALIST

 
 SECRETS OF EARTH 
 
 AND SEA 
 
 BY 
 
 SIR RAY LANKESTER 
 
 K.C.B., F.R.S. 
 
 WITH NUMEROUS ILLUSTRATIONS 
 
 ; 
 
 
 METHUEN & GO. LTD. 
 
 36 ESSE3K&TREET W.G. 
 
 LONDON
 
 First Published in 1920
 
 PREFACE 
 
 THE present volume is, like its predecessors, "Science 
 from an Easy Chair" (Series I and Series II) and 
 " Diversions of a Naturalist " mainly a revision and 
 reprint with considerable additions of articles published 
 in daily or weekly journals. The first chapter appeared 
 originally in "The Field." The Chapters VI, XX, XXI, 
 and XXII were published in the " Illustrated London 
 News," under the title " About a Number of Things." The 
 rest are some of the articles which, as " Science from an 
 Easy Chair," I contributed, during seven years, to the 
 " Daily Telegraph." That, to me very happy, conjunction 
 was, like so many other happy things, necessarily inter- 
 rupted by the Great War. 
 
 One result of that terrible cataclysm is that not a few 
 thoughtful writers have been led to deny the existence of 
 what they call " Progress," meaning by that word the 
 development of mankind from a less to a more complete 
 attainment of moral and physical well-being. The 
 question raised is obscured by the arbitrary use of the 
 word " progress," since by it any movement from point 
 to point whether advantageous and desirable or the 
 reverse is described, as, for instance, in the familiar titles 
 given by Bunyan to his book "The Pilgrim's Progress" 
 and by Hogarth to his pictures "The Rake's Progress." 
 b
 
 vi SECRETS OF EARTH AND SEA 
 
 Those who to-day despair of man's future limit their 
 outlook on the past to the conventional history of some 
 three or four thousand years. The only solid ground 
 upon which we can base the supposition that mankind 
 has moved from a less to a more complete attainment 
 of moral and physical well-being and will continue to 
 do so, exists in the ascertained facts of the past history 
 of living things on this Earth, and of man since his 
 earliest emergence from among the man-like apes made 
 known to us by his stone-implements and fossilized 
 bones. That there has been a development from lower, 
 simpler structure to higher, more complex, more efficient 
 structure is demonstrable, and so is the proposition that 
 there has been in the human race a continuous develop- 
 ment in the direction of increased adaptation to the 
 conditions of social life and an increased control by man 
 of those natural agencies which he can either favour when 
 conducive to his prosperity, or on the other hand can 
 arrest when inimical to it. " The continuous weakening of 
 selfishness and the continuous strengthening of sym- 
 pathy " (to adopt the words of the American philosopher, 
 Fiske) are, in spite of numerous lapses and outbursts of 
 savagery, patent features of the long history of mankind. 
 We have no reason to doubt their continuation, whilst 
 at the same time we must be prepared for and accept, 
 without desponding, the ups and the downs, the disasters 
 as well as the triumphs, which inevitably characterize the 
 natural process of evolution. One thing, above all others, 
 we as conscious, reasoning beings can do which must 
 tend to the further development and security of human 
 well-being : we can ascertain ever more and more of the 
 truth, or in other words, "that which is." We can discover
 
 PREFACE vii 
 
 the actual conditions of natural law, under which we exist 
 and promote the knowledge of that truth among our 
 fellows. To do that which is right, we must know that 
 which is true. To act rightly, we must know truly. 
 
 We possess a vast heritage of knowledge handed on 
 to us in tradition and in writings from our father-man in 
 the past. But there are yet immense fields of knowledge 
 to be explored and yet a greater task to be accomplished 
 in spreading the knowledge which we possess, and in 
 persuading all men that it is their right and their duty 
 to acquire it and to enjoy the power and the pleasure 
 which it gives. All must also help, directly or indirectly, 
 in the making of new knowledge. Whilst mankind is 
 still so backward in knowledge and the worship of wisdom, 
 it is idle to indulge in despair of the future. A chief way 
 to increased welfare is still open and untrodden. 
 
 These are big speculations and problems with which 
 to preface a small book. But I am content to offer 
 the small book as a contribution, however restricted, to 
 the spread of a desire for further knowledge of the things 
 about which it tells a possible incitement to serious 
 study of some one or other among them. 
 
 E. RAY LANKESTER 
 June 2</, 1920
 
 CONTENTS 
 
 CHAP. PAGE 
 
 I. THE EARLIEST PICTURE IN THE WORLD . . i 
 
 II. PORTRAITS OF MAMMOTHS BY MEN WHO SAW 
 
 THEM ....... 26 
 
 III. THE ART OF PREHISTORIC MEN . . - 35 
 
 IV. VESUVIUS IN ERUPTION . . . -55 
 V. BLUE WATER . . . . . -74 
 
 VI. THE BIGGEST BEAST . . . . .84 
 
 VII. WHAT is MEANT BY "A SPECIES"? . . -92 
 
 VIII. MORE ABOUT SPECIES . . . . .100 
 
 IX. SPECIES IN THE MAKING . . . .108 
 
 X. SOME SPECIFIC CHARACTERS . . . .118 
 
 XI. HYBRIDS . . . . . . -131 
 
 XII. THE CROSS-BREEDING OF RACES . . . 139 
 
 XIII. WHEEL ANIMALCULES . ': . - . . 157 
 
 XIV. MORE ABOUT WHEEL ANIMALCULES . . .165 
 XV. SUSPENDED ANIMATION . . . .173 
 
 XVI. MORE ABOUT SUSPENDED ANIMATION . 182 
 
 XVII. THE SWASTIKA . . . . . .191 
 
 XVIII. THE ORIGIN OF THE SWASTIKA . . .200 
 
 XIX. THE TOMOYE AND THE SWASTIKA . . . 209 
 
 XX. COAL . . . . . .217 
 
 XXI. BORING FOR OIL ..... 223 
 
 XXII. THE STORY OF LIME-JUICE AND SCURVY . . 229 
 INDEX ....... 239
 
 EXPLANATION OF THE 
 FRONTISPIECE 
 
 THIS plate shows the restoration of the extinct lizard, 
 Dimetrodon gigas (Cope), lately made by Mr. Charles 
 W. Gilmore of the United States National Museum, 
 by whose kind permission it is here reproduced from the 
 Proceedings of the U.S. National Museum, vol. 56, 1919. 
 It is based upon the study of a very fine skeleton 
 and some hundred bones of allied species, collected by 
 Mr. Sternberg from "the Permian formation" exposed 
 in the vicinity of Seymour, Texas, U.S.A. It is selected 
 for illustration here because its most striking feature the 
 high dorsal fin-like crest along the middle of the back 
 formed by the elongation of the neural spines of the 
 vertebrae is a puzzle to the conscientious Darwinian. 
 Professor Case says of it : " The elongate spines were use- 
 less, so far as I can imagine, and I have been puzzling 
 over them for several years. It is impossible to conceive 
 of them as useful either for defence or concealment, or in 
 any other way than as a great burden to the creatures 
 (terrestrial non-aquatic animals) that bore them. They 
 must have been a nuisance in getting through the vegeta- 
 tion, and a great drain upon the creature's vitality, both 
 to develop them and keep them in repair." The reader 
 is referred to pp. 127, 1 28, where a brief discussion of such
 
 xii SECRETS OF EARTH AND SEA 
 
 exuberant growths will be found. The excessive growth 
 of the median fins in the fish Pteraclis allied to the 
 Dolphin which displays changing floods of surface colour 
 as it dies and in the Australian Blenny called Pataecus 
 both figured on p. 130 should be compared with that 
 of the strange crest of the grotesque Dimetrodon.
 
 LIST OF ILLUSTRATIONS 
 
 DlMETRODON . . . . . Frontispiece 
 
 FIGS. PAGE 
 
 i, 2. ENGRAVED CYLINDER OF RED-DEER'S ANTLER, 
 FROM THE AZILIAN (ELAPHO-TARANDIAN) HORIZON 
 OF THE CAVERN OF LORTET .... 2 
 
 3. A. PERFORATED HARPOON OF THE AZILIAN OR RED- 
 
 DEER PERIOD. B. AND C. IMPERFORATE HARPOONS 
 
 OR LANCE HEADS ..... 3 
 
 4. ROLLED IMPRESSION OR "DEVELOPMENT" OF THE 
 
 ENGRAVING ON THE LORTET ANTLER . .12 
 
 5. RESTORATION (OR COMPLETION) OF THE ENGRAVING 
 
 ON THE LORTET ANTLER . . . -13 
 
 6. FRAGMENT OF A ROUGHLY-PAINTED VASE OF THE 
 
 DIPYLON AGE (CIRCA 800 B.C.) FROM TIRYNS . 23 
 
 7. ENGRAVING OF A MAMMOTH DRAWN UPON A PIECE 
 
 OF MAMMOTH IVORY . . . . .27 
 
 8. OUTLINE ENGRAVINGS OF MAMMOTHS ON THE WALL 
 
 OF THE CAVERN KNOWN AS THE "FONT DE 
 GAUME," NEAR EYZIES (DORDOGNE) . . -31 
 
 9. SIMILAR ENGRAVINGS FROM THE NEIGHBOURING CAVE 
 
 OF COMBARELLES . . . . -32 
 
 10. A, SIMILAR ENGRAVING FROM THE CAVE OF COM- 
 
 BARELLES. B, MAMMOTH ENCLOSED BY PLANK- 
 LIKE STRUCTURE SUPPOSED TO BE EITHER A 
 CAGE OR A TRAP . . . . -33 
 
 11. HORSE (WALL ENGRAVING), CAVE OF MARSOULAS, 
 
 HAUTE GARONNE . . . . -44
 
 xiv SECRETS OF EARTH AND SEA 
 
 12. HORSE (WALL ENGRAVING) OUTLINE IN BLACK, CAVE 
 
 OF NIAUX (ARIEGE) . . . . .44 
 
 13. HORSES : A, WALL ENGRAVING (CAVE OF HORNOS DE 
 
 LA PNA). B, WALL ENGRAVING FROM CAVERN 
 
 OF COMBARELLES. C, ENGRAVED ON REINDEER 
 
 ANTLER (MAS D'AZIL) . . . . -44 
 
 14. DRAWING (OF THE ACTUAL SIZE OF THE ORIGINAL) OF 
 
 A FLAT CARVING IN SHOULDER -BONE OF A 
 HORSE'S HEAD, SHOWING TWISTED ROPE-BRIDLE 
 AND TRAPPINGS . . . . . -45 
 
 15. DRAWING (OF THE ACTUAL SIZE OF THE ORIGINAL) 
 
 OF A FULLY ROUNDED CARVING IN REINDER'S 
 ANTLER OF THE HEAD OF A NEIGHING HORSE . 45 
 
 1 6. REINDEER (ENGRAVING ON SCHIST) . . .46 
 
 17. RHINOCEROS IN RED OUTLINE . . . .46 
 
 1 8. BISON FROM THE ROOF OF THE CAVERN OF ALTAMIRA 47 
 
 19. BISON : WALL ENGRAVINGS . . . .47 
 
 20. BEAR : ENGRAVED ON STALAGMITE, FROM THE CAVE 
 
 OF TEYJAT NEAR EYZIES . . . .48 
 
 21. BEAR : ENGRAVED ON STONE, MASSOL (ARIEGE) . 48 
 
 22. WOLF : ENGRAVED ON WALL OF THE CAVE OF COM- 
 
 BARELLES ...... 48 
 
 23. WALL ENGRAVING OF A CAVE LION (COMBARELLES) . 48 
 
 24. GOOSE : SMALL ENGRAVING ON REINDEER ANTLER . 49 
 
 25. FEMALE FIGURE CARVED IN OOLITIC LIMESTONE FROM 
 
 WlLLENDORF, NEAR KREMS, LOWER AUSTRIA (1908) 50 
 
 26. DRAWING (OF THE ACTUAL SIZE OF THE ORIGINAL) OF 
 
 AN IVORY CARVING (FULLY ROUNDED) OF A 
 FEMALE HEAD . . . . . -51 
 
 27. SEATED FIGURE OF A WOMAN HOLDING A BOVINE 
 
 HORN IN THE RIGHT HAND . . . -52
 
 LIST OF ILLUSTRATIONS xv 
 
 FIG. PAGE 
 
 28. MALE FIGURE REPRESENTED IN THE ACT OF DRAW- 
 
 ING A BOW OR THROWING A SPEAR . . -53 
 
 29. A PIECE OF MAMMOTH IVORY CARVED WITH SPIRALS 
 
 AND SCROLLS FROM THE CAVE OF ARUDY (HAUTES 
 PYRENEES) ... . . . -54 
 
 30. VESUVIUS AS IT APPEARED BEFORE THE ERUPTION OF 
 
 AUGUST 24, A.D. 79 . . . -57 
 
 31. FIVE SUCCESSIVE STAGES IN THE CHANGE OF FORM OF 
 
 VESUVIUS (FROM PHILLIPS' "VESUVIUS," 1869) . 62 
 
 32. THE UPPER-ARM BONE OR HUMERUS OF THE GREAT 
 
 REPTILE (GIGANTOSAURUS) OF TENDAGOROO . 89 
 
 THE GIGANTIC REPTILE DIPLODOCUS ON LAND . 91 
 
 33. THE RUDIMENTARY GILL-PLUME OF A CRAYFISH FROM 
 
 THAT PART OF THE BODY-WALL TO WHICH THE 
 FIRST PAIR OF JAW-LEGS (MAXILLIPEDES) is ARTICU- 
 LATED . . . . . . .123 
 
 STRANGELY-SHAPED FISHES . '. . .130 
 
 34. DIAGRAM OF ROTIFER VULGARIS THE COMMON 
 
 WHEEL ANIMALCULE ONE HUNDRED AND TWENTY 
 TIMES AS LONG AS THE CREATURE ITSELF . .159 
 
 35. THE ROTIFER PEDALION MIRUMS-EEK FROM THE 
 
 RIGHT SIDE, MAGNIFIED 180 DIAMETERS . .161 
 
 36. THE ROTIFER PEDALION MIRUM SEEN FROM THE 
 
 VENTRAL SURFACE . . . . . 162 
 
 37. THE ROTIFER NOTEUS QUADRICORNIS TO SHOW ITS 
 
 CURIOUS FOUR-HORNED CARAPACE . . .163 
 
 THE LARVAL OR YOUNG FORM OF CRUSTACEA KNOWN 
 
 AS "THE NAUPLIUS" . . ' . .. .164 
 
 37 (bis). THREE TUBE-BUILDING WHEEL ANIMACULES . 169 
 
 YOUNG STAGES OF GROWTH OR VELIGER LARVAE OF 
 
 MARINE SNAILS . .181
 
 xvi SECRETS OF EARTH AND SEA 
 
 FIG. 1'AGE 
 
 38. THE SWASTIKA IN ITS SIMPLEST RECTANGULAR FORM . 191 
 
 39. THREE SIMPLE VARIETIES OF THE SWASTIKA . . 192 
 
 40. FOOTPRINT OF THE BUDDHA . . . . 193 
 
 41. VASE FROM CYPRUS (MYKEN/EAN AGE, CIRCA 1200 
 
 B.C.) ; PAINTED WITH LOTUS, BIRD AND FOUR 
 SWASTIKAS . . . . . -194 
 
 42. TERRA-COTTA SPINDLE-WHORL MARKED WITH SWASTI- 
 
 KAS ..... .194 
 
 43. ORNAMENT FROM AN ARCHAIC (PRE-HELLENIC) Bozo- 
 
 TIAN VASE, SHOWING SEVERAL SWASTIKAS, GREEK 
 CROSSES AND Two SERPENTS. . . -195 
 
 43 (bis). SWASTIKAS IN BRONZE REPOUSSE . . .196 
 
 44. SILVER-PLATED BRONZE HORSE GEAR FROM SCANDI- 
 
 NAVIA, SHOWING TWO SWASTIKAS, AND BELOW A 
 COMPLEX ELABORATION OF A SWASTIKA . . 196 
 
 45. ANGLO-SAXON URN FROM SHROPHAM, NORFOLK, ORNA- 
 
 MENTED BY TWENTY SMALL HAND-MADE SWASTIKAS 
 STAMPED INTO THE CLAY . . . .196 
 
 46. PIECE OF A CEREMONIAL BEAD-WORKED GARTER, 
 
 SHOWING STAR AND Two SWASTIKAS . . 197 
 
 47. A STONE SLAB FROM THE ANCIENT CITY OF MAYAPAN 
 
 (YUCATAN, CENTRAL AMERICA), ON WHICH (RIGHT 
 SIDE) A CURVILINEAR SWASTIKA is CARVED . 198 
 
 48. DIAGRAM TO SHOW THE DERIVATION OF THE SWASTIKA 
 
 FROM A GREEK CROSS ENCLOSED BY A CIRCLE . 199 
 
 49. THE GREEK KEY PATTERN IN A RECTANGULAR, AND 
 
 B CURVILINEAR OR " CURRENT " FORM . . 202 
 
 50. DIAGRAMS OF THE "TRISKELION". . . .203 
 
 51. FOUR STAGES IN THE SIMPLIFICATION OF A DECOR- 
 
 ATIVE DESIGN THE ALLIGATOR . . .205 
 
 52. SIMPLIFICATION (GRAMMATIZING)OF DECORATIVE DESIGN 206
 
 LIST OF ILLUSTRATIONS xvii 
 
 FIG. PAGE 
 
 53. SPINDLE-WHORL FROM TROY (FOURTH CITY), WITH 
 
 THREE SWASTIKAS ..... 207 
 
 54. THE " TOMOYE "THE JAPANESE BADGE OF TRIUMPH . 209 
 
 55. SYMBOLS OF THE HISTORY OF THE UNIVERSE USED 
 
 BY THE ANCIENT CHINESE PHILOSOPHER CHU-HSI 210 
 
 56. DIAGRAMS TO SHOW THE POSSIBLE DERIVATION OF 
 
 THE SWASTIKA FROM THE INSCRIPTION OF Two S- 
 LIKE LINES (OR " OGEES ") WITHIN A CIRCLE so AS 
 TO DIVIDE THE CIRCLE INTO FOUR BENT CONES . 2IO 
 
 57. TERRA-COTTA CONE WITH A SEVEN-ARMED SUN-LIKE 
 
 FIGURE . . . . . . .211 
 
 58. SCALLOPED SHELL DISK, FROM A MOUND NEAR NASH- 
 
 VILLE, TENNESSEE, SHOWING IN THE CENTRE A 
 TETRASKELION WITH FOUR CURVED ARMS . .212 
 
 59. AN ALTAR-STONE OF PREHISTORIC AGE . . .213 
 
 60. DIAGRAMS OF ARBELI . . . .215
 
 SECRETS OF EARTH AND SEA
 
 SECRETS OF EARTH AND SEA 
 
 CHAPTER I 
 THE EARLIEST PICTURE IN THE WORLD 
 
 IN Figs, i and 2 on the next page a cylindrical piece 
 of the antler of a red deer is represented of half the 
 
 natural size. On it are carved by in-sunk lines certain 
 representations of animals. It was found in the cavern of 
 Lortet, near Lourdes, in the department of the Hautes 
 Pyre'ne'es, in the south of France, together with many other 
 remains of prehistoric man. This cavern was excavated 
 and all its contents of human origin carefully preserved 
 by M. Edouard Piette in 1873 an ^ tne following years. 
 Drawings of this and other remarkable carved pieces of 
 bone and antler, many in the form of harpoon heads, and 
 of small chipped flint implements, all found in this cave, 
 were published by him. 1 He excavated also several other 
 caverns with great care, and his collections were be- 
 queathed by him on his death to the great Museum of 
 National Archaeology at St. Germain, near Paris, where I 
 have had the advantage of studying them. 
 
 The age assigned to this carving is that called by Piette 
 
 1 " L'Age du Renne," a posthumous work, with one hundred coloured 
 quarto plates of objects in the Piette collection, is published by Masson, of 
 Paris, and gives the complete list of Piette's numerous earlier papers, issued 
 as his excavations proceeded.
 
 SECRETS OF EARTH AND SEA 
 
 H -S 
 
 i* 
 
 ii 
 
 ll
 
 THE EARLIEST PICTURE IN THE WORLD 3 
 
 " Elapho-Tarandian." At this period the reindeer (Tar- 
 andus), which previously abounded, is giving place to the 
 red deer (Elaphus). The layer in which this carving was 
 found belongs to the latest of 
 the Palaeolithic cave deposits, 
 and was followed by a warmer 
 period, in which the red deer 
 and the modern fauna entirely 
 replaced the old fauna of the 
 Glacial period. The deposits 
 in Pyrenean caves of the 
 Elapho - Tarandian age are 
 characterized by an abund- 
 ance of large flat harpoons 
 serrated on both sides. In this 
 latest horizon of the Reindeer 
 period the art of engraving 
 in outline on bone and stone 
 had attained the highest pitch 
 of excellence which it reached 
 
 in the prehistoric race of 
 South- West Europe. 
 
 A very natural tendency 
 among those who hear from 
 time to time something of 
 what is being discovered about 
 primitive man is to confuse 
 all the periods and races of 
 prehistoric man together, and 
 so picture to themselves one 
 
 FIG. 3. A. Perforated harpoon 
 of the Azilian or Red-Deer 
 period, made from antler of 
 red deer, found in quantity in 
 the upper layers of deposit 
 in the cavern of the Mas d'Azil 
 (Arriege). B and C. Imper- 
 forate harpoons or lance heads 
 made from reindeer antler of the 
 Magdalenian period (Reindeer 
 epoch). B from Bruniquel Cave 
 (Tarn-et-Garonne). C from a 
 cavern in the Hautes Pyrenees. 
 Same size as the objects. 
 
 ideal " primitive man." My 
 friend Mr. Rudyard Kipling does this, although it would 
 be no further from a true conception were he to blend 
 his ancient Britons, his Phenicians, his Romans, his 
 Saxons, his Normans, and a few Hindoos into one
 
 4 SECRETS OF EARTH AND SEA 
 
 imaginary man and represent him as taking a coloured 
 photograph of the Druids of Stonehenge on a piece of 
 Egyptian papyrus. Here is Mr. Kipling's vision of 
 primitive man : 
 
 Once on a glittering icefield, ages and ages ago, 
 Ung, a maker of pictures, fashioned an image of snow. 
 Later he pictured an aurochs, later he pictured a bear 
 Pictured the sabre-tooth tiger dragging a man to his lair 
 Pictured the mountainous mammoth, hairy, abhorrent, alone 
 Out of the love that he bore them, scribing them clearly on bone, 
 Straight on the glittering icefield, by the caves of the lost Dordogne, 
 Ung, a maker of pictures, fell to his scribing on bone. 
 
 The fact is that several prehistoric races have succeeded 
 one another in Western Europe during the immensely 
 long period amounting to hundreds of thousands of 
 years during which man existed before the dawn of 
 history. The " lost " or " prehistoric Dordogne " was like 
 the present historic Dordogne in regard to the fact that 
 many races and dynasties successively held possession of 
 it and left their work in its soil and caves. 
 
 Passing back through the historic age of iron and the 
 sub-historic age of bronze, we come to a time, about four 
 thousand years ago, when there were no men in the west 
 of Europe who made use of metals at all, although, for a 
 thousand or two years earlier, men were using bronze and 
 copper in the East. European races immediately before 
 the first use of metals made beautiful implements of 
 stone (chiefly flint), and finished them by grinding and 
 polishing them. These men are spoken of as Neolithic 
 men, or men of the Neolithic period. They had herds 
 and cultivated crops, and they built after a fashion rough 
 houses in wood and tombs and temples with great slabs of 
 stone. They made pottery and woven cloth. The animals 
 and plants of Europe were the same in those late pre- 
 historic times as they are to-day. The Lake dwellings of 
 Switzerland belong to this epoch and yield us their remains
 
 THE EARLIEST PICTURE IN THE WORLD 5 
 
 as evidence. The men had very nearly the same set of 
 domesticated animals as we have to-day, but they had no 
 skill in carving outlines of animals. Their only decorative 
 work consisted of parallel lines, straight or in zigzags or in 
 circles, graven on the great stone slabs which they erected. 
 We can trace them back to some seven thousand years 
 B.C. and then comes a huge gap we do not know how 
 many thousand years in our evidence as to what was 
 going on in this part of the world. We find con- 
 vincing proof that before this interval the climate was 
 much colder than it is to-day, and that the land surface 
 of Europe was in many respects very different from what 
 it became later. Britain was continuous with the 
 Continent. There were in that remote period human 
 tribes spread over the less frigid valleys of Europe. They 
 had no fields, no herds; they fed on the roasted flesh 
 of the animals they chased and on the fish they speared, 
 and on wild fruits and roots. They dwelt chiefly, if not 
 wholly, in caves, probably also in skin tents, but they 
 did not build either in wood or in stone. The age 
 which we thus reach is called the Palaeolithic, or 
 " ancient " Stone age, because men made use of stone, 
 which they chipped into shape, but, unlike the Neo- 
 lithic people, never polished it. We find enormous 
 numbers of these rough or Palaeolithic stone imple- 
 ments both in caves and in the gravels deposited in the 
 ancient beds of rivers. They are so abundant as to 
 prove the existence of a very considerable human popula- 
 tion in the remote ages when they were fashioned and 
 used. The changes which have taken place and the time 
 involved since some of these Palaeolithic implements were 
 made and used may be guessed at (but cannot be definitely 
 calculated) from the fact that the beds of the rivers which 
 formed the gravel terraces in which they are found in 
 England were^in many cases, from one to six hundred
 
 6 SECRETS OF EARTH AND SEA 
 
 feet above the level of the present rivers. The land 
 surface has risen and the rivers have simultaneously 
 excavated deep and wide valleys leaving terraces of gravel 
 high up on their sides. These show where the rivers once 
 flowed. The vastness of the excavation of the valley from 
 the level of the old river bed 600 ft. up on the sloping 
 hill-side to its present low-lying bed in the floor of the 
 valley gives us some measure of the time which has 
 elapsed in the process. 
 
 No one can tell, at present, the limit in the past of 
 Palaeolithic man. The period of time over which his 
 existence extended, as indicated by the trimmed flints 
 undoubtedly made by human workmanship, is a matter of 
 hundreds of thousands of years. In Western Europe races 
 came and went, succeeded one another and disappeared, 
 either migrating or absorbed or more rarely destroyed by 
 the later invaders. Naturally enough, in the later deposits 
 of rivers and in the higher layers of earth and limestone 
 cake which fill many caves to the depth of 30 or 40 ft. we 
 find the remains of man's workmanship more abundantly 
 than in the older deposits. 
 
 We can broadly distinguish in the Palaeolithic epoch 
 three (perhaps four) periods, separated by the occurrence 
 of great extensions of the northern or arctic ice cap of 
 such a volume as to cover North Europe and North 
 America, and the simultaneous extension of the glaciers 
 of the mountains of Europe. This period of the alternat- 
 ing extension and retreat of the great northern glaciers 
 is known as the Glacial period, or Ice Age. The latest 
 Palaeolithic men are subsequent to it that is, post-Glacial. 
 We can distinguish several successive ages of these post- 
 Glacial Palaeolithic men, altogether distinct from and 
 anterior to the Neolithic men. In the earlier of these 
 ages many of the great animals of the Glacial period 
 now extinct or withdrawn to other regions still survived
 
 THE EARLIEST PICTURE IN THE WORLD 7 
 
 in Europe. The mammoth survived, but was fast dying 
 out in the south and centre of France, and we find its 
 outline scratched on ivory and on bone by the early post- 
 Glacial men. The lion still survived in Europe, also the 
 hyena, the bear and the rhinoceros. The reindeer seems 
 to have been especially abundant, and to have been 
 associated with the men of this period. The horse was 
 very abundant, and was largely eaten by the earlier 
 post- Glacial people. From the first these men show 
 extraordinary artistic skill, and have left in their caves 
 many carvings on ivory, bone and stone. In the 
 oldest deposits of the post-Glacial age the carvings are 
 complete all-round sculptures of small size or carvings in 
 low relief, all of rough primitive workmanship. Larger life- 
 size sculptures in rock are also found. In later deposits 
 we find better sculpture and also engraving on flat pieces 
 of bone and ivory, and also on stone. This art persisted, 
 and attained its greatest perfection in the latest deposits 
 of all in which the work of Palaeolithic man is found. The 
 reindeer persisted through this post-Glacial period (hence 
 often called "the reindeer period") until the gradual 
 increase of temperature and change of herbage and forest 
 led to its migration northwards and to the relative 
 abundance of the red deer. It is to this latest period 
 the Elapho-Tarandian of Piette that the engraved 
 antler figured here (Figs. I and 2) belongs. 
 
 At an earlier stage of the post-Glacial period men 
 hunted the bison and other large game in the north of 
 Spain and made coloured drawings of them on the roofs 
 and walls of their caves, drawings which have been copied 
 and preserved : whilst the mammoth, the rhinoceros, the 
 cave lion and bear still inhabited south central France 
 and are pictured on the walls of caves in that region 
 as described in Chapter II. Later we lose all trace of 
 Palaeolithic man and his wonderful artistic skill. He
 
 8 SECRETS OF EARTH AND SEA 
 
 seems either to have migrated or to have been absorbed 
 in the immigrant Neolithic race a race singularly devoid 
 of any tendency to artistic sculpture or engraving. 
 
 The skeletons and skulls of the men of the Reindeer 
 period, or post-Glacial Palaeolithic men, have been dis- 
 covered here and there. They indicate a fine, tall people 
 with well-shaped skulls and jaws, comparable to the 
 nobler modern races. It is convenient to call them 
 Cromagnards, since good skulls of the race have been 
 described from Cromagnon, in France. There is evidence 
 (from skulls) that another race (the negroid so called 
 " Aurignacians ") preceded and coexisted to some extent in 
 Western Europe with them, but we have, at present, no 
 evidence as to whence or how the Neolithic race or the 
 Cromagnard race or any of their predecessors came upon 
 the scene ! 
 
 When we go farther back and reach the actual Glacial 
 period we find a very different state of things. The men 
 who then existed in the caverns are called the Neander 
 men. They were a short, bandy-legged, long-armed, low- 
 browed people, great workers of flints. They had the 
 use of fire, and contended with hyenas and bears and lions 
 for the occupation of their caverns. In their day the 
 day of European glaciation the mammoth was in full 
 occupation of the pine forests on the edge of the glaciers. 
 But the Neander men made no sculptures, or carving, or 
 engravings. The gap between them and the Cromagnon 
 men is much greater than that between an Australian 
 black fellow and an average Englishman ; indeed, the 
 difference is properly expressed by regarding the Neander 
 man as a distinct species Homo neanderthalensis. 
 
 Passing again farther back over an immense period 
 of time, we find Europe warm again ; the glaciers have 
 (for a time) gone or retreated far up the mountains but 
 are found in extension again at a still earlier date. An
 
 THE EARLIEST PICTURE IN THE WORLD 9 
 
 inter-Glacial set of animals is now found living in a com- 
 paratively warm climate in Western Europe. Another 
 elephant (Elephas antiquus) is there (not the mammoth), 
 and another rhinoceros (not the woolly rhinoceros of the 
 later Glacial period) ; the hippopotamus flourished then 
 in Europe and swam in the Thames and Severn, and 
 there too, at last is the sabre-toothed tiger, which did not 
 exist at all at a later period ! Now was the time when 
 a man, if he could, might have " scribed " the image of a 
 sabre-toothed tiger on a piece of bone, but, so far as we 
 know, he did not and could not. This was ages before 
 other succeeding men walked " on glittering ice fields," 
 and they, in turn, were ages earlier than the artistic 
 Cromagnards of the Reindeer period. 
 
 The presence of men in the warm inter-Glacial times 
 in Europe is proved by the association of rough but 
 undisputed flint implements with the inter-Glacial animals 
 and by the discovery of a most interesting human jaw 
 (chinless, like that of the Neander men) in what is held 
 to be a prae-Glacial deposit at Heidelberg. We have very 
 little knowledge of Glacial and prae-Glacial man except 
 well characterized flint implements and two skeletons, 
 some detached limb bones, four or five jaws, and as many 
 skulls. 1 But of post-Glacial Palaeolithic man we know 
 the skeletons of the Cromagnard race, their sepulture, 
 their decorative necklaces, and their bone and ivory 
 carvings and engravings, and the coloured rock paintings 
 and other work of earlier races (the Aurignacians, and 
 others) belonging to successive epochs or eras, which 
 
 1 Seven years ago the ape-like lower jaw and thick walled brain-case called 
 " Eoanthropus " were discovered in a sparse gravel near Lewes in Sussex. 
 It is probably of older date than either the Neander men or the Heidelberg 
 men. See on this subject the chapters on "The Missing Link" in my 
 "Diversions of a Naturalist" (1915) and those on "The Most Ancient 
 Men" and "The Cave-men's Skulls" in "Science from an Easy Chair. 
 First Series" (1910).
 
 io SECRETS OF EARTH AND SEA 
 
 have been discovered in caves in France, Spain, Belgium, 
 and Austria. It was long after them that the Neolithic 
 people appeared. 
 
 The preceding remarks will have made it clear that 
 the engraved antler here figured was carved by a man 
 who was not really at all primitive, although he lived 
 probably between twenty and fifty thousand years ago. 
 It will also have been made clear that hundreds of such 
 engravings, more or less fragmentary, are known. Some 
 are very skilful works of art, others of a much inferior 
 quality. Many, however, show an astonishing familiarity 
 with the animal drawn and a sureness of drawing which 
 is not surpassed by the work of modern artists (see 
 Chapter III). The interest of the particular engraved 
 antler which I am describing is that it is the only carving 
 of its age as yet discovered which is more than a drawing 
 or sculpture of a single animal. It is a " picture " in the 
 sense of being a composition. It is not, it is true, painted 
 it is engraved ; but being a composition it is entitled 
 to be called "the earliest picture in the world." Let 
 me describe it a little more fully with the help of the 
 illustrations. 
 
 The engraving has been made on a long cylindrical 
 piece of the red deer's antler. It can hardly be con- 
 sidered as decorative, since the figures of the animals do 
 not show as such on the cylindrical surface (Figs. I and 2). 
 Pieces of antler, bone, and ivory carved with spiral scrolls 
 and circles which are really decorative and effective as 
 decoration are found in these caves (Fig. 29). But often 
 such pieces as the present are met with. It has been dis- 
 covered by French archaeologists that the true intent of 
 such engravings may be rendered evident by rolling the 
 cylinder on a plastic substance (soft wax or similar 
 material), when the drawing is " printed off" or " de- 
 veloped " as it is termed. A great number of such line
 
 THE EARLIEST PICTURE IN THE WORLD 1 1 
 
 engravings have been thus printed off or developed, 
 and plaster casts made from the flat impressions are 
 preserved in the museum of St. Germain, the engraved 
 lines being rendered obvious by letting them fill with 
 printing ink. They often give us in this way a " printed " 
 drawing of remarkable accuracy and artistic quality. 
 The rolled-off print of our specimen is shown in Fig. 4. 
 The cylinder has been damaged by time, but the print 
 shows, more or less completely, a vigorous outline draw- 
 ing of three red deer, with six salmon-like fish placed 
 in a decorative way above them and between their legs. 
 Two lozenge-shaped outlines (above the larger stag) are 
 held by good authorities to be the signature of the artist. 
 The group of deer is represented in movement. The 
 largest stag is on the right; his hindquarters are broken 
 away by injury to the cylinder. He is commencing to 
 advance, and turns his head backwards to see what is the 
 thing which has alarmed him and his companions ; at 
 the same time his mouth is open, and he is "blowing." 
 The second stag is a younger and smaller animal, and 
 is retreating more rapidly. The cylinder is damaged so 
 that, although all the four legs of this second stag are 
 preserved, the head and neck are gone, though the points 
 of the antlers are preserved. The same damage has 
 removed all but the hind legs of the still younger animal 
 who heads the group. The beauty of the drawing of these 
 hind legs and the extraordinary impression of graceful, 
 rapid movement given by their hanging pose, side by 
 side, is not surpassed, even if it be equalled, by the work 
 of any modern draughtsman. It is clear that the youngest 
 and smallest member of the group is, as is natural, the 
 most timid, and that he has sprung off with a sudden 
 bound on the occurrence of the alarm from the rear, which 
 is setting the whole group into motion with increasing 
 velocity as we pass from right to left.
 
 12 
 
 SECRETS OF EARTH AND SEA 
 
 
 * *"%' 
 ,V* %
 
 THE EARLIEST PICTURE IN THE WORLD 13
 
 14 SECRETS OF EARTH AND SEA 
 
 The " printed-off," or " unrolled," or " developed " 
 picture given in Fig. 3 is an exact reproduction of a copy 
 of the cast made and preserved in the Museum of 
 National Antiquities at St. Germain, for which I am 
 indebted to my friend M. Salomon Reinach, the dis- 
 tinguished archaeologist who is the director of that 
 museum. It is reproduced here, a little larger than half 
 the size of the original, as are the representations of the 
 carved cylinder itself (Figs. I and 2). In Fig. 4 we have 
 my attempt to restore the damaged portions of the 
 design and to present it as it was when the Palaeolithic 
 man completed it some 20,000 years ago. 
 
 I will return to the question of the correctness of this 
 restoration, but before doing so I wish to mention some 
 extremely interesting points as to the probable use of the 
 cylinder of stag's antler and the purpose of the carving 
 around its axis. In the first place, this and a few other 
 of the pieces of carving of the post-Glacial period were 
 certainly the work of highly gifted and practised artists. It 
 is obvious that this work is far superior both in conception 
 and execution to the more or less clever, often grotesque, 
 carvings and paintings made by modern savages or simple 
 pastoral folk. There is no reason to suppose that the 
 Cromagnards, or men of the post-Glacial or Reindeer 
 period of West Europe, differed from modern races in 
 being universally gifted with artistic capacity. This en- 
 graving of three stags is almost certainly the work of 
 a man who belonged to a family or guild of picture- 
 makers who had cultivated such work for centuries and 
 handed it on from master to apprentice. This design is 
 probably one which had been perfected by many succeed- 
 ing observers and draughtsmen. Its sureness of line and 
 vivacity of movement are not the outcome of the sudden 
 inspiration of an untutored savage, but are the result of 
 the growth, cultivation, and development of artistic per-
 
 THE EARLIEST PICTURE IN THE WORLD 15 
 
 ception and the power of artistic execution in successive 
 generations. 
 
 It seems in the highest degree improbable, if not 
 impossible, that so excellent a drawing as this should 
 have been cut on the cylindrical piece of antler by an 
 engraver who never saw the flat or rolled-off impress of 
 his design. One is driven to the conclusion that he must, 
 as he worked on the bone, have taken an impress of 
 the growing picture from time to time, using probably 
 animal fat and charcoal as an " ink " and printing on to a 
 piece of prepared skin or on to a birch-bark cloth. How 
 otherwise could he have made his engraving so truly that 
 when, ages afterwards, we print it off the cylinder, we are 
 astonished and delighted by its perfection of design and 
 execution ? If this be once admitted namely, that the 
 artist tested and checked his work by printing it off as he 
 proceeded with it we gain what appears to me to be the 
 probable solution of the question which has been largely 
 debated, " For what where these carved cylinders or rods 
 used? " Those which are simple cylindrical rods, such as 
 the present one, must be distinguished from others which 
 have one or more circular holes bored in them and others 
 which are curiously bent at an angle. Such specimens 
 are often carved with small unimportant ornament, not 
 requiring development or printing. They as well as the 
 present class have been spoken of as " wands of authority " 
 and " sceptres " ; some are considered to be arrow 
 straighteners ; others have been supposed to be " divining 
 rods " or " rods of witchcraft " ; whilst one of those dis- 
 covered by M. Piette (others similar to it are known) 
 has been regarded as a " lance thrower " or " propulsor " 
 (such as modern primitive races use), having a notch at 
 one end upon which the lance to be thrown is made to 
 rest. The latest suggestion as to these notch -and - 
 hook-bearing rods, is that they are large crochet hooks
 
 1 6 SECRETS OF EARTH AND SEA 
 
 used in making nets. It has also been suggested that 
 some of these carved rods were used as ,',' fasteners " of the 
 skins used as clothing. 
 
 I venture to suggest that the elaborately carved 
 cylinder which we are considering and others bearing 
 similar carvings, which only show up when a printing of 
 them is taken, were used by the men who made them for 
 this very same " printing " as an end in itself. The picture 
 could be thus impressed on skins, birch bark, and other 
 material. This race was thoroughly familiar with the use 
 of paint formed by mixing grease with charcoal (to produce 
 black), red ochre (to produce red), yellow ochre (to pro- 
 duce yellow), and some preparation of limestone or chalk 
 (to produce white). Coloured pictures representing animals 
 of the chase, coloured with red, yellow, white, and black 
 and outlined by engraving, have been discovered on the 
 rock walls of the caves used by them. Such pictures are 
 found of relatively early as well as of late date within 
 the post-Glacial Palaeolithic period (see Chapter III). The 
 rock picture of a single animal is usually from two to five 
 feet long. People who could make those coloured designs 
 and who could draw and compose so admirably as the 
 author of the " Three Red Deer " would have desired to 
 "roll off" and to possess printings of their favourite repre- 
 sentations of animal life, whilst we must admit that their 
 skill and ingenuity was assuredly equal to the task of 
 so printing them. If this carving of the " Three Red 
 Deer " were never printed it could not have been executed 
 in the first place, nor seen and admired when completed. 
 If even only half a dozen or a dozen impressions were 
 taken from it for ornamenting the skins or other material 
 used by a chief, or a wizard, or a woman, its production 
 becomes intelligible. It is true that there is nothing 
 known as to the use of such printing from a cylinder 
 among existing primitive people, but it is known in
 
 THE EARLIEST PICTURE IN THE WORLD 17 
 
 very early times (4500 B.C.), since cylindrical seals 
 were used by the Babylonians. Elaborately grooved 
 blocks used for printing on cloth are known from Fiji 
 and Samoa, and the mere practice of printing on to a 
 flat surface is common enough among savage races in 
 regard to the human hand, impressions or prints of which 
 obtained by the use of a greasy pigment are found upon 
 rocks or stones. Sometimes prints of the hand or ringers 
 are taken in clay. 
 
 We must not, however, forget that the primary purpose 
 of savage and primitive mankind in making images or 
 engravings of animals is that of influencing the animals 
 by witchcraft or magic, as has been urged by Reinach. 
 From such magic-working drawings the art of savages has 
 gradually developed just as religious figures and designs 
 have been the initial motive of historic European art. 
 
 It seems in any case fairly certain that the artist who 
 engraved our picture of the three deer on to the stag's 
 antler must have worked from and copied a completed flat 
 drawing, and probably printed it in some way on to the 
 prepared antler before engraving its lines thereon and 
 also checked the work, as he proceeded, by successive 
 trial printings or " proofs " on to a flat surface. It is 
 possible though it does not seem very probable, that the 
 drawing was thus committed to perpetual invisibility on 
 a cylindrical rod for the purpose of exercising " magic " 
 with that rod. It seems to me that the Cromagnard 
 owner of the rod would have wished to see "what the 
 picture really looked like," and so would have on some 
 occasion and more than once have " printed it off" or as 
 we say " unrolled it." 
 
 Leaving that question aside I have a few words 
 to say as to the present attempted "completion" of 
 the picture. My difficulty has been in realizing the 
 suggestion of a free, graceful " bounding " action given by
 
 i8 SECRETS OP EARTH AND SEA 
 
 the pair of small hind legs which form all that remains of 
 the smallest of the three deer. I have tried various poses 
 of the calf indicated by these legs bucking and jumping, 
 and with fore legs closely bent to the horizontal or in a 
 more open position. The fact is there is very little in 
 existing drawings or photographs which can help us to a 
 decision of the problem, " How did the prehistoric artist 
 complete that exquisite little pair of hanging legs ? " The 
 problem is more obscure even than that of the pose of the 
 arms of the Venus of Melos. One feels sure that the 
 man who made this carving was an artist who must keep 
 a certain rhythm and flow in the action and form of the 
 three successive animals, and it is clear that he was a 
 wonderful observer of the phases of the limbs in move- 
 ment. It is, perhaps, a presumptuous thing to attempt 
 on such a basis to recall the thought of a man who died 
 twenty thousand years ago, but I set out to do so with the 
 belief that there is a necessary figure determined by those 
 hind legs. 
 
 Some years ago, as a step towards a solution of the 
 problem, I published a " restoration " or " completion " of 
 this picture in the " Field " (May I3th, 191 1), and asked for 
 criticisms and suggestions from the readers of that journal. 
 I had no difficulty as to the completion of the biggest 
 stag by drawing in his haunches and hind-legs, but the 
 completion of the head and antlers of the smaller stag 
 and still more the calling into being of the entire calf as 
 an inference from his or her suspended hind-feet and hoofs 
 alone were not easy tasks. I consulted many authorities 
 and some instantaneous photographs, but I was not satis- 
 fied with the pose I finally suggested for the calf nor with 
 the " points " assigned by my draughtsman to the antlers of 
 the smaller stag. Some interesting suggestions were 
 made in reply to my appeal by readers of the " Field." 
 Those which seemed to me of conclusive weight and value
 
 THE EARLIEST PICTURE IN THE WORLD 19 
 
 were offered by Mr. Walter Winans, who combines the 
 qualifications of a great observer of big game with those of 
 a great artist. In the restoration now given in Fig. 5 I have 
 profited by Mr. Walter Winans' criticism and have been 
 especially glad to make use of the spirited sketch made by 
 him for my benefit, and published in the "Field "of 1911, of a 
 red-deer calf when hopping along with all the feet together, a 
 movement known as " buck-jumping." " Of course," writes 
 Mr. Winans, " this is quite different to the bronco-pony's 
 " action when trying to get rid of a rider. In the case of 
 "this kind she does not come down with a jar but as 
 " she lands bends her knees and hocks simultaneously and 
 " then straightens them, also simultaneously, bounding in 
 " the air with bent back, tail curled tight on back, head 
 " thrown back, and ears forward ; she never puts her fore- 
 " legs, either knee or fetlock, beyond her shoulder in this 
 " action." These words of Mr. Winans and his outline 
 sketch of the buck-jumping calf precisely realize what 
 the little hanging legs of the rubbed-out calf had been, as 
 it were, urging my tired brain to recall and visualize. I 
 am convinced that Mr. Winans' sketch gives the completion 
 of the picture as drawn by the artist of the Lortet cavern, 
 and satisfies the demand made by the gracefully suspended 
 limbs shown in the incompletely preserved original. And 
 so I have used it in my final restoration here given in Fig. 5. 
 The following letter by Mr. Winans, giving valuable 
 comments on the Lortet picture, was published in the 
 " Field," and will assist others in appreciating its signifi- 
 cance : it enabled me to get the middle stag's antlers 
 correctly drawn. I have omitted a few lines referring 
 to defects in the original restoration now corrected. 
 
 " SIR, As Sir Ray Lankester asks for criticism of this 
 " wonderful drawing of three deer, perhaps the following 
 " may be of interest. I have known deer all my life, and
 
 20 SECRETS OF EARTH AND SEA 
 
 " lived amongst them the last twelve years. I agree that 
 " the picture is wonderful better than anything Landseer 
 " or Rosa Bonheur drew, because these latter were only 
 " artists : one can see by their pictures (full of faults as to 
 " attitudes and actions) that they knew nothing of deer. 
 " For instance, Landseer's stags were much too big in the 
 " body and their heads too small, and even the shape of 
 " their horns was conventional. . . . 
 
 " The Lorthet drawings enable one to know all details 
 " about the three deer (looking at the original mutilated 
 " ' development '). First, the deer have ' got the wind ' of 
 " an enemy, have come a long way, and are moving 
 ' leisurely, the big stag, as usual, bringing up the rear and 
 ' taking a last look round before the herd goes out of sight. 
 ' The second is the younger stag who generally accom- 
 ' panics the big stag and acts as his sentinel when he is 
 ' sleeping, a stag too small to give the big stag any jealousy 
 " as to his hinds. The third is undoubtedly a calf (Red deer 
 " are ' stags/ ' hinds,' and ' calves,' not ' does ' and ' fawns '; 
 " the latter terms apply to Fallow deer and Roe-deer). 
 
 " The deer are typical Reddeer, not Wapiti, except that 
 " the only tail showing (that of the middle deer) is the short 
 " Wapiti tail, not the longer tail of the Red deer, and the 
 " ears are shorter than those of any existing species of deer. 
 " The horns of the big stag are those of typical park Red 
 " deer, exactly like the Warnham Park big stag: brow, 
 " bay, and tray, with a bunch on top, and the horns are 
 " short and straight for their thickness. 
 
 " Now as to the short tail. I am trying, by crossing the 
 " Wapiti, Red deer, and Altai to get back to the original 
 " deer before the various species got separated, and my 
 " ' three-cross ' deer show these very characteristics, as 
 " follows: Red deer or Warnham horns, short Wapiti tail, 
 " and the rather Roman nose which this ' development ' 
 " print shows. The only difference is the short ears. Is it 
 " not possible that, as the artist is able to draw the horns in 
 " perspective and show the anatomy and proportions so 
 " well, that the ears are meant to be drawn fore-shortened ? 
 " The stag's mouth is open because he is big and fat 
 " and is blowing (not roaring or bellowing). If it was the
 
 THE EARLIEST PICTURE IN THE WORLD 21 
 
 ' rutting season, when stags roar, the stag would be 
 
 ; tucked up in the belly and have a tuft of hair hanging 
 under the middle of it. He and the stag in front are 
 moving in the real action (not the conventional action 
 
 ; Rosa Bonheur and Landseer drew, but what the ancient 
 Egyptians drew sometimes) of a slow, easy canter. . . . 
 Now as to the middle stag's horns. I should give 
 him, bearing in mind he is the small sentry stag, brow, 
 tray, and three on top a ten-pointer, the thin points 
 showing in the original drawing indicating that he had 
 thin horns in fact, a three-year old. 
 
 " In a Scotch forest a ten-pointer is a comparatively old 
 stag, but at Warnham and my place, where the feeding 
 
 ; is good (and in my case there is hand feeding all the 
 year round), a spike stag gets six points and can almost 
 
 ; be a royal the next year. 
 
 " All this shows that the deer at the time this drawing 
 was made must have had very good feeding and come 
 to maturity quickly, like modern park deer. The big 
 stag would never have allowed a ten-pointer in his herd 
 if the latter had been an old stag. 
 
 " As to the action of the leading hind. I think she is 
 a hind-calf by her legs, and is jumping with all four 
 
 1 legs together, the way young deer do when playing, and, 
 
 : being young, is paying no attention to the danger 
 behind, but is full of life, like a horse playing about 
 when he is fresh. One often sees the calves of a herd 
 playing like this if the herd is moving along steadily. . . . 
 " From the position of the hind legs of the little calf 
 I judge that she is jumping with all four legs together 
 (the jump from which the expression 'buck jumping' 
 comes) ; her tail would be curled up tight over her back 
 like a pug dog carries it, only without the curl, and her 
 ears pricked forward. The piece of horn broken off 
 would show the rest of the hinds and calves, led 
 by an old ' yeld ' (i.e., barren) hind, who would be lead- 
 ing the herd up wind with her nose and ears forward to 
 ' get the wind ' of any danger ahead. 
 
 " The day is a hot one in the middle of August, shown 
 by the big stag blowing and his being with the hinds,
 
 22 SECRETS OF EARTH AND SEA 
 
 " instead of with other stags by themselves, and by his 
 " not having ' run ' yet, though his horns are clear of 
 " velvet. He is most likely the stag on whose horn this is 
 " engraved. The length of the deer's feet shows that they 
 " live on ground which is soft and not many stones about 
 " to wear down their toes. 
 
 " Maybe the fish indicate that the deer are crossing a 
 " shallow ford, and the salmon are getting frightened and 
 " jumping. The right-hand-most fish is just in the attitude 
 " of a hooked salmon trying to leap clear of the fly. . . . 
 
 " The picture was most likely first drawn on some flat 
 " flexible surface, skin or bark, in a sticky medium, and 
 " then transferred to the horn by rolling it round the horn 
 " and then rubbing it. This would give a transfer, 
 " which would guide the subsequent engraving, otherwise 
 " it would be very difficult to engrave direct on the horn, 
 " and mistakes could not easily be corrected. 
 
 " WALTER WINANS 
 
 " SURRENDEN PARK, PLUCKLEY, KENT " 
 
 With regard to the six fishes in the picture of " The 
 Three Red Deer," I think that there can be little doubt 
 that they are put in in the same spirit of exuberance 
 which induced early Italian masters to introduce a cherub 
 wherever a space for him could be found. The fish repre- 
 sented are the same in each case, and are undeniably 
 salmonids. Presumably they are drawn on a larger scale 
 than the deer. Their markings and the form of the head 
 are deserving of some criticism and comment by those 
 who are familiar with fish as seen by the fisherman. 
 Probably the artist's friends at Lourdes captured fish in 
 those days by spearing them with serrated bone-headed 
 fish spears or harpoons (Fig. 3). No fish hooks of bone 
 have been found in the cave of Lortet or in others of like 
 age, although needles and whistles of bone and other 
 useful little instruments, as well as serrated spear heads 
 and harpoons have been obtained in several of them.
 
 THE EARLIEST PICTURE IN THE WORLD 23 
 
 The tool used by the prehistoric man in engraving the 
 cylinder of stag's antler was undoubtedly a suitable chipped- 
 out piece of flint a flint graving tool, in fact a "burin," 
 such as are abundant in these caves. 
 
 Attention has been drawn by Homes in his " History of 
 
 FIG. 6. Fragment of a roughly-painted vase of the Dipylon age] (circa 
 800 B.C.) from Tiryns, figured by Schliemann and cited by Homes in 
 his " History of Pictorial Art in Europe." Compare the fish between the 
 horse's legs with the fish in the Lortet picture of the Three Deer ; also 
 note the lozenge-shaped designs (similar to the pair above the big stag 
 in the Lortet picture) near the fish and near the man's head (d) : and, 
 further, the swastika (s}. 
 
 Pictorial Art in Europe" to the resemblance of the Lortet 
 picture to a fragment of a roughly painted vase of the 
 Dipylon age (circa 800 B.C.) found at Tiryns and figured 
 by Schliemann in his account of excavations made at that 
 ancient Mykenaean fortress of the Peloponese. The frag- 
 ment (Fig. 6) shows very roughly drawn figures of a man
 
 24 SECRETS OF EARTH AND SEA 
 
 and of a horse. Between the fore and hind legs of the 
 horse a large elaborately ornate fish is represented, remind- 
 ing us of the fishes between the deer's legs in the Lortet 
 picture. Two other similar fragments of pottery, showing 
 a fish in this position, are recorded by Schliemann. The 
 drawing is conventional and careless. It is of a debased 
 decorative character, and is very far removed from the 
 careful nature-true work of the Lortet cave-man. It is 
 not possible to trace by any known line of transmission 
 a connection between the engraving executed 20,000 years 
 ago in the caves of the Pyre'ne'es and the figures rapidly 
 knocked off in black paint on the Tiryns vase some 17,000 
 years later by the local dealers in cheap pottery. Yet we 
 cannot avoid the suggestion that there is some connection 
 between the two designs. For the Tiryns painting shows 
 not only the curious upright fish between the horse's legs, 
 but also diamond-shaped figures one marked d in Fig. 6, 
 another near the fish's tail, and another between the man's 
 feet closely resembling the pair of diamond-shaped 
 figures engraved above the neck of the big stag in the 
 Lortet picture (see Figs. 4 and 5). As we do not know 
 what these diamond-shaped figures or " lozenges " are 
 intended to signify in either case, we do not get, at 
 present, beyond the bald fact of their coincidence. 
 The Tiryns painting also shows (at s in Fig. 6) a 
 "swastika" (see Chapter XVII), and below the man's 
 arm a carelessly drawn bit of the ancient wave-fret or 
 key-pattern. It is, of course, possible that the tradition 
 of an ancient design even dating so far back in origin 
 as many thousands of years may be preserved in the 
 use made in the Tiryns decoration of the fish and the 
 diamond-shaped lozenges, though associated with the 
 swastika and the bit of wave-fret which are probably of 
 later origin and are not known in the decorative work of 
 the cavemen. The Mykenaean decorative assimilation of
 
 THE EARLIEST PICTURE IN THE WORLD 25 
 
 geese to the ship's barnacle exercised its influence over 
 three thousand years and led to the mediaeval belief in the 
 hatching of young geese from barnacles attached to float- 
 ing timber, and even from the buds of trees (see my 
 "Diversions of a Naturalist": Methuen,i9i5). Nevertheless 
 it must not be supposed that the connection of the Lortet 
 engraving and the vase-painting of Tiryns is probable or 
 more than a very remote possibility. The gap in time is 
 too vast, and our present ignorance of what took place in 
 that interval too complete, to warrant us in regarding the 
 resemblance as more than a coincidence.
 
 CHAPTER II 
 
 PORTRAITS OF MAMMOTHS BY MEN WHO 
 SAW THEM 
 
 SOME fifty-five years ago pieces of reindeer's antler 
 were discovered in the cave known as "La Made- 
 leine" in the Dordogne (a department of France 
 some eighty miles east of Bordeaux), upon which were 
 engraved the outlines of various animals such as reindeer 
 and horses. They and the bone spear-heads and ^needles, 
 and the flint knives found with them, were the first 
 revelation to later man of the existence of the prehistoric 
 cave-men. Among the carvings was a piece of ivory which 
 excited the profoundest interest. Partly hidden by a con- 
 fused mass of scratches it showed the well-drawn outline of 
 the great extinct elephant, thus scratched or " engraved " 
 on a bit of its own tusk (Fig. 7). The engraving was 
 barely 5 in. long, and has been reproduced in many books. 
 The specimen is now in Paris, and was for long the only 
 known representation of the Mammoth by the ancient 
 men who lived with it in Western Europe. 
 
 During the last fifteen years, however, our knowledge 
 of the works of art executed by these ancient men has 
 increased to an extraordinary extent, chiefly owing to the 
 energy and skill of the French explorers of the caverns 
 in the south central region of that country. As long ago 
 as 1879 a little girl, the daughter of Sefior Sautuolo a 
 proud woman she should be if alive to-day when visiting 
 the cavern of Altamira, near Santander, in the north of
 
 PORTRAITS OF MAMMOTHS 
 
 27
 
 28 SECRETS OF EARTH AND SEA 
 
 Spain, with her father, drew his attention to a number of 
 " pictures of animals," painted on the rocky vault or roof 
 of the cave. At first no one believed that these pictu cs 
 were more than a few hundred years old, whilst some held 
 them to be modern and made with fraudulent purpose. 
 In 1887 Piette, the distinguished French investigator of 
 the remains of human work in the caverns of the French 
 Pyre"ne"es (whose great illustrated book of carved and 
 engraved portions of reindeer antler, ivory, and stones 
 discovered by his excavations, is a classic), declared that 
 in his opinion the pictures of the Altamira cave were of 
 the same age as the bone and ivory carvings of the 
 Madeleine cave that is to say, dated from what " pre- 
 historians " call the later Palaeolithic age, an age when the 
 mammoth, the bison, the cave lion, and the reindeer still 
 existed in Western Europe, and when the British Isles were 
 not yet separated by sea from the Continent. The age 
 indicated is probably from 25,000 to 50,000 years ago. 
 Still, the opinion prevailed that the "wall-drawings" and 
 " roof-drawing " of the Altamira cave were either mediaeval 
 or modern until the French explorers discovered wall- 
 paintings in some of the caves of the Dordogne. Then 
 they proceeded to a careful investigation of the Altamira 
 cave, and discovered conclusive evidence of the great age 
 of the paintings by the removal of some of the undisturbed 
 deposit in the cave, in which were found flint implements 
 and small engravings on bone, proving the deposit to be 
 of the late Palaeolithic age. When this deposit was 
 removed, pictures of animals, partly engraved and partly 
 completed in colour (black, red, yellow, and white), were 
 found on the wall of the cave previously covered up by 
 the deposit. M. Cartailhac, who had been a leading 
 opponent of the view that the Altamira wall-pictures 
 were very ancient, now renounced his former position and 
 became an enthusiastic investigator and exponent of these
 
 PORTRAITS OF MAMMOTHS 29 
 
 pictures. M. Breuil, who had discovered wall-pictures, 
 including those of the mammoth, in French caves, and 
 had been met by disbelief and even suspicion, now received 
 due recognition, and joined Cartailhac in preparing a 
 complete account of the wall and roof pictures of the 
 Altamira cave. The Prince of Monaco, who had carried 
 out, with the aid of French experts, an investigation of 
 the caves on his property at Mentone, on the Mediter- 
 ranean "Riviera," undertook the expense of producing 
 a splendid volume, giving coloured reproductions of the 
 Altamira pictures. To him the world is indebted, not 
 only for most important discoveries of human skeletons 
 and objects of human workmanship in the caves of 
 Mentone (there are no wall-pictures there), but for the 
 publication in illustrated form of the Mentone discoveries 
 and of those obtained in the Altamira cave. He has not 
 rested at this stage of accomplishment, but has produced 
 at his own expense large volumes by MM. Breuil, Capitan, 
 and Peyrony, illustrating and describing the discoveries 
 made by them of wall-paintings and engravings of animals 
 in the cave known as the " Font de Gaume," in the 
 Dordogne. The Prince has also published a volume, by 
 MM. Breuil, de Rio, and Sierra, reproducing the drawings 
 found in a whole series of caves and rock-shelters in 
 various parts of the Spanish peninsula, where the rock- 
 painting race seems to have persisted to a somewhat later 
 period and to have painted, more frequently, pictures of 
 human beings as well as of animals. These, whilst less 
 artistic and truthful than those of the North Spanish and 
 South French area, yet have surpassing interest, since they 
 have special similarity to ancient rock-paintings found in 
 North Africa and to the rock-paintings of the Bushmen 
 of South Africa. 
 
 The Prince of Monaco has finally established rthe 
 great study in which he has played so valuable a part by
 
 30 SECRETS OF EARTH AND SEA 
 
 founding in Paris an " Institute of Human Palaeontology" ; 
 that is, "of the study of prehistoric man," which he has 
 endowed with a magnificent building, comprising labora- 
 tories and residences for professors, together with funds 
 to pay for its maintenance and the proper publication of 
 results. This he has done in addition to founding entirely 
 at his own expense a similarly complete Institute for the 
 study of " oceanography " the study of the living contents 
 and history of the great seas. 
 
 The illustrations in this chapter are (with the exception 
 of Fig. 7) copies, greatly reduced in size, of faithful repre- 
 sentations of the great hairy elephant or mammoth which 
 still survived in southern France in the days when the 
 caves were occupied and decorated by men. I am in- 
 debted to the valuable little book " Repertoire de 1'Art 
 Quatermaire," by M. Salomon Reinach, for these outlines 
 carefully drawn by him from various large illustrations 
 by the use of a tracing and reducing instrument. In the 
 next chapter I have given examples from the same source 
 of similar drawings of other animals. 
 
 There are five kinds of artistic work of Palaeolithic age 
 found in the caverns of France and Spain; namely (i) 
 small solid carvings (complete all round) in bone, ivory, 
 or stone ; (2) small engravings in sunk outline on similar 
 material, rarely with relief of the outlined figure; (3) large 
 stone statues, 2 ft. to 6 ft. across, in high relief, with 
 complete modelling of the visible surface ; (4) rock en- 
 gravings and paintings on the walls and roofs of caverns 
 or rock shelters, often partly outlined by engraving and 
 scraping of the surface, and then completed in black 
 or red paint or in several colours (black, red, yellow, 
 white) ; they are of large size, from 2 to 5 ft. in cross 
 measurement ; (5) models in clay, one side only shown, 
 the other resting on rock ; a few incomplete clay models 
 of this nature representing the bison of about 2 ft. in
 
 PORTRAITS OF MAMMOTHS 
 
 FIG. 8. Outline engravings of mammoths on the wall of the cavern known 
 as the " Font de Gaume," near Eyzies (Dordogne). Each figure is about 
 2 ft. long.
 
 SECRETS OF EARTH AND SEA 
 
 length, have recently been discovered in one of the French 
 
 caverns, and are the only examples of modelling in clay 
 
 by the Palaeolithic men yet discovered. 
 
 Our figures of the mammoth are (excepting Fig. 7) all 
 
 of the fourth class namely, rock-paintings in one colour 
 
 (black or red) partly 
 engraved and scraped. 
 The originals are from 
 I \ ft. to 2\ ft. long. 
 The mammoths given 
 in Fig. 8 are care- 
 fully copied from en- 
 gravings discovered, 
 reproduced, and de- 
 scribed by M. Breuil 
 and his fellow- 
 workers. They are 
 on the walls of the 
 cavern known as the 
 " Font de Gaume," in 
 thecommuneofTayac 
 in the Dordogne. 
 Those copied in Fig. 
 9 and Fig. 10, A, 
 
 FIG. 9. Similar engravings from the neigh- were discovered On 
 bouring cave of Combarelles. The lower the wal j s Q f the caye 
 figure is an enlargement of the smaller of r T , ., 
 
 the two above it. of Les Combarelles 
 
 in the same district. 
 
 Fig. 10, B, is from a cave at Bernifal, near les Eyzies, in 
 the Dordogne, and shows a mammoth enclosed in a 
 triangular design, which is believed to represent a trap, 
 or else a cage. Such triangular figures with upright and 
 also bent supports are found in various degrees of elabora- 
 tion on both small and large engravings of this period, and 
 are generally accepted as representing huts or enclosures
 
 PORTRAITS OF MAMMOTHS 
 
 33 
 
 supported by wooden poles. They are called " tectiforms " 
 by the French explorers. 
 
 The bones and teeth of the mammoth are very 
 common in the river gravels and clays of Western 
 Europe and England, and 
 a complete skull, with its 
 tusks, dug up at Ilford, in 
 the east of London, is in the 
 Natural History Museum. 
 Frozen carcasses of this 
 animal are found in Northern 
 Siberia, and two showing 
 much of the skin and hair 
 are in the museum of 
 Petrograd. There is no 
 tradition or knowledge of 
 the mammoth among living 
 races of men. The natives 
 of Siberia, who have from 
 time immemorial done a 
 large trade in the ivory, 
 
 regard the tusks as " horns," FIG. 10. A, similar engraving 
 
 from the cave of Combarelles. 
 B, Mammoth enclosed by plank- 
 like structure supposed to be 
 either a cage or a trap. (Called 
 tectiform structures, and often seen 
 in these wall engravings.) From 
 the cave of Bernifal, five miles 
 from Eyzies. 
 
 and have stories about the 
 ghosts of the mammoth, but 
 no tradition of it as a living 
 beast. The mammoth was 
 closer to the Indian elephant 
 of to-day than to the African 
 one. It had, as these draw- 
 ings show, a pelt of long hair. Indian elephants from 
 upland regions often have a good deal of hair all 
 over the body: and the newborn young of both the 
 Indian and African elephant has a complete coat of 
 hair. The drawings here reproduced are not only of 
 thrilling interest because they are the work of remotely 
 3
 
 34 SECRETS OF EARTH AND SEA 
 
 ancient men who lived with and observed mammoths in 
 the south of France, but also because they show an 
 extraordinary skill in "sketching" in giving the essential 
 lines of the creature portrayed and in reproducing the 
 artist's " impression." These artists were " impressionists " 
 the earliest and most sincere without self-consciousness 
 or other purpose than that of making line and colour 
 truly register and indicate their vivid impressions. It is 
 interesting to note that (as in other works of art showing 
 true artistic gift) actual error in drawing (for instance, in 
 the size and shape of the eye and the placing of the two 
 tusks on the same side of the trunk possibly due to the 
 unfinished state of the drawing) sometimes accompanies 
 the most penetrating observation and skilful delineation of 
 the characteristic form and pose of the animal. Probably 
 mammoths were getting rare in the south of France when 
 these drawings were made, and were not so familiar in 
 all their details to the artist as were bison, horse, and 
 deer.
 
 CHAPTER III 
 THE ART OF PREHISTORIC MEN 
 
 THE works of art produced by the cave-men are, 
 as we have already seen, of five kinds or classes 
 (i) All-round small statuettes, or "high-relief" 
 carvings, in ivory, bone, or stone (examples of which are 
 shown in Figs. 14, 25, 26, 27, 28 of the present chapter); 
 (2) small engravings on bits of ivory, deer's antler, bone, 
 or stone (examples are shown in Figs. 15, 16, 20, and 
 24); (3) large statues, hewn in rock, and left in place; 
 (4) drawings of large size two to five feet in diameter 
 (partly engraved and partly coloured) on the rocky walls 
 and vaults of limestone caverns (shown in Figs, u, 12, 13, 
 17, 18, 19, 23, as well as in the figures of mammoths in 
 the last chapter) ; (5) models (high relief) worked in clay. 
 I give reproductions in the present chapter of several 
 samples of this art, showing how skilfully these men of 
 50,000 years ago could portray a variety of animals. 
 
 Who were these men, and why did they make these 
 remarkable carvings and drawings? First, as to their age. 
 We now know of a long succession of human inhabi- 
 tants of this part of the world, namely, Western Europe. 
 The earliest reach back to an antiquity never dreamed 
 of fifty years ago. We cannot fix with any certainty 
 the number of thousands, or hundreds of thousands, of 
 years which is represented by this succession, but we can 
 place the different periods in order, one later than the 
 other, each distinguished chiefly by the character of the
 
 36 SECRETS OF EARTH AND SEA 
 
 workmanship belonging to it, though in a few instances 
 we have also the actual limb-bones, skulls, and jaw-bones 
 of the men themselves, which differ in different periods. 
 It is practically certain that these prehistoric successive 
 periods of humanity do not represent the steps of growth 
 and change of one single race belonging to this part 
 of the world, but that successive races have arrived on 
 the scene of Western Europe from other parts, and it 
 is usually very difficult even to guess where they came 
 from and where they went to ! 
 
 It is convenient to divide the human epoch, the time 
 which has elapsed since man definitely took shape as 
 man characterized by his large brain, small teeth, upright 
 carriage, and large opposable thumb and still larger and 
 more peculiar non-opposable great toe into the historic 
 and the prehistoric sections. In this part of the world 
 (Europe) the first use of metals (first of all copper, then 
 bronze, and then iron), as the material for the fabrication 
 of implements and tools of all kinds, occurs just on the 
 line between the historic and the prehistoric sections ; 
 that is to say, between those times of which we know 
 something by tradition and writing, and those earlier 
 times of which we have no record and no tradition, but 
 concerning which we have to make out what we can by 
 searching the refuse heaps and ruins of man's dwelling- 
 places and carefully collecting such of his " works " as have 
 not utterly perished, whilst noting which lie deeper in the 
 ground, which above and which below the others. 
 
 Practically the men of the prehistoric ages in Europe 
 had not the use of metals (though our quasi-historical 
 records go back to a less remote time in many parts of 
 Europe than they do in Greece, Assyria, and Egypt). 
 The prehistoric peoples are spoken of as the men of 
 the Stone Age, because they used stone, chiefly flint, 
 as many savage races do to-day, as the material from
 
 THE ART OF PREHISTORIC MEN 37 
 
 which they fabricated by means of deftly struck blows 
 all sorts of implements. Undoubtedly they also, by aid 
 of stone knives, saws and planes, made weapons and other 
 implements of wood and of the horns, bones, and teeth 
 of animals. But these latter substances are perishable, 
 and have only been preserved from decay under special 
 circumstances, such as their inclusion in the deposits on 
 the floors of caverns. 
 
 The Stone Age is itself readily and obviously divisible 
 into two periods. The latter is a comparatively very short 
 and recent period, when great skill in chipping flints and 
 other stones was attained, and the implements so shaped 
 were often rubbed on large stones of very hard material 
 (siliceous grit), so as to polish their surfaces. This is 
 the " Neolithic," or later Stone, period, and extends back 
 in Europe certainly to 7000 B.C., and probably a few 
 thousand years further. Passing further back than this, 
 we leave what are called " recent " deposits, and come to 
 those associated with great changes of the earth's surface. 
 We enter upon "geological" time, and vastly changed 
 climatic and geographical conditions. We are in the 
 older Stone period, called the " Palaeolithic period." 
 It is not really comparable to the " Neolithic," since it 
 comprises many successive ages of man, and, although 
 called the "Palaeolithic" or "ancient Stone" period, has 
 no unity, but, whilst readily divisible into several sub- 
 periods or epochs of comparatively late date, stretches 
 back into immense geologic antiquity indicated by flint 
 implements of special and diverse types, which are found 
 in definitely ascertained geologic horizons. 
 
 The Pleistocene strata the latest of the geologists' list 
 are the river gravels of existing river valleys, the deposits 
 in many caves, and the sands and clays piled up by ice 
 action during the repeated glacial extensions or epochs 
 of glaciation which alternated with milder climate for
 
 38 SECRETS OF EARTH AND SEA 
 
 many thousands of years over north and middle Europe. 
 It is identical with the Palaeolithic period, which, however, 
 probably extends beyond it into the Pliocene and even 
 further back. In the later deposits of the Pleistocene, 
 which necessarily have been less frequently disturbed and 
 re-deposited than the older ones, we find more numerous 
 remains of man's handwork, and in less disturbed order 
 of succession, than in the older deposits. Lately we have 
 obtained in East Anglia beautifully-worked flint imple- 
 ments the rostro-carinate, or eagle's beaks from below 
 shelly marine deposits the Red Crag of Suffolk and the 
 Norwich Crag the oldest beds of the Pleistocene. They 
 were made by men who lived in the Pliocene period, and 
 carry the ancient Stone period of man back to a much 
 earlier period than was admitted nine years ago. 
 
 The Pleistocene series or " system " of strata also called 
 the " Quaternary " to mark its distinction from the under- 
 lying long series of " Tertiary " strata does not comprise 
 the actual surface-deposits in which the remains of Neo- 
 lithic man are found. It is usual, though perhaps not 
 altogether logical, to separate these as " Recent " and to 
 begin the long enumeration of " geologic " strata after 
 a certain interval when the relative levels of land and sea 
 and the depth of river-valleys were not precisely what 
 they are to-day, and the human inhabitants of Western 
 Europe were hunters using rough unpolished flint imple- 
 ments in fact, when the' " Palaeolithic " period of human 
 culture had not given place to the " Neolithic," which 
 was after some ten thousand years itself to be superseded 
 by the age of metals. " Prehistorians," the students of 
 prehistoric man divide the Pleistocene series of deposits 
 with a view to a systematic conception of the successive 
 changes of man and his surroundings during the period 
 occupied by their deposition, into an upper, a middle 
 and a lower group and further have distinguished certain
 
 THE ART OF PREHISTORIC MEN 39 
 
 successive " horizons " in these groups characterized by 
 the remains of man and animals which they contain. 
 They are exhibited in the tabular statement here given 
 in the ascertained order of their succession, and are repre- 
 sented in the southern part of Britain as well as in France. 
 
 HORIZONS OR EPOCHS OF THE PLEISTOCENE 
 OR QUATERNARY SYSTEM 
 
 A. UPPER PLEISTOCENE (post-glacial ; also called epoch 
 of the Reindeer). 
 
 1. The Azilian: (Elapho-Tarandian of Piette) nearest to the Neolithic 
 
 section of the Recent Period and more or less transitional to that 
 period ; named after the cavern of the Mas d'Azil in the department 
 of the Ariege. The Reindeer had largely given place to the great 
 Red Deer (Cervus elephus). 
 
 2. The Magddenian : named after the cave of La Madeleine in the Dordogne. 
 
 3. The Solutrian : after Solutre near Macon. 
 
 4. The Aurignacian : after the grotto of Aurignac in the Haute Garonne. 
 
 B. MIDDLE PLEISTOCENE (period of the last great extension 
 
 of glaciers). 
 
 I . The Moustierian : so named after the cave of Le Moustier in Dordogne ; 
 the epoch of the Neander men. Also called the "epoch of the 
 Mammoth," whilst the upper Pleistocene is called the epoch of the 
 Reindeer, though the Mammoth still survived then in reduced numbers. 
 
 C. LOWER PLEISTOCENE (inter-glacial and early glacial, also called 
 period of the Hippopotamus and of Elephas antiquus and 
 Rhinoceros Merckii). 
 
 1. The Chellian: named after Chelles on the upper Seine, river gravels 
 
 and sands earlier than the Moustierian. Large tongue-shaped flint 
 implements, flaked on both surfaces the later and better-finished 
 classed as " Acheulsean," after St. Acheul, near Amiens. 
 
 2, 3, 4 ... various fluviatile and lacustrine gravels, sands and clays 
 
 divisible into separate successive horizons, as well as marine deposits, 
 some of glacial origin including the mid-glacial gravel, the boulder 
 clays and shelly Red Crag and Norwich Crag (but not the underlying 
 "Coralline" Crag, which must be classed with the Pliocene). The 
 relations of the marine deposits to the older river-gravels and fresh- 
 water deposits, and to the earlier periods of glacial extension indicated 
 by the glacial moraines of central Europe, have not been, as yet, 
 satisfactorily determined.
 
 40 SECRETS OF EARTH AND SEA 
 
 The amount of the sedimentary deposits of the earth's 
 crust belonging to the Pleistocene or Quaternary Period 
 about 250 feet in thickness is exceedingly small, and 
 represents a surprisingly short space of time as compared 
 with that indicated by the vast thickness of underlying 
 deposits. It has nevertheless been possible to study and 
 classify the "horizons" of this latest very short period 
 minutely because the deposits are easily excavated, and 
 having been more recently " laid down " have not suffered 
 so much subsequent breaking up and destruction as have 
 the older strata ; and further, because they embed at 
 certain levels and in favourable situations an abundance 
 of well-preserved bones and teeth of animals and the 
 implements and carvings in stone and bone made by 
 man. It is worth while to look at this matter a little 
 more exactly. 
 
 The total thickness of sedimentary deposits that is, 
 deposit laid down by the action of water on the earth's 
 surface, and now estimated by the measurement of strata 
 lying one over the other in various parts of the globe 
 tilted and exposed to view so that we can trace out 
 their order of super-position is about 130,000 feet. The 
 lower half of this huge deposit contains no fossilized 
 remains of the living things which were present in the 
 waters which laid it down ; they were soft, probably 
 shell-less and boneless, and so no fossilized trace of them 
 is preserved. Thus we divide the sedimentary crust into 
 65,000 feet of "archaic" non-fossiliferous deposit, and an 
 overlying 65,000 feet of fossil-containing deposits. 
 
 The earliest remains of living things known are not 
 very different from marine creatures of to-day ; they are 
 the strange shrimp-like Trilobites and the Lingula-shells 
 found in the lower Cambrian rocks of Wales. Over them 
 lie 65,000 feet of sedimentary deposit teaming with fossils 
 the petrified remains of animals and plants. The
 
 THE ART OF PREHISTORIC MEN 41 
 
 Trilobites and the Lingulas must have had a long series 
 of ancestors leading up to them from the simplest 
 beginnings of life for they are highly organized creatures. 
 But no trace of those ancestors is preserved in the 
 65,000 feet of sedimentary rock underlying the earliest 
 fossils. 
 
 This great basal mass of non-fossiliferous deposit is 
 called "the Archaean series." The 65,000 feet of deposit 
 above it are divided by geologists into three very unequal 
 series. The first and lowest is the Primary or Palaeozoic 
 series, occupying the enormous thickness of 52,000 feet; 
 above these we have the Secondary or Mesozoic series 
 of 10,000 feet, and lastly, bringing us to recent time, we 
 have the Tertiary or Cainozoic of only 3000 feet. These 
 three series amount in all to 65,000 feet. The Palaeozoic 
 series is more than five times as thick as the Mesozoic, and 
 these two taken together are twenty times the thickness of 
 the Tertiary. Each series is divided by geologists into a 
 series of systems, distinguished by the fossils they con- 
 tain, which, on the whole, indicate animals of a higher 
 degree of evolution as we ascend the series. 
 
 The Palaeozoic series include the vast thicknesses of 
 the Cambrian, the Ordovician, the Silurian, Devonian, 
 Carboniferous and Permian systems. The first "trilobite" 
 is found in the lowest Cambrian rocks, and the last or 
 most recent existed in the Permian period after 50,000 
 feet of rock had been deposited. None are known 
 of later age. The first fossil remains of a vertebrate 
 are found in the uppermost beds of the Silurian in 
 " beds " (that is to say, stratified rocks) which are just 
 half-way in position so far as the measurable thick- 
 ness of the deposits are concerned, between, the earliest 
 Cambrian fossils and the sediments of the present day. 
 To put it another way, 34,000 feet of fossiliferous rock 
 precede the stratum (upper Silurian) in which the earliest
 
 42 SECRETS OF EARTH AND SEA 
 
 remains of vertebrates are found. These first vertebrates 
 to appear (others soft and destructible preceded them) 
 are fishes a group which, apart from this fact, are 
 shown by their structure to present the ancestral form 
 of all the vertebrate classes. In later Palaeozoic beds we 
 find the remains of four-legged creatures like our living 
 newts and salamanders. The Secondary or Mesozoic 
 series is divided into the Triassic, Jurassic and Cretaceous 
 systems. It ends with the familiar chalk deposit of this 
 part of the world, and is often called the age of Reptiles, 
 because large reptiles abounded in this period. The 
 Tertiary or Cainozoic series are divided into the Eocene, 
 Oligocene, Miocene, Pliocene and Pleistocene systems. 
 The huge reptiles disappear and their place is taken by an 
 endless variety of warm-blooded, hairy animals the 
 Mammals small at first, but in later beds often of great 
 size. As we pass upwards from the Eocene we can trace 
 the ancestry of our living Mammals such as the horse, 
 rhinoceros, pig and elephant in successive forms. Com- 
 plete skeletons are preserved in the rocks and show a 
 gradual transition from the more primitive Eocene kinds 
 through Miocene and Pliocene modifications until 
 in the Pleistocene strata many of the species now 
 inhabiting the earth's surface are found. A number 
 of horizons, characterized by the special mammalian 
 and other animal remans preserved in them, are dis- 
 tinguished by geologists in each of the " systems " 
 of sands, clays and harder beds known as Eocene, 
 Oligocene, Miocene and Pliocene. At last we arrive at 
 the latest or most recent 250 feet of deposit, consisting 
 of sand, clay and gravel. This is called " Pleistocene." 
 It is only a very small fraction Grroth) of the thick- 
 ness of the whole fossil-bearing sedimentary crust of 
 the earth about the proportion of the thickness of a 
 common paving-stone to the whole height of Shakespeare's
 
 THE ART OF PREHISTORIC MEN 43 
 
 cliff at Dover. This Pleistocene or post-glacial Tertiary 
 often now called Quaternary has been so carefully 
 examined that we divide it as shown on page 39 into 
 upper, middle and lower, and each of these divisions 
 into successive horizons (only a few feet thick) char- 
 acterized by the remains of different species of animals 
 and often by the differing implements and carvings as 
 well as the bones of successive races of men. 
 
 When we are concerned with written history, ancient 
 Egypt seems to be of vast and almost appalling an- 
 tiquity ; on the other hand, if we study the cave-men, 
 ancient Egypt becomes relatively modern, and the first 
 cold period and extension of glaciers, which 500,000 years 
 ago marked the passage from Pliocene to Pleistocene, 
 becomes our familiar example of something belonging to 
 the remote past beyond or below which we rarely let our 
 thoughts wander. That is a natural result of concentra- 
 tion on a special study. But it has had the curious result, 
 in many cases, of making students of ancient man un- 
 willing to admit the discovery of evidences of the existence 
 of man at an earlier date than that which belongs to the 
 deposits and remains to which their life-long studies have 
 been confined and upon which their thought is concen- 
 trated. The last 500,000 years of the earth's vicissitudes, 
 which resulted in the 250 feet of " Pleistocene " deposit 
 and the marvellous treasures of early humanity embedded 
 in them, form but a trivial postscript to the great 
 geological record which precedes it. 
 
 No estimate can be made of the time represented 
 by the 65,000 feet of fossiliferous strata known to us and 
 the same thickness of non-fossiliferous deposit which pre- 
 cedes them. There are no facts known upon which a 
 calculation of the related lapse of time can be based. 
 But most geologists would agree that whilst we have good 
 ground for assigning half a million years to the formation
 
 44 
 
 SECRETS OF EARTH AND SEA 
 
 FIG. n. Horse (wall engraving), cave of Marsoulas, Haute 
 Garonne. The drawing suggests the Southern less heavy 
 breed as compared with Figs. 1 1 and 1 2. 
 
 FlG. 12. Horse (wall engraving) outlined in black, cave of Niaux (Ariege). 
 
 FIG. 13. Horses : A, wall engraving (cave of Hornos de la Pe^na). 
 B, wall engraving from cavern of Combarelles. C, engraved on 
 reindeer antler (Mas d'Azil). Note the halter in A and in C ; also 
 note the heavy head and face of B like that of Prejalvski's horse.
 
 THE ART OF PREHISTORIC MEN 
 
 45 
 
 of the Pleistocene strata, 
 it is not an unreasonable 
 supposition that the period 
 required for the formation 
 of the fossiliferous rocks 
 which precede them in 
 time, is not less and 
 probably more than 
 five hundred million 
 years. 
 
 FIG. 14. Drawing (of the actual size 
 of the original) of a flat carving in 
 shoulder-bone of a horse's head, 
 showing twisted rope - bridle and 
 trappings, a appears to represent 
 a flat ornamented band of wood or 
 skin connecting the muzzling rope 
 b with other pieces c and d. This 
 specimen is from the cave of St. 
 Michel d'Arudy, and is of the Reindeer 
 period. This, and others like it are 
 in the same museum of St. Germain. 
 
 The pictures and carv- 
 
 ings with which we are 
 
 for the moment concerned 
 
 all belong to the later 
 
 Pleistocene or Reindeer 
 
 epoch. None have been 
 
 found in the middle and 
 
 earlier Pleistocene, though finely-chipped flints of several 
 
 successive types are found in those earlier beds. So that 
 
 it is clear that many 
 successive ages of 
 man had elapsed 
 in Western Europe 
 before these pictures 
 immensely ancient 
 as they are were 
 
 FIG. 15. Drawing (of the actual size of the executed. The men 
 
 original ) of a fully rounded carving in reindeer's \vho made these 
 antler of the head of a neighing horse. The , , , , 
 
 head resembles that of the Mongolian horse. * 
 
 This is one of the most artistic of the cave-men's a g es f humanity, 
 
 carvings yet discovered. It is of the Palseo- tradition, and culture 
 
 lithic age (early Reindeer period), probably ( Q f a 
 
 not less than 50,000 years old. It was found , _- , 
 
 in the cavern of Mas d'Azil, Ariege, France, tnem - * et they 
 
 and is now in the museum of St. Germain. were themselves
 
 4 6 
 
 SECRETS OF EARTH AND SEA 
 
 FIG. 1 6. Reindeer engraving on schist, 
 small size (cavern of Laugerie basse). 
 
 tens of thousands of years earlier than the ancient 
 Egyptians ! 
 
 Our illustrations show a variety of drawings and 
 
 carvings. It appears 
 probable that the 
 primitive intention of 
 ancient man in depict- 
 ing animals was " to 
 work magic " on those 
 which he hunted. This 
 is the case at the pre- 
 sent day among many 
 " savage " races. The 
 drawings of bisons in 
 Fig. 19 are from the 
 walls of the cavern of 
 Font de Gaume, in the Dordogne, and are about 5 ft. long, 
 partly engraved and scraped, partly outlined in black, and 
 coloured. The body is often coloured in red, white and 
 black, so as to give a true representation of the masses of 
 hair and sur- 
 face contours. 
 A specially 
 well preserved 
 painting of 
 this kind 
 from the 
 cavern of 
 Altamira is 
 shown in 
 
 Fig. 1 8, where the colours of the original black, 
 red, and brown, and white are indicated by the varied 
 shading. These drawings, like those of the mammoths 
 figured in the last chapter, are found in the recesses of 
 caverns where no daylight reaches them, and must have 
 
 1 1- Rhinoceros in red outline (2\ feet long), drawn 
 on the wall of the cavern of Font de Gaume.
 
 THE ART OF PREHISTORIC MEN 
 
 47 
 
 been executed and viewed by aid of torch or lamp-light. 
 They probably were exhibited as part of a ceremony 
 
 FIG. 18. Bison from the roof of the cavern ot Altamira : engraved, and also 
 painted in three colours (5 feet long). 
 
 FIG. 19. Bison : wall engravings (5 feet long) filled in with colour 
 (Font de Gaume). 
 
 connected with witchcraft and magic. These, like the 
 mammoths and all the specimens figured here, were 
 executed in the Reindeer, or later Pleistocene period.
 
 4 8 
 
 SECRETS OF EARTH AND SEA 
 
 The exact " horizon " of each is, as a rule, well ascertained, 
 but there is uncertainty as to whether some specimens 
 should be attributed to the Aurignacian or to the Mag- 
 
 FIG. '20. Bear: engraved on stalagmite, 
 from the cave of Teyjat near Eyzies. (Small 
 size. ) 
 
 FlG. 21. Bear, engraved on 
 stone, Massol (Ariege). 
 
 FIG. 22. Wolf, 
 engraved on wall 
 of the cave of 
 Combarelles. 
 
 FIG. 23. Wall engraving of a Cave Lion 
 (Combarelles). 
 
 dalenian horizon and as to whether work by men of the 
 Magdalenian race is not in some cases associated in the 
 cave deposits with that by the earlier negroid Aurig- 
 nacians. 
 
 The horses shown are from various caves. Fig. 12
 
 THE ART OF PREHISTORIC MEN 49 
 
 is drawn in black on the wall of a cave at Niaux 
 (Ariege), and Fig. 1 1 is a similar drawing from a cave in 
 the Haute Garonne. Both are remarkable for the exact 
 representation of natural poses of the horse. Figs. 13, A 
 and B, are also from the walls of caves. The latter is 
 remarkable for the large head, short mane, and thick 
 muzzle, which closely correspond with the same parts in 
 the existing wild horse of the Gobi desert in Tartary (to 
 be seen alive in the Zoological Gardens in London). The 
 horse drawn in Fig. 1 1 seems to belong to a distinct race, 
 suggesting the Southern "Arab" horse rather than the 
 heavier and more clumsy horse of the Gobi desert. Fig. 
 13, C, is engraved of the size here given, on a piece of 
 reindeer's antler. It is remarkable 
 for the halter-like ring around the J. ' 
 muzzle. A similar cord or rope is ^^X. 
 
 seen in Fig. 12 and in Fig. 13, A. /u 
 
 The most remarkable horses' 
 heads obtained are those drawn (of FlG> 2 4--Goose: small 
 
 , , ... . N . engraving on reindeer 
 
 the actual size 'of the carvings) in antler (Gourdan). 
 Figs. 14 and 15. Fig. 14 is from 
 
 the cave of St. Michael d'Arudy, engraved on a flat 
 piece of shoulder-bone. It shows what can only be 
 interpreted as some kind of "halter," made apparently 
 of twisted rope (b, c, d\ disposed about the animal's 
 head, whilst a broad, flat piece ornamented with angular 
 marks is attached at the regions marked " a." This and 
 other drawings similar to Fig. 13, C (of which there are 
 many), go far to prove that these early men had mastered 
 the horse and put a kind of bridle on his head. Fig. 15 is 
 a solid all-round carving in reindeer's antler from the cave 
 of Mas d'Azil, Ariege (France). The original is of this 
 size, and is supposed to be one of the oldest and yet is the 
 most artistic yet discovered, and worthy to compare with 
 the horses of the Parthenon.
 
 SECRETS OF EARTH AND SEA 
 
 In Fig. 20 we have a wonderful outline of a bear 
 engraved on a piece of stone, from the cave of Teyjat, in 
 the Dordogne ; Fig. 22, the head of a wolf on the wall of 
 the cave of Combarelles, Dordogne ; Fig. 23, lion (mane- 
 less), engraved on the wall of the same cave; Fig. 21, small 
 bear, engraved on a pebble ; Fig. 24, a duck engraved on 
 a piece of reindeer's antler (Gourdan, Haute Garonne) ; 
 Fig. 17, the square-mouthed, two- 
 horned rhinoceros, drawn in red 
 (ochre) outline on the wall of the 
 cavern of the Font de Gaume. This 
 drawing is 2\ ft. long. In successful 
 characterization the bear (Fig. 20), the 
 wolf (Fig. 22), and the feline (Fig. 23) 
 far surpass any of the attempts at 
 animal drawing made by modern sav- 
 ages, such as the Bushmen of South 
 Africa, Californian Indians, and Aus- 
 tralian black fellows. 
 
 Fig. 27 is an outline sketch of a 
 
 rock . carved statue lg fa h}gh proved 
 
 Austria (1908). 
 Half the size (linear) 
 of the original. 
 
 FIG. 25. Female 
 
 figure carved in 
 
 oolitic limestone .,.-. - 
 
 from Willendorf by the kind of flint implements found 
 near Krems, Lower with it to be of Aurignacian age. It 
 was discovered on a rubble-covered 
 face of a rock-cliff at Laussel, in. the 
 Dordogne, by M. Lalanne. The woman 
 holds a bovine horn in her right hand. The face is 
 obliterated by " weathering." Four other human statues 
 were found in the same place, one a male, much broken, 
 but obviously standing in the position taken by (Fig. 28) 
 a man throwing a spear or drawing a bow. 1 Near these 
 were found a frieze of life-sized horses carved in high 
 
 *M. Reinach relates ("Repertoire de 1'Art Quatermaire ") that two of 
 these statues were in 1912 deliberately stolen by the German Verworn pro- 
 fessor of Physiology in Bonn, who repaid the hospitality of M. Lalanne by
 
 THE ART OF PREHISTORIC MEN 
 
 relief on the rock. These are the only statues of any 
 size, executed by the Reindeer men, yet discovered. 
 
 The representations of men are rare among these 
 earliest works of art, and less successfully carried out than 
 those of animals. But several small statuettes of women 
 in bone, ivory, and stone of the early 
 Aurignacian horizon are known. They 
 suggest, by their form of body, affinity 
 with the Bushmen race of to-day (Fig. 25). 
 The all-round carving of a female head 
 (Fig. 26) also suggests Ethiopian affinities 
 in the dressing of the hair. Some regard 
 this hair-like head-dress as a cap. Here 
 and there badly executed outline en- 
 gravings of men, some apparently wear- 
 ing masks, have been discovered. 
 
 The fact that the " Reindeer men " 
 were skilful in devising decorative design 
 not representing actual natural objects 
 is shown by the carving drawn in Fig. 
 29 and in many others like it. 
 
 The later horizons of the Reindeer 
 period or Upper Pleistocene yield some 
 beautiful outline engravings of red deer 
 and reindeer (Fig. 16) on antler-bone, as 
 well as of other animals. One celebrated 
 carving I have described in the first 
 chapter of this book. It is now regarded 
 as probable that whilst the art of the Aurignacians persisted 
 and developed in the South of France and North- West of 
 Spain until and during the time of the Magdalenian horizon, 
 yet a distinct race, with a different style of art, spread 
 
 bribing his workman and secretly carrying off these valuable specimens to 
 Germany, where (it is stated) they were sold to the museum of Berlin for a 
 large sum. 
 
 FIG. 26. Drawing 
 (of the actual size 
 of the original) of 
 an ivory carving 
 (fully rounded) of 
 a female head. 
 The specimen was 
 found in the 
 cavern of Bras- 
 sempouy, in the 
 Landes. It is of 
 the earliest Rein- 
 deer period, and 
 the arrangement 
 of the hair or cap 
 is remarkable.
 
 52 SECRETS OF EARTH AND SEA 
 
 FlG. 27. Seated figure of a woman holding a bovine horn in the right hand ; 
 high relief carved on a limestone rock ; about 1 8 inches high. Discovered 
 at Laussel (Dordogne) in a rock-bhelter in 1911, by M. Lalanne.
 
 THE ART OF PREHISTORIC MEN 
 
 53 
 
 FIG. 28. Male figure represented in the act of drawing a bow or throwing a 
 spear. Carved on limestone rock ; about 16 inches high. Discovered by 
 M. Lalanne with that drawn in Fig. 27.
 
 54 SECRETS OF EARTH AND SEA 
 
 through South-East Spain and also from Italy into that 
 region, and affected injuriously the "naturalistic" Aurigna- 
 cian art, and superseded it in Azilian and Neolithic times. 
 We find late drawings (Azilian age ?) in some of the east 
 Spanish caves of a very much simplified character, small 
 human figures armed with bow and arrow, and others 
 reduced to geometric or mere symbolic lines derived from 
 human and animal form (see Fig. 52, p. 206). The latest 
 studies of Breuil on this subject tend to throw light by aid 
 of these simplified inartistic and symbolic drawings on the 
 migrations of very early races in the south and south-east 
 of Europe, and to connect them perhaps with North 
 African contemporary races. The subject is as difficult as 
 t is fascinating. Those who wish to get to the original 
 sources of information should consult the last ten years' 
 issues of the invaluable French periodical called 
 " L'Anthropologie," edited by Professor Marcelin Boule. 
 
 FlG. 29. A piece of mammoth ivory carved with 
 spirals and scrolls from the cave of Arudy (Hautes 
 Pyrne"es). Same size as the object.
 
 CHAPTER IV 
 VESUVIUS IN ERUPTION 
 
 AT intervals of ten to twenty years the best-known 
 volcano in the world Vesuvius, on the Bay of 
 Naples has in the last two centuries burst into 
 eruption, and the probability of the recurrence of this 
 violent state of activity, at no distant date, render some 
 account of my own acquaintance with that great and 
 wonderful thing seasonable. We inhabitants of the West 
 of Europe have little personal experience of earthquakes, 
 and still less of volcanoes, for there is not in the British 
 Islands even an " extinct " volcanic cone to remind us of 
 the terrible forces held down beneath our feet by the crust 
 of the earth. In regions as near as the Auvergne of 
 Central France and the Eiffel, close to the junction of the 
 Moselle with the Rhine, there are complete volcanic 
 craters whose fiery origin is recognized even by the local 
 peasantry. They are, however, regarded by these 
 optimist folk as the products of ancient fires long since 
 burnt out. The natives have as little apprehension of a 
 renewed activity of their volcanoes as we have of the out- 
 burst of molten lava and devastating clouds of ashes and 
 poisonous vapour from the top of Primrose Hill. Never- 
 theless, the hot springs and gas issuing from fissures in the 
 Auvergne show that the subterranean fires are not yet closed 
 down, and may at any day burst again into violent activity. 
 Such also was the happy indifference with which from 
 time immemorial the Greek colonists and other earlier
 
 56 SECRETS OF EARTH AND SEA 
 
 and later inhabitants of the rich and beautiful shores of 
 the Neapolitan bay before the fateful year A.D. 79, had 
 regarded the low crater-topped mountain called Vesuvius 
 or Vesbius, as well as the great circular forest-grown or 
 lake-holding cups near Cumae and the Cape Misenum, at 
 the northern end of the bay known to-day as the 
 Solfatara, Astroni, Monti Grille, Barbaro, and Cigliano 
 and the lakes Lucrino, Averno, and Agnano. These 
 together with the Monte Nuovo which suddenly rose 
 from the sea near Baiae in 1538 and as suddenly dis- 
 appeared constitute " the Phlegrsean fields." Vesuvius 
 was loftier than any one of the Phlegraean craters, and 
 the gentle slope by which it rose from the sea level to a 
 height of nearly 3700 ft. had, as now, a circumference of 
 ten miles. It did not terminate in a " cone," as in later 
 ages, but in a depressed, circular, forest-covered area 
 measuring a mile across, which was the ancient crater. A 
 drawing showing the shape of the mountain at this period 
 is the work of the late Prof. Phillips of Oxford (Fig. 30). 
 The soil formed around and upon the ancient lava-streams 
 of Vesuvius appears to have been always especially fertile, 
 so that flourishing towns and villages occupied its slopes, 
 and the ports of Herculaneum, Pompeii, and Stabiae were 
 the seats of a busy and long-established population. The 
 existence of active volcanoes at no great distance from 
 Vesuvius was, however, well known to the ancient Greeks 
 and Romans. The great Sicilian mountain, Etna more 
 than 10,000 ft. in height, rising from a base of ninety 
 miles in circumference and the Lipari Islands, such as 
 Stromboli and Volcano, were for many centuries in inter- 
 mittent activity before the first recorded eruption of 
 Vesuvius that of A.D. 79 and great eruptions are 
 recorded as having occurred in the mountain mass of 
 the island of Ischia, close to the Bay of Naples, in the 
 fifth, third, and first centuries B.C.
 
 VESUVIUS IN ERUPTION 
 
 57 
 
 Neverless, the outburst of Vesuvius in A.D. 79 and its 
 re-entrance into a state of activity came upon the un- 
 fortunate population around it as an absolutely unexpected 
 thing. At least a thousand years probably several 
 thousand years had passed since Vesuvius had become 
 "extinct." All tradition of its prehistoric activity had 
 disappeared, though the learned Greek traveller Strabo 
 had pointed out the indications it presented of having 
 been once a seat of consuming fire. From A.D. 63 there 
 
 FIG. 30. Vesuvius as it appeared before the eruption of August 24, 
 A.D. 79. From a sketch by Prof. Phillips, F.R.S. 
 
 were during sixteen years frequent earthquakes in its 
 neighbourhood, which, as we know by records and in- 
 scriptions, caused serious damage to the towns around it, 
 and then suddenly, on the night of Aug. 24, A.D. 79, vast 
 explosions burst from its summit. A huge black cloud of 
 fine dust and cinders, lasting for three days, spread from 
 it for twenty miles around, streams of boiling mud poured 
 down its sides, and in a few hours covered the city of 
 Herculaneum, whilst a dense shower of hot volcanic dust 
 completely buried the gay little seaside resort known as
 
 58 SECRETS OF EARTH AND SEA 
 
 Pompeii. Many thousand persons perished, choked by 
 the vapours or overwhelmed by the hot cinders or engulfed 
 in the boiling mud. 
 
 The great naturalist Pliny was in command of the 
 fleet at Cape Misenum, and went by ship across the bay 
 to render assistance to the inhabitants of the towns at the 
 foot of Vesuvius. Pliny's nephew wrote two letters to 
 the historian Tacitus, giving an account of these events 
 and of the remarkable courage and coolness of his uncle, 
 who, after sleeping the night at Stabis, was suffocated by 
 the sulphurous vapours as he advanced into the open 
 country near the volcano. The friends who were with 
 him left him to his fate and made their escape. The 
 younger Pliny had prudently remained, out of danger, 
 with his mother at Misenum. 
 
 The alternating periods of activity and of rest exhibited 
 by volcanoes seem to us capricious, and even at the 
 present day are not sufficiently well understood to enable 
 us to discern any order or regularity in their succession. 
 Vesuvius is a thousand centuries old, and we have only 
 known it for thirty. We cannot expect to get the time- 
 table of its activities on so brief an acquaintance. Strangely 
 enough, Vesuvius, having, after immemorial silence, spas- 
 modically burst into eruption and spread devastation 
 around it, resumed its slumber for many years. There 
 is no mention of its activity for 130 years after A.D. 79. 
 Then it growled and sent forth steam and cinder-dust to an 
 extent sufficient to attract attention again ; its efforts were 
 thereafter recorded once or so in a century, though little, if 
 any, harm was done by it. In A.D. 1139 there was a great 
 throwing-up of dust and stones, with steam, which reflected 
 the light of molten lava within the crater, and looked 
 like flames. And then for close on 500 years there was 
 little, if any, sign of activity. The " eruptions " between 
 that of A.D. 79 and that of A.D. 1139 had been ejections of
 
 VESUVIUS IN ERUPTION 59 
 
 steam and cinders, unaccompanied by any flow or stream 
 of lava. Then suddenly the whole business shut up for 
 500 years, and after that also quite suddenly in 1631, 
 a really big eruption took place, exceeding in volume the 
 catastrophe of Pliny's date. Not only were columns of 
 dust and vapour ejected to a height of many miles, but 
 several streams of white-hot lava overflowed the edge of 
 the crater and reached the seacoast, destroying towns and 
 villages on the way. Some of these lava-streams were 
 five miles broad, and can be studied at the present day. 
 As many as 18,000 persons were killed. 
 
 There were three more eruptions in the seventeenth 
 century, and from that date there set in a period of far 
 more frequent outbursts, which have continued to our own 
 times. In the eighteenth century there were twenty- 
 three distinct eruptions, lasting each from a few hours to 
 two or three days, and of varying degrees of violence a 
 vast steam-jet forcing up cinders and stones from the 
 crater into the air, usually accompanied by the outflow of 
 lava, from cracks in sides of the crater, in greater or less 
 quantity. In the nineteenth century there were twenty- 
 five distinct eruptions, the most formidable of which were 
 those of 1822, 1834, and 1872. All of the eruptions of 
 Vesuvius in the last 280 years have been carefully 
 described, and most of them recorded in coloured pictures 
 (a favourite industry of the Neapolitans), showing the 
 appearance of the active volcano both by day and night 
 and its change of shape in successive years. Sir William 
 Hamilton, the British Ambassador at the Court of Naples 
 at the end of the eighteenth century (of whose great folio 
 volumes I am the fortunate possessor), largely occupied 
 himself in the study and description of Vesuvius, and 
 published illustrations of the kind mentioned above, show- 
 ing the appearance of the mountain at various epochs. 
 Since his day there has been no lack of descriptions of
 
 6o SECRETS OF EARTH AND SEA 
 
 every succeeding eruption, and now we have the records 
 of photography. 
 
 The crater or basin formed by a volcano starts with 
 the opening of a fissure in the earth's surface communica- 
 ting by a pipe-like passage with very deeply-seated molten 
 matter and steam. Whether the molten matter thus 
 naturally " tapped " is only a local, though vast, accumula- 
 tion, or is universally distributed at a given depth below 
 the earth's crust, and at how many miles from the surface, 
 is not known. It seems to be certain that the great 
 pressure of the crust of the earth (from five to twenty-five 
 miles thick) must prevent the heated matter below it 
 from becoming either liquid or gaseous, whether the heat 
 of that mass be due to the cracking of the earth's crust 
 and the friction of the moving surfaces as the crust cools 
 and shrinks, or is to be accounted for by the original high 
 temperature of the entire mass of the terrestrial globe. 
 It is only when the gigantic pressure is relieved by the 
 cracking or fissuring of the closed case called " the crust of 
 the earth " that the enclosed deep-lying matter of immensely 
 high temperature liquefies, or even vaporizes, and rushes 
 into the up-leading fissure. Steam and gas thus " set 
 free " drive everything before them, carrying solid masses 
 along with them, tearing, rending, shaking " the foundations 
 of the hills," and issuing in terrific jets from the earth's 
 surface, as through a safety valve, into the astonished 
 world above. Often in a few hours they choke their own 
 path by the destruction they produce and the falling in of 
 the walls of their briefly-opened channels. Then there is 
 a lull of hours, days, or even centuries, and after that 
 again, a movement of the crust, a " giving " of the blockage 
 of the deep, vertical pipe, and a renewed rush and jet of 
 expanding gas and liquefying rock. 
 
 The general scheme of this process and its relations 
 to the structure and properties of the outer crust and
 
 VESUVIUS IN ERUPTION 61 
 
 inner mass of the globe is still a matter of discussion, 
 theory and verification ; but whatever conclusions geolo- 
 gists may reach on these matters, the main fact of 
 importance is that steam and gases issue from these 
 fissures with enormous velocity and pressure, and that 
 " a vent " of this kind, once established, continues, as a 
 rule, to serve intermittently for centuries, and, indeed, for 
 vast periods to which we can assign no definite limits. 
 The solid matter ejected becomes piled up around the 
 vent as a mound, its outline taking the graceful catenary 
 curves of rest and adjustment to which are due the great 
 beauty of volcanic cones. The apex of the cone is blown 
 away at intervals by the violent blasts issuing from the 
 vent, and thus we have formed the " crater," varying in 
 the area enclosed by its margin and in the depth and 
 appearance of the cup so produced. At a rate depending 
 on the amount of solid matter ejected by the crater, the 
 mound will grow in the course of time to be a mountain, 
 and often secondary craters or temporary openings, 
 connected at some depth with the main passage leading 
 to the central vent, will form on the sides of the mound 
 or mountain. Sometimes the old crater will cease to 
 grow in consequence of the blocking of its central vent 
 and the formation of one or more subsidiary vents, the 
 activity of which may blast away or smother the cup-like 
 edge of the first crater. 
 
 Such a history has been that of Vesuvius shown in 
 outline in Fig. 31. In geologic ages perhaps some 
 thousands of centuries ago Vesuvius was probably a 
 perfect cone (its outline is shown at the bottom of p. 62) 
 some 7000 ft. high, rising by a characteristically ac- 
 celerated upgrowth from a circle of ten miles or more 
 in diameter to its delicate central peak, hollowed out 
 at the summit by a small crater a couple of hundred 
 yards across. Its eruptions at that time were neither
 
 S S.W. 
 
 1767 
 
 A.D.79 to 163 1 
 
 SW. 
 
 B.C. 63 
 
 FIG. 31. Five successive stages in the change of form of Vesuvius (after 
 Phillips' "Vesuvius," Oxford, 1869). In the oldest (lowest figure) we 
 see the mountain with its still earlier outline completed by the cone 
 drawn in dotted line. Within the period of historic record that cone 
 had not been seen. The mountain had, so far as men knew, always 
 been truncated as shown here and in Fig. 30. The next figure above 
 shows the further lowering of the mountain by the first eruption on 
 record that which destroyed Pompeii in A.D. 79. The commencing 
 formation of a new ash-cone is indicated by a dotted line. In the three 
 upper figures we trace the gradual growth of the new cone from 1631 to 
 1868. In 1872 the top of the new ash-cone was blown away, and the 
 mountain reverted to the shape of 1822. Now (1920) the cone has 
 accumulated once more and is higher than it was in 1868.
 
 VESUVIUS IN ERUPTION 63 
 
 excessive nor violent. Then came a period of greatly 
 increased energy the steam-jet blew with such violence 
 that it shattered and dispersed the cone, lowering the 
 mountain to 3700 ft. in height, truncating it and leaving 
 a proportionately widened crater of a mile and a half 
 in diameter. And then the mountain reposed for long 
 centuries. We do not know how long this period of 
 extinction was, for we do not know when it began, but 
 we know that this was the state of the mountain when in 
 A.D. 79 it once more burst into life. In recent years that 
 is, since the seventeenth century A.D., a curious change 
 took place in the mountain : the vent or orifice of the 
 conducting channel by which eruptive matters were 
 brought to the surface ceased to be in the centre of 
 the wide broken-down crater of Pliny's time, and a vent 
 was formed a few hundred yards to the south of the 
 centre of the old crater, nearer to the south side of the 
 old crater's wall. From this ashes or cinders issued, and 
 were piled up to form a new cone, which soon added 
 600 ft. to the height of the mountain and covered in the 
 southern half of the old crater's lip, whilst leaving the 
 northern half or semicircle free. This latter uncovered 
 part was called by the Italians " Monte Somma," and 
 the new cone low down in the southern side of which 
 the rest of the old crater-lip could be traced, was hence- 
 forth spoken of as " the ash-cone " and sometimes mis- 
 leadingly as "the true" Vesuvius. Clearly it was not 
 u the true Vesuvius " since it was a new growth. The 
 original old Vesuvius was crowned by a crater formed by 
 the cliffs of Monte Somma and their continuation round 
 to the south side, now more or less completely concealed 
 by the new ash-cone. 
 
 In the course of various eruptions during the last two 
 centuries the new ash-cone thus formed was blown away 
 more or less completely, and gradually grew up again.
 
 64 SECRETS OF EARTH AND SEA 
 
 During the nineteenth century it was a permanent feature 
 of the mountain, though a good deal cut down in 1822, 
 and later grew so high as to give a total elevation from the 
 sea-level of 4300 ft. The crater at the top of the ash-cone 
 has varied during the past century in width and depth, 
 according to its building up or blowing away by the central 
 steam jet. In 1822 it is reported to have been funnel-like 
 and 2000 ft. deep, tapering downwards to the narrow 
 fissures which are the actual vent. At other times it has 
 been largely filled by debris, and only 200 ft. deep. 
 Molten lava has often issued from fissures in the sides of 
 the ash-cone, and even lower down on the sides of the 
 mountain, and a very small secondary crater has some- 
 times appeared on the side of the ash-cone 100 ft. or 
 200 ft. from the terminal crater which "finishes off" 
 the cone. 
 
 Such was the condition of the mountain when I first 
 saw it in the autumn of 1 87 1 . Six months later I witnessed 
 the most violent eruption of the nineteenth century. 
 Vesuvius kept up a continuous roar like that of a railway 
 engine letting off steam when at rest in a covered station 
 only a thousandfold bigger. Its vibrations shook with a 
 deep musical note, for twenty-four hours, the house nine 
 miles distant in Naples in which I was staying. My 
 windows commanded a view of the mountain, and when 
 the noise ceased and the huge steam-cloud cleared away, 
 I saw a different Vesuvius, the higher part of the ash-cone 
 was gone, and a huge gap in it had been formed by the 
 blowing away of its northern side. 
 
 In October 1871, when I joined my friend Anton 
 Dohrn at Naples in order to study the marine creatures 
 of the beautiful bay, Vesuvius was in the proud possession 
 of a splendid cone, completing its graceful outline. A 
 little steam-cloud hung about one side of the cone during 
 the day, and as night came on Vesuvius used, as we said,
 
 VESUVIUS IN ERUPTION 65 
 
 to "light his cigar." In fact, a very small quantity of 
 molten lava was at that time flowing from the side of the 
 ash- cone, about 100 ft. from its summit, and this gave a 
 most picturesque effect as we watched it from our balcony 
 high up on Pausilippo, when the sun set. It was a 
 friendly sort of beacon, far away on the commanding 
 mountain's top, which was answered by the lighting up 
 of a thousand lamps along the coast, and by innumerable 
 flaming faggots in the fishermen's boats moving across 
 the bay, drawing to their light strange fishes, to be im- 
 paled by the long tridents of the skilful spearmen. That 
 little beacon light on Vesuvius increased in volume in the 
 course of three weeks, and was supplemented by other 
 flaming streams and by showers of red-hot stones from 
 the crater. This small " eruption " was the precursor by 
 six months of the great eruption of the end of April 1872, 
 and I spent a night on Vesuvius during its progress, and 
 looked into the crater from which the glowing masses of 
 rock were being belched forth. 
 
 Not long before I went, in 1871, to Naples I had spent 
 some weeks in visiting the extinct volcanoes of the 
 Auvergne and of the Eiffel, and I was eager to examine 
 the still living Vesuvius. In the first week of October I 
 made an excursion to the crater of Vesuvius in company 
 with the son of a Russian admiral, whose name, " Popoff," 
 was under the circumstances unpleasantly suggestive. 
 We examined some black slaglike masses of old lava- 
 streams, and struggled up the loose sandy ash-cone (there 
 was no " funicular " in those days), and prodded with our 
 sticks the few yards of molten lava which emerged from 
 the side of the cone about 100 ft. from the summit. 
 On Nov. I my friend Anton Dohrn (who was then 
 negotiating with the Naples Municipality for a site in 
 the Villa Nazionale on which to erect the great Zoological 
 Station and Aquarium, now so well known) was with me 
 5
 
 66 SECRETS OF EARTH AND SEA 
 
 and some Neapolitan acquaintances looking at Vesuvius 
 across the bay from Pausilippo, where we had established 
 ourselves, when we noticed that a long line of steam was 
 rising from the lower part of the ash-cone and that puffs 
 of steam were issuing at intervals from the crater. " Dio 
 mio ! Dio di Dio ! " cried the Neapolitans in terror, and 
 expressed their intention of leaving Naples without an 
 hour's delay. As night fell a new glowing line of fire 
 appeared far down near the base of the ash-cone, whilst 
 what looked in the distance like sparks from a furnace, 
 but were really red-hot stones each as big as a Gladstone 
 bag were thrown every two or three minutes from 
 the crater. 
 
 We hired a carriage, drove to Resina (built above 
 buried Herculaneun), and walked up towards the 
 Observatory in order to spend the night on the burning 
 mountain. We found that two white-hot streams, each 
 about twenty yards broad at the free end, were issuing 
 from the base of the cone. The glowing stones thrown up 
 by the crater were now separately visible ; a loud roar 
 accompanied each spasmodic ejection. The night was 
 very clear, and a white firmly-cut cloud, due to the 
 steam ejected by the crater, hung above it. At intervals 
 we heard a milder detonation that of thunder which 
 accompanied the lightning which played in the cloud, 
 giving it a greenish illumination by contrast with the 
 red flame colour reflected on to it by red-hot material 
 within the crater. The flames attributed to volcanoes are 
 generally of this nature, but actual flames do sometimes 
 occur in volcanic eruptions by the ignition of combustible 
 gases. The puffs of steam from the crater were separated 
 by intervals of about three minutes. When an eruption 
 becomes violent they succeed one another at the rate of 
 many in a second, and the force of the steam jet is 
 gigantic, driving a column of transparent super-heated
 
 VESUVIUS IN ERUPTION 67 
 
 steam with such vigour that as it cools into the condition 
 of " cloud " an appearance like that of a gigantic pine-tree 
 seven miles high (in the case of Vesuvius) is produced. 
 
 We made our way to the advancing end of one of the 
 lava-streams (like the " snout " of a glacier), which was 
 20 ft. high, and moved forwards but slowly, in successive 
 jerks. Two hundred yards farther up, where it issued 
 from the sandy ashes, the lava was white-hot and running 
 like water, but it was not in very great quantity and rapidly 
 cooled on the surface and became " sticky." A cooled 
 skin of slag was formed in this way, which arrested the 
 advancing stream of lava. At intervals of a few minutes 
 this cooled crust was broken into innumerable clinkers 
 by the pressure of the stream, and there was a noise like 
 the smashing of a gigantic store of crockery ware as the 
 pieces or " clinkers " fell over one another down the nearly 
 vertical " snout " of the lava-stream, whilst the red-hot 
 molten material burst forward for a few feet, but imme- 
 diately became again " crusted over " and stopped in its 
 progress. We watched the coming together and fusion of 
 the two streams and the overwhelming and burning up of 
 several trees by the steadily, though slowly, advancing 
 river of fire. Then we climbed up the ash-cone, getting 
 nearer and nearer to the rim of the crater, from which 
 showers of glowing stones were being shot. The deep 
 roar of the mountain at each effort was echoed from the 
 cliffs of the ancient mother-crater, Monte Somma, and the 
 ground shook under our feet as does a ship at sea when 
 struck by a wave. The night was very still in the intervals. 
 The moon was shining, and a weird melancholy " ritor- 
 nelle " sung by peasants far off in some village below us 
 came to our ears with strange distinctness. It might 
 have been the chorus of the imprisoned giants of Vulcan's 
 forge as they blew the sparks with their bellows and shook 
 the mountains with the heavy blows of their hammers.
 
 68 SECRETS OF EARTH AND SEA 
 
 As we ascended the upper part of the cone the red-hot 
 stones were falling to our left, and we determined to risk 
 a rapid climb to the edge of the crater on the right or 
 southern side, and to look into it. We did so, and as we 
 peered into the great steaming pit a terrific roar, accom- 
 panied by a shuddering of the whole mountain, burst 
 from it. Hundreds of red-hot stones rose in the air to a 
 height of 400 ft., and fell, happily in accordance with 
 our expectation, to our left. We ran quickly down the 
 sandy side of the cone to a safe position, about 300 ft. 
 below the crater's lip, and having lit our pipes from one 
 of the red-hot " bombs," rested for a while at a safe dis- 
 tance and waited for the sunrise. A vast horizontal layer 
 of cloud had now formed below us, and Vesuvius and the 
 hills around Naples appeared as islands emerging from a 
 sea. The brilliant sunlight was reassuring after this night 
 of strange experiences. The fields and lanes were deserted 
 in the early morning as we descended to the sea-level. 
 On our way we met a procession of weird figures clad in 
 long white robes, enveloping the head closely but leaving 
 apertures for the eyes. They were a party of the lay- 
 brothers of the Misericordia carrying a dead man to his 
 grave. Then we found our carriage, and drove quickly 
 back to Naples and sleep ! 
 
 In the following March I acted as guide to my friend 
 Professor Huxley in expeditions up Vesuvius, now 
 quiescent, and to the Solfatara. Then suddenly, in April, 
 the great eruption of 1872 burst upon us. On the first 
 day of the outbreak some imprudent visitors were killed 
 by steam and gas ejected by the lava-stream. By the 
 next day the violence of the eruption was too great for 
 any one to venture near it. The crater sent forth no 
 intermittent " puffs " as in the preceding November, but a 
 continuously throbbing jet which produced a cloud five 
 miles high, like an enormous cauliflower in shape, sus-
 
 VESUVIUS IN ERUPTION 69 
 
 pended above the mountain and making it look by com- 
 parison like a mole-hill. Showers of fine ashes, as in the 
 days of Pompeii, fell thickly around, accumulating to the 
 depth of an inch in a few hours even at my house in 
 Pausilippo, nine miles distant across the bay. I was 
 recovering at the time from an attack of typhoid fever, 
 and lay in bed, listening to the deep humming sound and 
 wondering at the darkness until my doctor came and told 
 me of the eruption. I was able to get up and see from 
 the window the great cauliflower-like "cloud and the vacant 
 place where the ash-cone was, but whence it had now 
 been scattered into the sky. (It has been gradually re- 
 formed by later eruptions, of which the last of any size 
 was in 1906.) I could also see steam rising like smoke 
 from a long line reaching six miles down the mountain 
 into the flat country below. It was the great lava-stream 
 which had destroyed two prosperous villages in its course. 
 After ten days I was able to get about, and drove 
 over to one of these villages and along its main street, 
 which was closely blocked at the end by what looked like 
 a railway embankment some 40 ft. high. This was the 
 side of the great lava-stream now cooled and hardened 
 on the surface. It had sharply cut the houses, on each 
 side of the street, in half without setting them on fire, so 
 that the various rooms .were exposed in section pictures 
 hanging on the walls, and even chairs and other furniture 
 remaining in place on the unbroken portion of the floor. 
 The villagers had provided ladders by which I ascended 
 the steep side of the embankment-like mass at the end of 
 the street, and there a wonderful sight revealed itself. 
 One looked out on a great river seven miles long, narrow 
 where it started from the broken-down crater, but widen- 
 ing to three miles where I stood, and wider still farther 
 on as it descended. This river, with all its waves and 
 ripples, was turned to stone, and greatly resembled a Swiss
 
 70 SECRETS OF EARTH AND SEA 
 
 glacier in appearance. A foot below the surface it was 
 still red-hot, and a stick pushed into a crevice caught fire. 
 It was not safe to venture far on to the pie-crust surface. 
 A couple of miles away the campanile of the church of a 
 village called Massa di Somma stood out, leaning like 
 that of Pisa, from the petrified mass, whilst the rest of the 
 village was overwhelmed and covered in by the great 
 stream. 
 
 The curious resemblance of the lava-stream to a glacier 
 arose from the fact that it was almost completely covered 
 by a white snow-like powder. This snow-like powder, which 
 often appears on freshly-run lava, is salt common sea 
 salt and other mineral salts dissolved in the water ejected 
 as steam mixed with the lava. The steam condenses, as 
 the lava cools, into water and evaporates slowly, leaving 
 the salt as crystals. Often these are not white, but con- 
 tain iron salt, mixed with the white sodium, potassium, 
 and ammonium chlorides, which gives them a yellow or 
 orange colour. Salts coloured in this way have the 
 appearance of sulphur, and are often mistaken for it. 
 The whole of the interior of the crater of Vesuvius 
 when I revisited it in 1875 was thus coloured yellow, 
 and I have a water-colour sketch of the scene made 
 by a friend who came with me for the purpose. As 
 a matter of fact, though small quantities of the choking 
 gas called "sulphurous acid" are among the vapours 
 given off by Vesuvius, there is no deposit of sulphur 
 there. Some large volcanoes (in Mexico and Japan) 
 have made deposits of sulphur, which are dug for com- 
 mercial purposes ; but the sulphur of Sicily is not, and has 
 not been, thrown out or volatilized by Etna. It occurs in 
 rough masses and in splendid crystals in a tertiary cal- 
 careous marine deposit, and its deposition was probably 
 due to a chemical decomposition of constituents of the sea 
 water brought about by minute plants, known as " sulphur
 
 VESUVIUS IN ERUPTION 71 
 
 bacteria." Whether the neighbouring great volcano had 
 any share in the process seems to be doubtful. 
 
 It is generally supposed that sea-water makes its way 
 in large quantity through fissures connected with volcanic 
 channels, and is one of the agents of the explosions 
 caused by the subterranean molten matter. Gaseous 
 water, hydrochloric acid, carbonic acid, hydrofluoric acid, 
 and even pure hydrogen and oxygen and argon are 
 among the gases ejected by volcanoes. 
 
 The molten matter forced up from the bowels of the 
 earth and poured out by volcanoes is made up of various 
 chemical substances, differing in different localities, and 
 even in different eruptions of the same volcano. It 
 consists largely of silicates of iron, lime, magnesium, 
 aluminium, and the alkali metals, with possible admixture 
 of nearly every other element. Some volcanoes eject 
 " pitch " or " bitumen." When the molten matter cools, 
 interesting crystals of various " species " (i.e., of various 
 chemical composition) usually form in the deeper part of 
 the mass. The lavas of Vesuvius frequently contain 
 beautiful opaque-white twelve-sided crystals of a siliceous 
 mineral called " leucite." I have collected in the lava of 
 Niedermendig, on the Rhine, specimens embedding bright 
 blue transparent crystals (a mineral called Haiiynite) 
 scattered in the grey porous rock. The lava-streams, and 
 even the " roots," of extinct volcanoes which are of great 
 geologic age, sometimes become exposed by the change of 
 the earth's surface, and extensive sheets of volcanic rock 
 of various kinds are thus laid bare. Basalt is one of these 
 rocks, and it not unfrequently presents itself as a mass of 
 perpendicular six-sided columns, each column 10 ft. or 
 more high, and often a foot or more in diameter. The 
 " Giant's Causeway," in the North of Ireland, and the 
 " Pavee des Grants," in the Ardeche of Southern France, 
 are examples both of which I have visited. It is not easy
 
 72 SECRETS OF EARTH AND SEA 
 
 to explain how the molten basalt has come to take this 
 columnar structure on cooling. It has nothing to do with 
 " crystallization," but is similar to the columnar formation 
 shown by commercial " starch " and occasionally by 
 " tabular flint." A theoretical explanation of its forma- 
 tion has been given by Prof. J. Thompson, brother of the 
 late Lord Kelvin. 
 
 The varieties of volcanoes and their products make 
 up a long story too long to be told here. There are 
 from 300 to 400 active craters in existence to-day 
 mostly not isolated, but grouped along certain great 
 lines, as, for instance, along the Andean chain, or in 
 more irregular tracks. If we add to the list craters no 
 longer active, but still recognizable, we must multiply 
 it by ten. Vesuvius is the only active volcano on the 
 mainland of Europe Hecla, Etna, Stromboli, Volcano, 
 and the volcanoes of the Santorin group are on islands. 
 The biggest volcanoes are in South America, Mexico, Java, 
 and Japan. Volcanoes and the related "earthquakes" 
 have been most carefully studied with a view to the 
 safety of the population in Japan. The graceful and 
 well-beloved volcano, Fujiyama, is more than 12,000 ft. 
 high, but, unlike others in those islands, it has been 
 quiescent now for just 200 years. The most violent 
 volcanic eruptions of recent times, with the largest 
 " output " of solid matter, are those of the Suffriere of 
 St. Vincent in 1812, of the Mont Pele"e of Martinique in 
 1902, and of Krakatoa in 1883. A single moderate 
 eruption of the great volcano Mauna Loa, in Hawaii, 
 nearly 14,000 feet high, throws out a greater quantity 
 of solid matter than Vesuvius has ejected in all the 
 years which have elapsed since the destruction of Pompeii. 
 Many hundred millions of tons of solid matter were 
 ejected by Mont Pele"e in 1902, when also a peculiar 
 heavy cloud descended from the mountain, hot and
 
 VESUVIUS IN ERUPTION 73 
 
 acrid, charged with incandescent sand, and rolling along 
 like a liquid rather than a vapour. It burnt up the 
 town of St. Pierre and its inhabitants and the shipping 
 in the harbour. In the eruption of the volcano of 
 St. Vincent in 1812 three million tons of ashes were 
 projected on to the Bahamas Islands, 100 miles distant, 
 besides a larger quantity which fell elsewhere. The 
 great explosion at Krakatoa, lasting two days, blew an 
 island of 1400 ft. high, into the air. A good deal of 
 it was projected as excessively fine needlelike particles 
 of pumice with such force as to carry it up thirty miles 
 into the upper regions of the atmosphere, where it was 
 carried by air currents all over the world, causing the 
 " red sunsets " of the following year. The sky over 
 Batavia, 100 miles distant, was darkened at midday so 
 completely that lamps had to be used as I heard from 
 my brother who was there at the time. The explosions 
 were heard in Mauritius, 3000 miles away. A sea wave 
 50 ft. high was set going by the submarine disturbance, 
 and reaching Java and neighbouring islands inundated 
 the land and destroyed 36,000 persons. This wave 
 travelled in reduced size over a vast tract of the ocean, 
 and was observed and recorded at Cape Horn, 7800 miles 
 distant from its seat of origin.
 
 CHAPTER V 
 BLUE WATER 
 
 MOST people know and admire the splendid 
 expanse of blue colour offered by the clear sea 
 water on many parts of our coasts, and by that 
 of lakes at home and abroad. I find that there is still 
 a sort of a fixed determination not to believe that this 
 colour is due (as it is) to the actual blue colour of pure 
 water. Pure, transparent water is blue. Those who 
 think they know better will point to a glass of pure 
 water, hold it up to the light, and affirm that it is colour- 
 less. But this apparent colourlessness is due to the 
 small breadth of water in the glass through which the 
 light passes. It is definitely ascertained that if water 
 as pure and as free from either dissolved or suspended 
 matter as it is possible to make it (by distillation and 
 the use of vessels not acted upon by water) be made to 
 fill an opaque tube 15 ft. long, closed at each end by 
 a transparent plate, and then a beam of light be made 
 to traverse the length of the tube, so that the eye receives 
 the light after it has passed through this length of 15 ft. 
 of water, the colour of the light is a strong blue. Water 
 is blue in virtue of its own molecular character, just as 
 sulphate of copper is. Liquid oxygen, prepared by the 
 use of intense cold, is also transparent blue, and the 
 peculiar condensed form of oxygen known as " ozone " is, 
 when liquefied, of a darker or stronger blue than oxygen. 
 At one time (some thirty years ago) there was still
 
 BLUE WATER 75 
 
 some doubt as to whether water was self-coloured blue, 
 or whether its blue colour was due to the action on light 
 of excessively minute solid white particles of chalk sus- 
 pended in the water. Such fine suspended particles in 
 some cases act on the light which falls on to them so 
 as to reflect the blue rays. This occurs in certain 
 natural objects which have a blue colour. But these 
 can be distinguished from transparent self-coloured blue 
 substances by the fact that whilst the light reflected from 
 their surface is blue, the light which is made to traverse 
 them (when they are held up to the light so that they 
 come between one's eye and the sun's rays) is brown. 
 This is the case with very hot smoke, and can be well 
 seen when a cigar is smoked in the sunlight. The smoke 
 which comes off from the lighted end of the cigar is very 
 hot, and its particles are more minute than those of 
 cooler smoke. The hot smoke shows a bright blue 
 colour when the sunlight falls on it and is reflected, but 
 when you look through the smoke-cloud at a surface 
 reflecting the sunlight, the cloud has a reddish-brown 
 tint. As the smoke cools its particles adhere to one 
 another and form larger particles, and the light reflected 
 from the cloud is no longer blue but grey, and even 
 white. Thus the smoke which the smoker keeps for 
 half a minute in his mouth is cooled and condensed, and 
 reflects white light is, in fact, a white cloud when he 
 puffs it out, and contrasts strongly with the blue cloud 
 coming off from the burning tobacco at the lighted end of 
 the cigar. The blue colour of the sky is held by many 
 physicists (though other views have been of late advanced) 
 to be due to the same action on the part of the very 
 finest particles of watery vapour, which are diffused 
 through vast regions of our atmosphere above the con- 
 densed white-looking clouds consisting of larger floating 
 particles of water.
 
 76 SECRETS OF EARTH AND SEA 
 
 Vapours are given off by many liquids, and even by 
 some solids, varying in their production according to the 
 heat applied in different cases. They are gases and quite 
 transparent and invisible at the proper temperature, like 
 the atmospheric air. Thus water is always giving off 
 "water-vapour," which is quite invisible. When water 
 is heated to the boiling point it is rapidly converted 
 into transparent invisible vapour. Steam, as this vapour 
 is called, is invisible, and we all habitually make a 
 misleading use of the word " steam " when we apply it 
 both to this and to the slightly cooled and condensed 
 cloud which we can see issuing from the spout of a 
 kettle or from a railway engine. It seems that the 
 fault lies with the scientific writers, who have applied 
 the word " steam " to the invisible water vapour or gas 
 before it has condensed to form a cloud. The old English 
 word " steam " certainly means a visible cloudy emana- 
 tion, and not a transparent invisible gas. A cloud is not 
 a vapour, but is produced by the coming together or 
 condensation of the minute invisible particles of a vapour 
 to form larger particles, which float and hang together, 
 and reflect the light, and thus are visible. 
 
 By the examination of other vapours or gases than that 
 which is gaseous water, namely, the vapours of bodies like 
 chloroform and ether, it has been shown that " cloud " 
 forms in a vapour not merely in consequence of the 
 cooling of the vapour, but in consequence of the presence 
 in the air (or in the tube in which the vapour is enclosed 
 for observation) of very fine floating dust particles. They 
 act as centres of attraction and condensation for the 
 vapour particles. When there are no dust particles 
 present clouds do not form readily in cooling vapours, 
 or only at lower temperatures, and in larger mass. 
 Tyndall made some beautiful experiments on this subject, 
 obtaining clouds of great tenuity in vapours enclosed in
 
 BLUE WATER 77 
 
 tubes, which reflected the most vivid blue tints when 
 illuminated by the electric arc-lamp. Later Aitken, of 
 Edinburgh, showed that the " fog " which forms in smoke- 
 ridden towns is due to the condensation of previously 
 invisible watery vapour as "cloud" around the solid 
 floating particles of carbon of the smoke. Aitken further 
 used this property of solid floating particles, namely, 
 that they cause the formation of fog and cloud in vapours 
 to test the question as to whether the excessively minute 
 odoriferous particles which affect our noses as " smell " are 
 distinct solid floating particles as often supposed, or are of 
 the nature of gas and vapour. He admitted strong per- 
 fumes such as musk into tubes containing watery vapour, at 
 such a temperature that the vapour was in a " critical " state 
 just ready to condense and precipitate as "cloud." If 
 he had admitted fine solid particles such as a minute 
 whiff of smoke, or some " dusty " air the cloud would 
 have formed. But the admission of the perfume had no 
 such effect. Therefore, he concluded that the odoriferous 
 emanations used by him are not distinct particles like 
 those of smoke or dust, but are gaseous. 
 
 The beautiful blue tint of the semi-transparent " white " 
 of a boiled plover's egg is due to a fine-particled cloud 
 dispersed in the clear albumen. London milk used to 
 be "sky-blue" for a similar reason, before the recent 
 legislation against the adulteration of food. The blue eyes 
 of our fair-haired race and of young foxes are not due to 
 any " pigment " that is to say, a separable self-coloured 
 substance but to a fine cloud floating in a transparent 
 medium which reflects blue rays of light as blue smoke does. 
 The iris of the eye can and often does develop a pigment, 
 but it is a brown one. When present in small quantity it 
 produces a green-coloured iris, the pale yellow-brown 
 being added to the blue cloud-caused colouring. When 
 present in larger quantity the same pigment gives us brown
 
 78 SECRETS OF EARTH AND SEA 
 
 and so-called " black " eyes. The blue colours in birds' 
 feathers and insects' wings are produced without blue pig- 
 ment by special effects of reflection, and where green is 
 the colour it is often due to the addition of a small 
 quantity of yellow pigment to what would otherwise look 
 blue: though some caterpillars and grasshoppers have a 
 real green pigment in their skin. Flowers, on the other 
 hand, have true soluble blue "pigments," and green ones 
 too, notably that called leaf-green or chlorophyll. The 
 little green tree frog has no blue or green pigment in its 
 skin ; only a yellow pigment. Sometimes rare specimens 
 are found in which the yellow pigment is absent altogether, 
 and then the little frog is turquoise-blue in colour. But 
 there is no blue pigment in the skin ; only a finely- 
 clouded translucent film overlying a dead-black deep 
 layer of the skin, and the result is that the frog is of a 
 wonderful pure blue. Sometimes the commoner large 
 edible frog is found with a similar absence of yellow pig- 
 ment (I found some in a garden near Geneva six years 
 ago), and then all the parts of its skin which usually are 
 green show as brilliant blue. 
 
 It is at first difficult to believe that such fine, smoothly- 
 spread turquoise blue as that of the blue frog is due 
 merely to a " reflection effect," and that there is no blue 
 pigment present which would show as blue if light were 
 transmitted through it, or could be separated and 
 dissolved in some medium. Yet this is undoubtedly the 
 case. The nearest experimental production of such a 
 blue surface without blue pigment is obtained by first 
 varnishing a black board, and when the varnish is nearly 
 dry passing a sponge wetted with water over it. Some 
 of the varnish is precipitated from its solution in the spirit 
 (or it may be turpentine) as a fine cloud, and until the water 
 has evaporated it looks like blue paint, as the poet Goethe 
 found when cleaning a picture. It would be interesting
 
 BLUE WATER 79 
 
 to know more precisely the precautions to be taken in 
 order to get the blue colour in this way in fullest degree. 
 
 It appears that when light is reflected from a cloud of 
 fine colourless particles so as to give a predominant blue 
 colour, the light so reflected is affected in that special way 
 which physicists describe as being " polarized." It is 
 possible by the use of certain apparatus (the polariscope) 
 to distinguish polarized from non-polarized light, so that 
 it should be possible to decide (or at any rate to gain 
 evidence) whether blue water a sheet of blue water 
 owes its colour to fine particles suspended in it or to the 
 self-colour of the water. An admirable case for making 
 this simple experiment is presented by the great tanks 
 some 20 ft. cube which are used by the water companies 
 which draw their water supply from the chalk, for the 
 purpose of precipitating the dissolved chalk " Clarking " 
 the water, as it is called, after the inventor of the process 
 and so getting rid of its excessive "hardness." Such 
 tanks are to be seen by the side of the railway near 
 Caterham. The water in these tanks is of such a 
 brilliant turquoise blue that many people suppose that 
 copper has been added to the water to free it from 
 microbes ! Such, at any rate, was the conviction expressed 
 by a friend in conversation with me only a few weeks ago. 
 The water in these tanks, when seen from the railway, looks 
 like a magnificent blue dye, and a very important point 
 for those (not a few) who believe that the blue colour of 
 seas and lakes is due to the reflection of the blue colour of 
 the sky overhead is that the water in the tanks looks just 
 as blue when the sky is overcast with cloud as when 
 there is blue sky. The blue colour of water has, as a rule, 
 nothing to do with the reflection of the sky, though it is 
 the fact that a shallow film of water may at a certain 
 angle reflect the sky to our eyes, just as a mirror may. 
 The effect is quite unlike that due to light passing through
 
 8o SECRETS OF EARTH AND SEA 
 
 deep water when reflected from below it. If we examine 
 the tanks in question we find that they have been filled 
 with water pumped from the chalk, and that then lime has 
 been added to the water in order to combine with the car- 
 bonic acid dissolved in it and form chalk or carbonate of 
 lime which is insoluble in pure water and falls as an 
 excessively fine white powder to the bottom of the tank. 
 But the important fact is that water having carbonic acid 
 dissolved in it can dissolve carbonate of lime or chalk to a 
 certain amount : and this water pumped from the chalk, 
 having carbonic acid naturally dissolved in it, has conse- 
 quently also dissolved a quantity of chalk. It is this 
 which gives the chalk-spring water the objectionable 
 quality of " hardness." When lime is added to the chalk- 
 spring water as pumped into the tanks, the carbonic acid 
 in it is taken up by the lime, and the chalk previously 
 dissolved by the carbonic-acid-holding water is, so to speak, 
 " undissolved," and thrown down as a very fine white 
 powder, together with the chalk newly formed by the 
 union of the lime and the carbonic acid. These large 
 tanks are used to allow the fine powder of chalk to settle 
 down and leave the water clear. The brilliantly white 
 chalk sediment accumulates not only on the floor of the 
 tank, but on its sides. Any light which falls on the tank 
 is refracted and reflected from side to floor and from floor 
 to side, and eventually emerges from the tank, a great 
 deal of it having traversed the 20 ft. breadth and depth 
 many times. Most of its red, yellow, and green rays are 
 quenched by the many feet of blue water through which it 
 has passed, and it issues as predominantly blue. This is 
 largely due to the fine reflecting surface furnished by the 
 " white- washed " or chalk-coated floor and sides and the 
 great purity of the white reflecting material no yellow 
 or brown matter being present to give a greenish tinge to 
 the result. I remember being taken to see " Clark's
 
 BLUE WATER 81 
 
 process " in use, and the splendid blue colour of the water 
 in the " softening " tanks at Plumstead, when the process 
 was first used by the North Kent Water Company, sixty- 
 four years ago. 
 
 It is, I think, still a possible question as to whether the 
 fine floating particles of precipitating chalk act in any way 
 as a " cloud " in short, as the blue clouds of smoke, egg- 
 white, milk, and varnish. There is no evidence that they 
 do, but no one, so far as I know, has ever taken the trouble 
 to settle the question. It could be done by examining the 
 blue light from the tanks with a polariscope, and also by 
 sinking a black tarpaulin into the tank to cover the white 
 floor and hanging others at the sides. Then if the blue 
 colour were due to light reflected from the white floor and 
 sides traversing repeatedly the clear self-coloured blue 
 water, the blue colour should no longer be visible, for the 
 reflecting surfaces would be covered by the black tarpaulin 
 and little light sent up through the water. But if it were 
 due to a cloud of greatest delicacy in the water like fine 
 smoke reflecting the blue light rather than the other rays 
 then the colour should be as intense or more intense 
 when the black background is introduced. I am surprised 
 that some inquirer, younger and more active than I am, 
 does not put the matter to the test of experiment. 
 
 On the whole, practically all the facts which we know 
 about " blue water " are consistent with the blue self-colour 
 of water, and not with that of a " blue cloud " in the water. 
 Now that we have porcelain baths of the purest white and 
 of large size, one may often see the strong blue colour of 
 water of great purity in the bath, especially where waves 
 or ripples send to our eyes those rays of light which have 
 taken a more or less horizontal course from side to side of 
 the bath, and have thus been through a large thickness of 
 the pale-coloured fluid. Great masses of clear ice, such as 
 one may study in glaciers, are blue ; the " crevasses " which 
 6
 
 82 SECRETS OF EARTH AND SEA 
 
 transmit light which has passed through a considerable 
 thickness of ice (as, for instance, in an ice cave), are deep 
 blue ; there is no question of a reflection from suspended 
 particles. The green colour which some glaciers show at 
 a little distance is due to the yellow rust iron oxide 
 blown on to the surface of the ice and dissolved. Many 
 glaciers or parts of glaciers are quite free from it, and of a 
 splendid indigo blue in their deeper fissures. So, too, as 
 to the sea and lakes. The Blue Grotto or Cavern of the 
 island of Capri, near Naples, is a case in point. All the 
 light which enters it comes through the sea-water and is 
 blue. I was taken to it in a boat rowed by two men. As 
 the boat enters the low mouth of the cavern you have to 
 bend down to avoid knocking your head against the rock. 
 Then you find yourself floating in a vast and lofty 
 chamber the white rocky floor of which is some twenty 
 feet below the surface of the clear water. No light enters 
 the cavern by the low part of the entrance above water. 
 Below the surface it widens and the strong Southern sun 
 shines through the clear water and its light is reflected up 
 into the cave from the bottom. It is blue, and everything 
 in the cave above as well as below the water is suffused 
 with a blue glow a truly wonderful and fascinating 
 spectacle. In order to get the best effect you must 
 choose an hour when the sun is in a favourable position. 
 Where there is a white bottom at a depth of fifty or a 
 hundred feet, the sea has a fine ultra-marine colour, so 
 long as it is clear. It is often made green by yellow- 
 coloured impurities, either fine iron-stained sediment or by 
 minute living things in the water. The colour of the 
 water of either sea or lakes, when it is clear and overlying 
 great depths (200 fathoms and more), tends to be dark 
 indigo owing to the deficiency of reflected light. But 
 there are enough white particles as a rule to send some of 
 the light, which penetrates the water, upwards again.
 
 BLUE WATER 83 
 
 Even the great ocean has a dark purplish-blue colour, 
 but never the bright blue of clear water in shallow seas 
 with light-coloured or white bottom. 
 
 One of the most beautiful exhibitions of the colour of 
 clear water in various thicknesses which I know, is at the 
 entrance of the Rhone into the Lake of Geneva. The 
 thick pale-coloured brownish-white sediment of the river 
 shoots out for a quarter of a mile or more into the dark 
 blue waters of the deep lake, and on a bright sunny day as 
 it subsides reflects the light upwards from different depths 
 through the clear water. Where it has sunk but little the 
 colour is green, owing to the influence of the yellow mud. 
 Farther on it is ultra-marine blue, and then, where it has 
 sunk deeper, we get full indigo tints. The movement of 
 the water and its churning up by the steamers' paddles 
 add to the variety of effects, since the foam of air-bubbles 
 submerged throws up the light through the water. It is 
 not possible to doubt as one watches the admixture of the 
 river and the lake, and the eddies and hanging walls of 
 sediment, that one is floating over a vast depth of 
 magnificent blue self-coloured fluid which is traversed by 
 the sunlight in ways and degrees varying according to its 
 depth and the volume of the pale mud of the in-rushing 
 Rhone and the abundance of fine air-bubbles " churned " 
 into the water by the paddle-wheels of the steamer.
 
 CHAPTER VI 
 THE BIGGEST BEAST 
 
 THERE is a prevalent notion, encouraged by the 
 fanciful exaggerations of newspaper gossips, that 
 the animals of past ages, whose bones are from time 
 to time dug out of rocks and sand quarries, were many of 
 them much bigger than any at present existing, and that 
 we are living in an age of degeneracy. It is true that the 
 mammoth and the mastodon were enormous creatures, 
 but they were not bigger than their living representatives, 
 the great elephants of Africa and India. The African 
 elephant often stands n ft. high at the shoulder, and 
 occasionally attains 12 ft. 
 
 Some eighty years ago Dr. Gideon Mantell became 
 celebrated by his discovery of the bones of huge reptiles 
 far bigger than any existing crocodile or lizard 
 nearly as big as elephants, in the Wealden rocks of 
 Tilgate Forest in Sussex. He and Sir Richard Owen 
 distinguished several kinds the Iguanodon, the Megalo- 
 saurus, the Hylsosaurus, and others. Models of these 
 creatures as they appeared when clothed in flesh and hide 
 were carefully made, and placed picturesquely among the 
 ponds and islands of the gardens of the Crystal Palace 
 at Sydenham when it was first opened to an enchanted 
 public in the fifties. As a small boy I, at that time, 
 fell under their spell. 
 
 The passing years have brought to us more complete 
 
 knowledge of these strange beasts now classed as the 
 84
 
 THE BIGGEST BEAST 85 
 
 " Dinosauria " and new kinds and complete skeletons of 
 those already known have been discovered in the United 
 States and in Belgium. The leg bones and vertebrae of 
 one of the biggest were found near Oxford, and are in 
 the Oxford Museum; it received the name Cetiosaurus. 
 Only a few years ago a very complete skeleton of a 
 creature closely allied to Cetiosaurus was with great 
 labour and skill dug out of the Jurassic rocks of Wyoming, 
 U.S.A., by Dr. Holland, at the charges of Mr. Andrew 
 Carnegie. It was known as Diplodocus (referring to 
 certain bones in its tail), and a wonderful cast of the 
 completely reconstructed skeleton was presented to the 
 Natural History Museum in London, when I was 
 Director, by Mr. Carnegie. The skeleton is 84 ft. 
 long; but we must not be mis-led as to the animal's 
 actual bulk by this measurement, for the tail is 46 
 ft. long and whip-like, whilst the neck is 23 ft. 
 long and carries a small head not bigger than that 
 of a cart-horse. The jaws were provided with small peg- 
 like teeth, showing that the beast fed on soft vegetable 
 matter. The body, apart from neck and tail, was really 
 only a little bigger than that of a large elephant, and the 
 limb-bones longer in the proportion of about six to five. 
 Another reptile very similar to these and also found in 
 the mesozoic rocks of the U.S. America is Brontosaurus. 
 
 The fact is that, if we wish to make an intelligent 
 comparison of the sizes of different animals, we have 
 carefully to ascertain not merely the length measurements, 
 but the proportions of the various parts, and the actual 
 bulk and probable weight of the beasts under consideration. 
 Also (and this is a very important and decisive matter) 
 we must know whether the beasts were terrestrial in habit, 
 walking with their bodies raised high on their legs, or 
 whether they were aquatic and swam in the lakes or seas, 
 their bodies buoyed up and supported by the water. By
 
 86 SECRETS OF EARTH AND SEA 
 
 far the biggest animals of which we have any knowledge 
 are the various kinds of whales still flourishing in the sea. 
 A mechanical limit is set to the size of land-walking 
 animals, and that limit has been reached by the elephant. 
 " Flesh and blood," and we may add " bone," cannot carry 
 on dry land a greater bulk than his. He is always in 
 danger of sinking by his own weight into soft earth and 
 bog. His legs have to be much thicker in proportion 
 than those of smaller animals made of the same material 
 or they would bend and snap. His feet have to be 
 padded with huge discs of fat and fibre to ease the local 
 pressure, and his legs are kept straight not bent at the 
 joints, when he stands (a fact to which Shakespeare makes 
 Ulysses refer), so that the vast weight of his body shall 
 be supported by the stiff column formed by the upper 
 and lower half of the limb-bones kept upright in one 
 straight line. A well-grown elephant weighs five tons. 
 Compare his weight and shape with that of a big whale- 
 bone whale! No extinct animal known approaches the 
 existing whale in bulk and weight. He is So to 90 ft. 
 long, and has no neck nor any length of tail. His out- 
 line is egg-like, narrower at the hinder end. He weighs 
 200 tons forty times as much as a big elephant and 
 is perfectly supported without any strain on his structure 
 by the water in which he floats. There is no such limit 
 to his possible size as there is in the case of land-walk- 
 ing animals. * But it seems probable that he too is 
 limited.in size by mechanical conditions of another kind. 
 Probably he cannot exceed some 90 ft. in length and 200 
 tons of bulk on account of the relatively great increase 
 of proportionate size and power in the heart required in 
 order to propel the blood through such a vast mass of 
 living tissue and keep him " going " as a warm-blooded 
 mammal. The original pattern the small dog-like 
 ancestor of the whale cannot be indefinitely expanded
 
 THE BIGGEST BEAST 87 
 
 as an efficient working machine, though its limit of growth 
 is not determined by the same mechanical causes as those 
 which limit the bulk of the terrestrial quadruped. 
 
 These considerations make it clear that we should 
 compare as to " bigness " terrestrial animals with other 
 terrestrial animals, and aquatic animals with aquatic ones. 
 It seems probable that Diplodocus was an aquatic 
 reptile, and never raised himself on to his four legs on 
 dry land as the Carnegie skeleton at the Natural History 
 Museum is doing. His legs and feet are quite unfitted 
 to support his weight on a land surface; on land he 
 would have rested on his belly, as a crocodile does, 
 with much bent legs on each side. But submerged 
 in 20 ft. depth of water, he could have trotted along, 
 half-floating, with his feet touching the bottom and his 
 head raised on its long neck to the surface, slowly 
 sucking the floating vegetation into his moderate-sized 
 mouth. (See drawing on p. 91.) 
 
 Diplodocus and Cetiosaurus have huge thigh-bones 
 and upper-arm bones respectively 5 ft. 9 in. and 3 
 ft. 2 in. in length until lately the biggest known limb- 
 bones, although the lower jaw-bone of a Right Whale 
 grows to be 18 ft. in length. But a thigh-bone (femur) 
 of a reptile similar to Diplodocus has been found in 
 Wyoming, 6 ft. 2 in. in length. This reptile was named 
 Atlantosaurus, and a cast of the huge bone the biggest 
 known when it was placed there stands in our museum 
 gallery. However, its glory has departed, for we now 
 know " than this biggest bone, a bigger still." The bones 
 of several individuals of a huge reptile similar to 
 Diplodocus, but actually twice as big in linear dimensions, 
 were found by Dr. Fraas at Tendagoroo, fifty miles from 
 the coast in German East Africa, and brought safely to 
 Berlin in 1912, though they have not yet been mounted, 
 as a complete specimen. They were lying in a sandy
 
 88 SECRETS OF EARTH AND SEA 
 
 deposit of the same geologic age as our Sussex Wealden. 
 A special expedition of 500 negroes was sent not by 
 the Government, but by the Berlin " Society of the 
 Friends of Natural History " (we need such a society in 
 England), at a cost of 10,000, to fetch the bones. They 
 were of many individuals, and had to be skilfully dug 
 out and packed. Dr. Fraas calls this biggest of all 
 quadrupeds " Gigantosaurus." A cast of the humerus, 
 or upper-arm bone, is now exhibited in the Natural 
 History Museum. It is over 7 ft. in length. The 
 femur, or thigh-bone, was still bigger it was over 10 
 ft. in length. Alas for the glory of Atlantosaurus ! 
 This enormous creature was, of course, like Diplodocus, 
 aquatic. Its bulk was much less than that of a big 
 whale, but extinct aquatic reptiles may yet be found of 
 greater size. Ichthyosaurus, the extinct whale-like reptile, 
 does not exceed 30 ft. in length. Our engraving (Fig. 32) 
 shows the relative size of the humerus of man, the 
 elephant, 1 and the Gigantosaurus. How puny is that 
 human arm-bone ! And yet . . . ! 
 
 When stretched on the shore, resting on the belly, the 
 body of the great lizard of Tendagoroo bulked like a 
 breakwater 12 ft. high, and his tail like a huge serpent 
 extended 80 ft. beyond it; whilst his head and neck 
 reached 40 ft. along the mud in front. 
 
 An important limitation to great size in an animal is, 
 it must be remembered, often imposed by the nature of 
 
 1 The elephant, the thigh-bone of which, measuring nearly 3 ft. in length, 
 is drawn in Fig. 32, is a large Indian one. This species is exceeded in size by 
 the African. See " Science from an Easy Chair," Second series, p. 123. The 
 largest elephant the bones of which are known is the Elephas antiquus of 
 the Pleistocene, bigger than either of the living species and bigger than the 
 mammoth, Elephas primigenius. The arm-bone (humerus) of one of this 
 species (Elephas antiquus) lately dug up near Chatham and now in the Natural 
 History Museum, is 4 ft. 3 in. in length.
 
 7 - 
 
 6 
 
 5 - 
 
 4 - 
 
 3 
 
 2 - 
 
 I - 
 
 Feet 
 
 GREAT 
 EXTINCT 
 REPTILE 
 
 ELEPHANT 
 
 FIG. 32. The upper-arm bone or humerus of the great reptile 
 (Gigantosaurus) of Tendagoroo compared with that of man and 
 of an Indian elephant.
 
 90 SECRETS OF EARTH AND SEA 
 
 the animal's food. Ten individuals each weighing a 
 hundredweight will more easily pick up and swallow the 
 amount of food required to nourish ten hundredweight 
 of the species than will one individual responsible for the 
 whole bulk, provided that the food is scattered 'and not 
 ready to the mouth in unlimited quantity. A creature 
 which has unlimited forest or grass or seaweed as its 
 food will be at no disadvantage owing to its size. But a 
 carnivor or a fish-eater or one depending on special fruits 
 and roots not offered to him by nature in mass has to 
 search for, and sometimes to hunt, or at any rate to 
 compete with others, for the scattered and elusive " bits " 
 of food. So it is that we find that the fruit-eating apes 
 are not very big, and that terrestrial carnivors are small, 
 though powerful and swift, as compared with cattle, deer, 
 and vegetarian beasts. Ten carnivors weighing each ten 
 stone will with their ten mouths " pick up " more prey 
 than one carnivor weighing a hundred stone and having 
 only one mouth. Even the carnivorous Dinosaurs such 
 as Megalosaurus and Tyrannosaurus were much smaller 
 than the vegetarian Iguanodon, Diplodocus, Brontosaurus 
 and Triceratops on which (or on the like of which) they 
 preyed just as a tiger is smaller than a buffalo, and a 
 wolf smaller than a horse. It is owing to causes of this 
 nature that the life of some animals, and consequently 
 their growth, is limited in duration. Occasionally the 
 common lobster lives to a great age, and grows to be 
 more than 2 ft. long. But he is doomed by his size; the 
 smaller lobsters "go quickly around" and get all the 
 food (carrion of the sea), and the big fellow has to starve. 
 The whale-bone whales, it is true, take animal food ; but 
 it occurs in the form of minute sea-slugs and shrimps, 
 which fill the surface waters in countless millions over 
 hundreds of miles of ocean. Hence the whales of this 
 kind have only to swim along with their mouths open
 
 THE BIGGEST BEAST 91 
 
 through an unlimited supply of luscious food. The size 
 of terrestrial animals is also, it appears, definitely related 
 to the natural water-supply. There are very few small 
 quadrupeds in the interior of Africa. On account of 
 frequent "drought," the mammals have often to run a 
 hundred miles or more in search of water. Only animals 
 as big as the larger antelopes and the zebra can cover the 
 ground. The smaller kinds die (and have, in fact, died 
 out in past ages) in these regions of sudden drought. 
 
 The gigantic reptile Diplodocus on land.
 
 CHAPTER VII 
 WHAT IS MEANT BY " A SPECIES r ? 
 
 THOSE who take an interest in natural history must 
 find it necessary to know what the naturalist 
 means by " a species " of animal or plant. What 
 does he mean when he says : " This is not the same species 
 as that," or " This is a species closely allied to this other 
 species," or " This is a new species " ? What are the 
 " species " concerning the origin of which Darwin pro- 
 pounded his great theory ? There is really no English 
 word which can be exactly used in place of the word 
 " species." I often have to use the word when writing 
 about plants or animals, and should like once for all to 
 say what is meant by it. One might suppose that a 
 " kind " is the same thing as a species. And so it often is ; 
 but, on the other hand, by the word " kind " we often 
 mean a group including several species. For instance, 
 we say the " cat-kind " or the " daisy-kind," meaning the 
 " cat-like " animals or the " daisy-like " plants. The 
 expression " the cat-kind " includes the common cat and 
 the wild cat, and even leopards, lions, and tigers, each of 
 which is a species of cat. And by the " daisy-kind " we 
 understand a group including several species of daisies, 
 such as the common daisy, the ox-eye daisy, the camomile 
 daisy, the michaelmas daisy, and others. Hence we 
 cannot translate species simply by the word " kind." 
 " Kind " is the same word as " kin " " a little more than 
 kin and less than kind," runs Hamlet's bitter pun. " Kind "
 
 WHAT IS MEANT BY A SPECIES"? 93 
 
 means a group held together by kinship, and it may be a 
 larger or a smaller group held together by a close kinship 
 or by a more distant one. " Sort," again, will not serve 
 our purpose as an English translation of " species." For, 
 although " a sort " implies a certain selection and similarity 
 of the things included in the " sort," the amount of 
 similarity implied may be very great or it may be in- 
 definitely vague and remote. Hence naturalists have to 
 stick to the word "species," and to use it with a clear 
 definition of what they mean by it. 
 
 Suppose we get together a large unsorted collection 
 many hundred " specimens " or individuals of the 
 common butterflies of England. Then, if we look them 
 over, we shall find that we can pick out and arrange the 
 specimens into definite groups, according to their colour- 
 pattern. We find that the kinds which we readily 
 distinguish are called in English the swallow-tails, the 
 whites, the sulphurs, the clouded yellows, the tortoise- 
 shells, the peacocks, the red admirals, the painted ladies, 
 the gatekeepers, the meadow browns, the heaths, the 
 coppers, and the blues. There might be others in such 
 a collection, but that is enough for our purpose. On 
 examining the specimens closely, we find that the colour- 
 markings and "venation" or network by which the wings 
 are marked and the shape of the wings, body, and legs 
 of all the specimens of the swallow-tails are almost exactly 
 alike, and unlike those of any of the others. We shall 
 find if we have a dozen or two specimens that there is a 
 slight difference in the pattern, size, and colour of wing of 
 some of the swallow-tails, dividing them into two groups, 
 which we soon ascertain to be the males and females ; but 
 this is so small a difference that we may ignore it. The 
 swallow-tail is obviously and at once distinguished from 
 any of the other butterflies in the collection by its colour- 
 pattern and shape. So also with the others, there will be
 
 94 SECRETS OF EARTH AND SEA 
 
 many specimens in each case agreeing in colour and 
 pattern, and recognizable and distinguishable from the 
 rest by the colour-pattern and by the " venation " or 
 " nervures " of the wings. If we collect butterflies again 
 in other years and in other parts of the country, we find 
 the same set of shapes and patterns exactly, corresponding 
 to what we have learnt to call swallow-tails, whites, 
 sulphurs, clouded yellows, tortoise-shells, etc. There are, 
 we thus learn, several distinct, unchanging kinds of 
 butterfly, which are common in this country, and appear 
 every year. Similarly we may go into a meadow in 
 spring, and gather a number of flowers, and a naturalist 
 will roughly arrange our bouquet into " kinds " ; there 
 will be the buttercups, the daisies, the clovers, the dead 
 nettles, the poppies, the roses, the orchids, etc. 
 
 If, now, we look more carefully at our collection of 
 butterflies, sorted out roughly into kinds or species, we 
 shall find that the " whites," although holding together 
 by a close similarity in having merely white wings edged 
 and spotted with black, yet differ amongst themselves, 
 so that we distinguish a larger kind, the large garden- 
 white, and a smaller, commoner kind, the smaller 
 garden-white, and we distinguish also the green-veined 
 white, and possibly the rare Bath white, each of them 
 differing a little in their spots as well as their size. 
 These different sorts of " whites " can, once our attention 
 is drawn to the matter, be readily distinguished from one 
 another, and constantly are found in our collections. We 
 thus arrive at the conclusion that, though the whites are 
 much alike, and are a kind distinct from the other kinds 
 of butterflies, yet the " whites " themselves can be divided 
 into and arranged as several kinds distinct from one 
 another. In fact, we discover (and an illustrated book on 
 butterflies confirms us in the conclusion) that there are 
 several ultimate kinds of whites which cannot be further
 
 WHAT IS MEANT BY " A SPECIES " ? 95 
 
 separated into groups. These are what are called " species." 
 The whites are therefore not a single species, as are our 
 British swallow-tails, but a group of species, closely related 
 to one another. We find the same thing to be true with 
 regard to the blues. Though they are much alike, agreeing 
 in a variety of details of spotting and colour, yet we can dis- 
 tinguish the chalk-hill blue, the common blue, the azure-blue, 
 the Adonis blue, and others, as distinct "species " of blues. 
 Then, again, when we carefully examine our English 
 specimens of tortoise-shells, we find that there are two 
 distinct " species " the greater and the smaller differing 
 not only in size, but in pattern ; and when we compare 
 with these the painted lady and the peacock and the red 
 admiral, we find that there is a certain agreement of wing- 
 pattern (venation and outline) and details of shape among 
 them all, although their tints and the shape of the spots 
 and bands of colour differ. These different species "hold 
 together" just as the whites do and just as the blues do. 
 Naturalists have met the need for expressing this similarity 
 of a number of distinct species to one another by introducing 
 the term " genus " for such a group. In fact we arrange 
 several species into a " genus." The " genus " is a " kind," 
 but a more comprehensive " kind," than is a species. The 
 species is an assemblage of individuals closely alike to one 
 another ; the genus is a group of species which are more 
 like to one another than any of them are to other 
 species. 
 
 Naturalists give to every genus a name, and also a name 
 to each species in the genus. Since we naturalists want 
 to know what butterflies or other species of animals and 
 plants are found in other countries, and to be sure that we 
 all (whatever our native language may be) mean the same 
 thing by a name, Latin names are given to the genera 
 and the species, and are necessarily used when one wishes 
 to be sure that one is understood. The greatest trouble
 
 96 SECRETS OF EARTH AND SEA 
 
 is taken to make certain that the name used is applied 
 only to the original species and the original genus to 
 which it was applied, for only -so can one be sure that a 
 writer in America or one in Italy or France means the 
 same thing by a name as we do here in England. This 
 is rendered possible and is actually brought about by the 
 preparation of catalogues in which the species are described 
 and figured, especially with regard to obvious points of 
 detail which are constant, and are called " specific 
 characters." These are chosen for special description, not 
 haphazard, but with a view to their being recognized with 
 certainty by those who study other specimens. Another 
 extremely important proceeding in connection with this 
 purpose of uniform naming, which involves vast labour 
 and expense, is the maintenance of great collections of 
 preserved animals and plants by the State in all civilized 
 countries. In these collections either the original specimens 
 to which names were given by recognized describers (called 
 " type-specimens " or " the type ") are preserved, or else 
 specimens which have been compared with those original 
 described specimens, and authoritatively ascertained to be 
 the same as the " type." The maintenance of accuracy 
 and agreement in regard to the names of all the " species " 
 of plants and animals is a big task. It is now carried out 
 by international councils, in which the skilled naturalists 
 of the world are represented. Certain principles have 
 been agreed upon as to the method of determining the 
 priority of one name over others which have been employed 
 for one and the same species by naturalists of different 
 countries and at different times, and a general agreement 
 as to what names are to be used has been arrived at. It 
 is a matter which has involved a great deal of uncertainty 
 and dispute, and still causes difficulty. By the exercise 
 of good sense, and in consequence of the existence of an 
 urgent desire really to understand one another, there is
 
 WHAT IS MEANT BY "A SPECIES"? 97 
 
 now every year an increasing uniformity and agreement 
 among naturalists about the exact name to be applied to 
 every species of living thing. 
 
 Returning to our collections of butterflies and meadow 
 flowers, we may take the names of some of the species and 
 genera as an example of the system of naming in use by 
 scientific naturalists. The common swallow-tail is assigned 
 to the genus Papilio. Its "specific name " is " Machaon," 
 given to it by Linnaeus, hence it is spoken of as Papilio 
 Machaon. It is found in various parts of Europe as 
 well as in England. But in Central Europe (often 
 seen in Switzerland) there is also another species of 
 swallow-tail, which only occurs as a rare accident in 
 England. This is the pale swallow-tail, differing, not only 
 by its paler colour but by definite spots and markings of 
 the wings, from the English species. Its species name, 
 or "specific name," is " Podalirius," and so it is known 
 as Papilio Podalirius. Species of Papilio are found all 
 over the world ; more than 50x3 are known. Our two 
 commonest whites belong to the genus Pieris they are 
 called respectively Pieris brassicas (the larger) and Pieris 
 rapae (the smaller). The green-veined white is Pieris napi. 
 Each of these three is called after the plant, cabbage, 
 rape, or turnip, on which its caterpillar feeds. The rare 
 Bath white is Pieris daplidice. Its caterpillar feeds on 
 mignonette. There are dozens of species in other parts 
 of the world allied to our " whites," which naturalists have 
 carefully distinguished and characterized by their marks. 
 
 Several of our most beautiful species of English butter- 
 flies which are much alike have been enrolled in one 
 genus the genus Vanessa. This genus includes the great 
 tortoise-shell, called Vanessa polychloros ; the smaller 
 tortoise-shell, Vanessa urticae ; the peacock, Vanessa lo; 
 the painted lady, Vanessa cardui ; the red admiral, 
 Vanessa Atalanta ; and the comma butterfly, Vanessa 
 7
 
 98 SECRETS OF EARTH AND SEA 
 
 C-album. There are other European, Asiatic, and 
 American species of Vanessa. 
 
 In the same way we find with our meadow plants that 
 what we at first thought was a single kind, " the " buttercup 
 really bears a name applicable to a genus in which are 
 several common species. The genus is called Ranunculus, 
 and there are several common English species with yellow 
 flowers, but distinguished from one another by definite 
 characters. They are Ranunculus acris, Ranunculus 
 flammula, Ranunculus bulbosus, Ranunculus arvensis, 
 Ranunculus ficaria (the lesser celandine). And then there 
 is the white-flowered Ranunculus aquatilis a common 
 pond plant. Clover, again, is by no means the name for 
 a single species. The clovers form the genus Trifolium, 
 and in any English meadow we may come across the 
 white clover, Trifolium repens ; the red clover, Trifolium 
 pratense ; the hop clover, Trifolium agrarium : the straw- 
 berry clover, Trifolium fragiferum ; the haresfoot clover, 
 Trifolium arvense. So it is with the plants which at first 
 sight we distinguish merely as "daisies." There are 
 several distinct genera of daisies Aster, Bellis, Chry- 
 santhemum (ox-eye), Anthemis (camomile), and others, 
 with several distinct species in each genus. 
 
 Enough has been said to show the reader that the 
 mere notion of " kinds " does not carry the same meaning 
 as "species," but that there are a number of regularly 
 occurring definite forms of both animals and plants which 
 can be arranged in groups consisting only of individuals 
 which are very nearly identical with one another. A 
 group of living things of this degree of likeness is called 
 " a species," and receives a name. A less degree of like- 
 ness holds together a number of species to form what we 
 call a genus, and the name of the genus is cited together 
 with the name of the species when we wish to speak of the 
 species with clearness and certainty. This system of
 
 WHAT IS MEANT BY "A SPECIES"? 99 
 
 double names we owe to the great Swedish naturalist of 
 the eighteenth century, Linnaeus. He proposed also that 
 the relationships of living things to one another should be 
 further expressed by grouping like genera into " families," 
 then like families into " orders," and like orders into 
 "classes." And since his day we go further and group 
 classes into "phyla" or great stems of the animal pedigree. 
 In this way a complete hierarchy or system of less and 
 more comprehensive groups has been established, and is 
 the means by which we indicate the natural groups of the 
 family-trees of plants and of animals, what, in fact, is 
 called the " classification " of each of these great series of 
 living things. Linnaeus compared his system of groups to 
 the subdivisions of two armies. Thus, the one army 
 represents the whole animal series, the other the whole 
 vegetable series. An army is divided into (i) "legions," 
 these into (2) " divisions," " divisions " into (3) " regiments," 
 regiments into (4) battalions, and battalions consist of 
 (5) companies, consisting of individual soldiers. Accord- 
 ing to Linnaeus, we may compare the legions to 
 classes, which are divided into orders, comparable to 
 divisions ; these into families, comparable to regiments ; 
 these into genera, comparable to battalions ; and these 
 into species, comparable to companies, or ultimate 
 groups of individual units or soldiers. 
 
 Just as the legions, divisions, regiments, battalions 
 and companies of an army have each their own name or 
 at any rate a distinctive numeral assigned to them in 
 order that they may be cited and directed, so are names 
 given to each class, order, family, genus and species of 
 the classification or enumeration of the kinds of animals 
 and plants. Here, for instance, are the names of the 
 greater and smaller groups in which our common " white " 
 finds itselfenrolled. Class Insects. Order Lepidoptera. 
 Family Pieridae. Genus Pieris. Species brassicae.
 
 CHA;PTER VIII 
 MORE ABOUT SPECIES 
 
 I WROTE in the last chapter of the recognition of 
 that degree of " likeness " or kinship in animals and 
 plants which we point to by the word " species," and 
 of the grouping of several similar species to form a 
 " genus," and of several genera to form a family, of families 
 to form orders, and of orders to form classes and of the 
 giving of names to all these groups. Whilst the making 
 of this or that lot of species into a distinct genus, and 
 giving it a new name is a mere matter of convenience 
 for the indication of more or less important agreements 
 and divergences, and is to a large extent arbitrary or an 
 expression of opinion it has always been recognized 
 among naturalists that the group called " a species " is 
 not a mere convention, but has a real natural limitation. 
 It is true that the actual things which we see in study- 
 ing natural history are so many units or individuals. 
 But the possibility of arranging these by pattern, colour 
 and shape into ultimate companies of which all the 
 units are alike and differ from all the units of another 
 company, has been regarded as a natural fact of 
 primary importance and not a mere convention or 
 convenience. The conception of the " naturalness " of 
 a species depends really upon a further qualification of 
 great importance as to what we naturalists understand 
 by it. 
 
 We find by rearing plants from seed and by causing
 
 MORE ABOUT SPECIES 101 
 
 animals to breed under actual observation that the in- 
 dividuals of a species pair with one another, and not 
 with individuals of other species, and further, that the 
 young which they produce are like the parents show 
 themselves, in fact, to be of the same "species." The 
 species continually year after year reproduces itself with 
 little variation, though some variation does occur. The 
 faculty of pairing only within the group, of never 
 naturally breeding with members of other groups, has 
 accordingly been adopted as a test of species. Hybrids 
 between two species do not occur, except in very rare 
 cases, in the state of nature. It is not always the case 
 that the members of two species cannot possibly pair 
 together, but it is the fact that they do not do so. Man 
 sometimes brings about such crossing or hybridization, 
 and it is a curious fact that the hybrids are often infertile 
 or give rise only to weakly offspring, which could not 
 survive in the natural struggle for existence. Sometimes, 
 however, when the two hybridized species happen to 
 come from regions of the world remote from one another, 
 the resulting hybrids establish a vigorous race. There 
 are real obstacles (of which I will say more below) in 
 natural conditions to hybrid-breeding between any two 
 species which occur naturally in the same territory. Thus 
 the idea of a species is expanded so as to be not merely 
 " a group of individuals of constant likeness in form and 
 characteristics," but we add to that definition a living or 
 constitutional quality expressed by the words, "which 
 produce fertile offspring by pairing with one another, but 
 do not pair with the members of other species." 
 
 This enables us to distinguish the conception of a 
 "species" from that of a "variety" or a "race." We 
 find occasionally peculiarly-marked examples of a species 
 of plant or animal, or even local races of peculiar 
 form ; but we do not regard them as " distinct species "
 
 102 SECRETS OF EARTH AND SEA 
 
 if we find that they breed as a rule with the ordinary 
 members of the species. The decisive test is the breeding. 
 If the variety is found not to breed with the regular 
 species, but to keep apart and breed only with other 
 individuals like itself, then we say, " This is no mere 
 variety ! It is a distinct species ! " Unfortunately we 
 have vast series of animals, insects, and others, from all 
 parts of the world, collected and preserved in our 
 museums, of which we know only the dead preserved 
 specimens. So that we cannot be sure in doubtful 
 cases whether a series of forms differing a little from 
 the ordinary members of a species indicate distinct 
 species, as defined and tested by breeding. We have 
 in such a case to note the difference, and record it 
 either as a variety or as a species by a guess at the 
 probabilities one way or the other. Naturalists really 
 intend by the word " species " to designate a form 
 represented by numerous like individuals, which, in the 
 present natural conditions of the region they inhabit, have 
 attained a certain "stability" of distinctive form and 
 character (not without some variability within definite 
 limits) and constitute a more or less widely distributed 
 population, the members of which inter-breed but do 
 not produce offspring with other allied species. 
 
 A good case by which to exhibit further our con- 
 ception of a species is that afforded by the species which 
 are united in the genus Equus the horse-genus. There 
 are living at the present day several wild kinds of Equus 
 namely, the wild horse, or Tarpan, of the Gobi desert of 
 Mongolia, called after the Russian explorer Przewalski ; two 
 kinds of Asiatic wild ass, called the Kiang and the Onegar ; 
 the African wild ass, and two or three kinds of zebra. 
 There are, besides, many kinds of domesticated horses, 
 ranging from the Shetland pony to the Flemish dray horse, 
 and from the Shire horse to the Arab. Then there are
 
 MORE ABOUT SPECIES 103 
 
 many kinds of fossil extinct horses known, some of which 
 clearly must be placed in the genus Equus with the 
 living kinds, others which have to be separated into 
 special genera (Hippidium, Onohippidium, etc.). Now, 
 as to the living forms or form-kinds of the genus Equus 
 which are we to regard as true species, and which are 
 only varieties and races of lower significance than species ? 
 The answer is clear enough in regard to several of them. 
 The wild Mongolian horse and all the domesticated horses 
 are varieties, races, or breeds of one species, judged not 
 only by such marks as the possession of callosities on 
 both the hind and the fore legs, but also by the test of 
 breeding. They breed together and produce persisting 
 races. But the asses and the zebras, though they will 
 form mules with the horse, do not in a state of nature 
 freely breed with it. When an ass or zebra is mated by 
 man with the horse it will produce hybrids, called " Mules," 
 but will not in " a state of nature " establish a hybrid race. 
 The asses and the zebras are distinct from the horse, not 
 only in markings and certain details of shape and hair, 
 but in the fact that they cannot be fused into one race 
 with him. There are no sufficient experiments on the 
 aloofness of zebras and asses from one another in regard 
 to breeding, although it seems that they cannot establish 
 a mixed race, and are, therefore, distinct species judged 
 by that test as well as by their form and marking. It 
 is not known whether the so-called species of wild ass 
 the Asiatic and the African would prove to produce 
 fertile or infertile mules if intercrossed, nor has the test 
 been applied to the very differently-marked local races 
 of the African zebras Grevy's zebra, Burchell's zebra, 
 and the mountain zebra. It is likely enough that the 
 three or more " species " distinguished among zebras on 
 account of their being differently striped, and existing 
 in different localities, would be found to breed freely
 
 104 SECRETS OF EARTH AND SEA 
 
 together, and prove themselves thus to be entitled to 
 be regarded as local "varieties" or "races," but not as 
 fully-separated true species. 
 
 Thus one sees how difficult it is to have knowledge 
 of the breeding test, even in regard to large animals. 
 It is obvious that the difficulty of obtaining it in 
 regard to the thousands of kinds of minute creatures 
 is much greater. Yet when they say, " This is a distinct 
 species," naturalists do mean that it is not only marked 
 off from other animals or plants most like to it by a 
 certain shape, colour, or other quality or qualities, but 
 that it breeds apart with its own kind and does not 
 naturally hybridize with those other forms most like 
 to it. 
 
 Although the kind of naturalist called a " systematist " 
 who makes it his business to accurately describe and 
 record and distinguish from one another all the existing 
 species of some one group say, of antelopes, of mice, 
 of flowering plants, of fishes, or of fleas has only a 
 knowledge in a few instances of the breeding of the 
 organisms which he describes as " distinct species," he yet 
 does know, in regard to some one or more of his species 
 in most groups, the facts of pairing and reproduction, and 
 what are the limits of variation in the markings and other 
 characteristics of at least one or two species definitely 
 submitted to the " breeding test," that is to say, ascertained 
 to be "true physiological species," kept apart by deep- 
 seated chemical differences in their blood and tissues. 
 Hence it is legitimate for him, by careful balancing and 
 consideration of all the facts, to determine not absolutely, 
 but by analogy the value to be assigned (whether as 
 indicating true species or merely varieties capable of 
 pairing with the main stock) to points of difference among 
 the specimens of a dead collection brought from some 
 distant land or from some position in which it would be
 
 MORE ABOUT SPECIES 105 
 
 impossible to make observations with regard to "pairing" 
 and "breeding true." 
 
 Some 400 species of fleas have been described, and 
 we are certain as to the value of the characters relied on 
 to distinguish those species, owing to what we know of 
 the breeding of some common species of fleas. The flea 
 of the domestic fowl, that of the domestic pigeon, that 
 from the house-martin, and that from the sand-martin 
 used to be considered as one species until they were 
 carefully examined twenty years ago. In reality each of 
 them has its own peculiar "marks," and they do not mix 
 with one another. The nests of the sand-martin yield 
 only one species of flea, namely that peculiar to the 
 sand-martin. The hen-house, the dove-cote, and the 
 nests of the house-martin yield each their flea maggots, 
 which can be reared and become in each case a 
 distinct species with definite recognizable "characters." 
 On the other hand, the flea of the rabbit gives an 
 opportunity of studying the limits of variation in a 
 " good " species. Rabbit warrens swarm with the rabbit 
 flea, and often a great number are found on one 
 rabbit, the individual fleas " varying " " differing " from 
 one another to a slight extent. The " systematist " thus 
 gets to know what organs are variable within the limits 
 of an undoubted physiological species of flea, and what 
 are comparatively constant so that he can form a 
 reasonable opinion about the claim of other specimens 
 which he may receive without full history of their habits, 
 to be regarded as true distinct species. 
 
 The fact that most important chemical differences of the 
 blood and digestive juices often accompany the small ex- 
 ternal differences which enable us to distinguish one species 
 of animal or plant from another, makes it obvious that 
 the knowledge of species is a very valuable and necessary 
 thing. One species of flea, the Pulex Cheopis, habitually
 
 io6 SECRETS OF EARTH AND SEA 
 
 carries the plague bacillus from animals to man, and is 
 a cause of death ; other species, extremely like it in ap- 
 pearance, but distinguishable by a trained observer, do not 
 carry the plague bacillus, but if they swallow it, destroy it 
 by digestion. One species of gnat, the common grey gnat, 
 digests and destroys malaria germs when it sucks them up 
 with blood ; in an allied species, the spot-winged gnat or 
 Anopheles, the chemical juices of the gut allow the germ to 
 live in it and multiply, and so to be carried to men by the 
 gnat's bite. So with many other flies and parasites the 
 recognition of the dangerous species is of vital importance, 
 and that recognition often depends on minute features of 
 form and colour not at once obvious to an ordinary 
 observer. 
 
 But this recognition of distinct species is, from the 
 point of view of the study of Nature, only a preliminary 
 to the question, " How did these species come about ? 
 How is it that there are so many species, some very like 
 one another, forming genera, and these genera grouped 
 into related families, these into larger groups, and so on, 
 like the branches of a family tree ? " The answer to these 
 questions given by Linnaeus was : " There are just so 
 many species as the Infinite Being created at the beginning 
 of things, and they have continued to propagate themselves 
 unchanged ever since." The answer which we give to-day 
 is that the appearance of a huge family tree which our 
 classification of animals takes is due to the simple fact 
 that it really is neither more nor less than a family tree 
 or pedigree the " tree of life," of which the green leaves 
 and buds are the existing species. Further, we hold that 
 the existing species of a genus have " come into existence " 
 by natural birth from one ancestral species, its offspring 
 having slightly varied (we are all familiar with this 
 individual variation in our own species, in dogs, cats, trees, 
 and shrubs), and that the varieties have wandered apart
 
 MORE ABOUT SPECIES 107 
 
 and become continuously emphasized and selected for 
 survival by their fitness or suitability to the changed 
 conditions around each of them. Meanwhile a natural 
 destruction, or failure of intermediate forms to survive, 
 has gone on.
 
 CHAPTER IX 
 SPECIES IN THE MAKING 
 
 A SERIES of important conceptions are implied in 
 the word " species," as used by naturalists. Some 
 of these we have noted in the last chapter. There 
 is first, as a starting-point, the conception that a species 
 is a number or company of individuals, all closely and 
 clearly alike (though presenting some minor individual 
 variations), and capable of sharp separation by certain 
 "characters" from other similar groups or companies. 
 Then follows the addition (2) that the species is constant 
 if the conditions of life are not changed, or but little 
 changed, and that year after year it reproduces itself 
 without change. It has a certain stability (but not 
 permanent immutability) greater in some species than in 
 others. Next we find (3) that the species constitutes a 
 group of individuals which have descended by natural 
 breeding from common parents, not differing greatly from 
 the present individuals. They are, in fact, one "stock." 
 Then (4) that the species is a group, the individuals of 
 which pair with one another in breeding, but do not pair 
 with the individuals of another species, and that this is 
 due to various peculiar and inherent chemical, physio- 
 logical and (in higher animals) psychological characteristics 
 of the species. 
 
 We have now further to note that species have their 
 special geographical centres of origin from which most 
 spread only a small distance, whilst others have a
 
 SPECIES IN THE MAKING 109 
 
 wonderful power of dispersal, and have become cosmo- 
 politan. Moreover, we find that some species are 
 numerically very abundant, others very rare ; that rare 
 and abundant species have often invaded each other's 
 territory, and exist side by side. 
 
 Whilst we often find a number of species, fifty or more, 
 so much alike that we unite them in a single genus (as, 
 for instance, in the case of the cats, lions, tigers, leopards, 
 which form the genus " Felis," and the hundred or more 
 species of the hedge brambles or blackberries, which form 
 the genus " Rubus "), there are many species which to-day 
 have, as it were, lost all their relatives and stand alone, the 
 solitary species in a well-marked genus, or have perhaps 
 only one other living co-species. And sometimes (curiously 
 enough) that one co-species is an inhabitant of a region 
 very remote from that inhabited by the other. Thus the 
 two living mammals called tapirs (genus Tapirus) inhabit, 
 the one the Malay region, and the other Central America. 
 This is explained by the fact that tapirs formerly existed 
 all over the land-surfaces of North Europe, North Asia, 
 and North America, which connect these widely-separate 
 spots. We find the bones and teeth of the extinct tapirs 
 embedded in the Tertiary deposits of the connecting 
 regions. 
 
 Once we have gained the fundamental conceptions 
 as to what is meant by a "species," we are able 
 intelligently to consider innumerable facts of the most 
 diverse kind as to their peculiar structure and colours, 
 their number, localities, their interaction and dependence 
 on other living things, their modifications for special 
 modes of life, their isolation or their ubiquity. We can 
 discuss their genetic relations to one another, and to 
 extinct fossil species, which have all been to a very large 
 extent " accounted for " or " explained " by Mr. Darwin's 
 theory of the origin of species by the natural selection
 
 i io SECRETS OF EARTH AND SEA 
 
 of favoured races in the struggle for existence. But 
 there is always more to be made out difficulties to be 
 removed, new instances to be studied. The classification 
 of the genera of plants and animals, with their included 
 species into larger groups, helps us to state and to 
 remember their actual build and structure, and to survey, 
 as it were, the living world, from the animalcule to the 
 man, or from the microbe to the magnolia tree. Every one 
 interested in natural history should carry in his mind as 
 complete a scheme of the classification of animals and 
 plants as possible. 
 
 The older naturalists held that species were suddenly 
 " created " as they exist, and have propagated their like 
 ever since. Darwin has taught us that the present 
 " species " have developed by a slow process of transforma- 
 tion from preceding species, and these from other pre- 
 decessors, and so on to the remotest geologic ages and 
 the dawn of life. The agents at work have been " variation " 
 that is to say, the response to the never-ceasing variation 
 of the surrounding world or environment and the survival 
 in the struggle for existence of the fittest varieties so 
 produced. 
 
 There is nothing surprising or extraordinary in the 
 existence of variation. The conditions of life and growth 
 are never absolutely identical in two individuals, and the 
 wonder is not that species vary, but that they vary so 
 little. The living substance of animals and plants is an 
 extremely complex chemical substance, ever decomposing 
 and ever being renewed. It is the most "labile" as it is 
 by far the most elaborately built-up chemical body which 
 chemists have ever ventured to imagine. It differs, 
 chemically, not only in every species but in every individual 
 and is incessantly acted upon influenced as we may say 
 by the ever-changing physical and chemical conditions 
 around it. At the same time it has, subject to the
 
 SPECIES IN THE MAKING in 
 
 permanence of essential conditions, a definite stability 
 and limitation to its change or variation in response to 
 variations of its environment. That part of the living, 
 substance which in all but the lowest plants and animals 
 is set aside during growth to form the eggs and sperms 
 by which they multiply or " reproduce " themselves, is 
 called the "germ-plasm," and is peculiarly sensitive to 
 variations in (that is a change in) the environment of the 
 plant or animal. 
 
 New conditions of life (locality and climate) unusual 
 food or reproductive activity act often in a powerful way 
 upon the germ-plasm and cause it to vary that is to say, 
 they alter some of its qualities, though not necessarily dis- 
 turbing in any way the general living substance of the 
 organism so far as to produce any important change per- 
 ceptible to the human eye. In consequence, the young pro- 
 duced after such disturbance of the germ-plasm are found 
 to differ more from their parents than in cases where no 
 such disturbance has been set up by the natural never- 
 ceasing variation of the surrounding world. This fact is 
 well known to horticulturists and breeders, and is made 
 use of by them. When a gardener wishes to obtain vari- 
 ations of a plant from which to select and establish a new 
 breed, he deliberately sets to work to disturb to shake 
 up, to act upon in a tentative, experimental way the 
 germ-plasm of one or more parent plants by change of 
 soil, climate, food and often by cross-fertilizing them with 
 another breed or variety. In this way he to some extent 
 " breaks " the constitutional stability of the germ-plasm of 
 the plant and obtains abundant " variations " in the off- 
 spring. These are not precisely foreseen, and show 
 themselves in all parts of the new generation. But some 
 of them are what the gardener wants, and are " selected " 
 by him for retention, rearing and breeding. 
 
 The response of the germ-plasm of organisms to the
 
 ii2 SECRETS OF EARTH AND SEA 
 
 stimulus of new environmental conditions has been com- 
 pared to that of the well-known pattern-producing toy 
 the kaleidoscope. The bits of glass, beads and silk which 
 you see in a kaleidoscope, forming by reflection in its 
 mirrors a beautiful and definite pattern, are changed 
 by a simple vibration caused by tapping the instrument 
 into a very different pattern, the coloured fragments 
 being displaced and rearranged. The apparent change 
 or variation is very great though produced by slight 
 mechanical disturbance, and the new pattern is altogether 
 without any special significance the fortuitous outcome 
 of a small displacement of the constituent coloured 
 fragments. We can imagine that similarly slight dis- 
 turbances of the organic molecules of the germ-plasm 
 may produce considerable and important variations in it 
 and the new growth to which it gives rise: and, further, 
 that these variations may prove to be either (i) injurious, 
 or (2) of life-saving value, or often enough (3) of no con- 
 sequence whatever although bulking largely in our human 
 eyes and thereby misleading our judgment of them. 
 
 There is no reason to doubt that the same sequence of 
 events occurs in nature apart from man's interference. 
 Changes occur in the earth's surface, or the organism is 
 transported by currents of water or air into new condi- 
 tions. The germ-plasm is " disturbed," " shaken " or 
 " shocked " by those new conditions, and a variation, in 
 several structures and qualities of the offspring subse- 
 quently produced, follows. Then also follows the selec- 
 tion of one of the new varieties by survival of the fitter to 
 the new conditions into which the organism has been 
 transported or have developed in the region where it was 
 previously established. 
 
 This process of germ -variation is obviously as necessary 
 and constant a feature of the living organism as is the 
 variation in the contour of land and sea and in the extent
 
 SPECIES IN THE MAKING 113 
 
 of the polar ice-cap a necessary feature of the physical 
 conditions of the terrestrial globe. But it is the fashion 
 with a certain school of writers nowadays to declare 
 that " variation " in organisms is a " mystery " unsolved. 
 Another very common and almost universal error is to 
 overlook the fact that variation is constitutional and 
 affects whole systems of organs and their deeply related 
 parts, and is not, as it is so frequently and erroneously 
 assumed to be, a mere local affair of patches and scraps 
 visible on this or that part of the surface of an animal or 
 plant. These superficial " marks," readily seen and noted 
 by the collector, are rarely of any life-saving importance : 
 they are but the outward and visible signs of deep-lying 
 physiological or constitutional change or variation. The 
 varying organism has, like Hamlet, " that within which 
 passeth show" and the superficial variations (like his 
 " inky cloak " and other customary features of mourning) 
 are but " the trappings and the suits " of a deep-lying 
 change. Variation is not an inexplicable mystery, nor, 
 on the other hand, are " varieties " sufficiently dealt with 
 and their nature appreciated when one or two surface 
 peculiarities are enumerated by which the collector can 
 recognize them. A deeper study of the varying organism 
 is both possible and needed. 
 
 If the gradual formation of new species from ancestral 
 species is a true account of the matter, we must expect to 
 find, at any rate here and there, if not frequently, traces of 
 the process for instance, gradations, or series of inter- 
 mediate forms, connecting new, well-established species 
 with the ancestral form or with one another. We do find 
 such gradations sometimes more, sometimes less, com- 
 pletely persisting over a wide tract of country, or discover- 
 able in the fossiliferous deposits containing the remains of 
 extinct animals. 
 
 For instance, when we look at the butterflies of a much 
 8
 
 ii 4 SECRETS OF EARTH AND SEA 
 
 larger region than our little island namely, at those of a 
 great continent like Africa or South America we find that 
 there are species which show gradations. Thus at a series 
 of points, A, B, C, D, separated by some hundreds of miles 
 from each other, we find a corresponding series of butterflies 
 which are apparently closely similar species of one genus, 
 differing by a few spots of colour, or darker and lighter 
 tint, much as our Large White, Garden White, and Green- 
 veined White differ. But when the butterflies are caught 
 which occur at points intermediate between A and B, B and 
 C, C and D, we find intermediate varieties, and, in fact, if 
 we get a very large number from intermediate regions, we 
 can, in some instances, arrange them in line so that they 
 constitute a graduated series of forms, each being scarcely 
 distinguishable from the one before or the one behind it, 
 yet differing clearly from one a dozen places away. In 
 such cases there is often evidence to show that the variety 
 found at A breeds with that found at B, that of B with 
 that of C, of C with D, so that they form an inter-breeding 
 group, though perhaps the varieties at D will not pair with 
 those at A, or even with those at B. Then sometimes we 
 find in such a series, otherwise complete, a gap. Let us 
 suppose it is between the butterflies of B and C. We 
 find the series of gradations nearly complete, but some 
 natural condition such as the encroachment of the sea, 
 or the slow elevation of a mountain range, or the climatic 
 destruction of the necessary food-plant has " wiped out " 
 a few forms somewhere between those of B and C. They 
 no longer exist. The series is no longer connected by 
 inter-breeding forms; those occurring from A to B and 
 some distance beyond are one " species " varying in the 
 direction of the series C to D, but abruptly broken off 
 from the latter. The series C to D is also a " species " 
 with graduated varieties, but distinct ; it is cut off from the 
 lot once in continuity with it by the destruction of the
 
 SPECIES IN THE MAKING 115 
 
 intermediate forms inhabiting an intermediate area. Thus 
 the one species becomes two, and these may again break 
 up, and, having become thus disconnected and stabilized, 
 they may spread over one another's territory fly side by 
 side and yet remain distinct forms which do not pair 
 together although originally they were varieties spread- 
 ing from a common centre, where the ancestral species 
 lived and multiplied. 
 
 Other similar gradational series of an interesting 
 character have been noticed in the case of fresh-water 
 fossil snail-shells. In the layers of clay and marl exposed 
 by digging a railway cutting or a pit we may find that the 
 successive layers represent a continuous deposit of 100,000 
 years or more, and we find sometimes that a form of 
 snail-shell (not a species living to-day) occurs in the 
 lowest stratum very different from that occurring in the 
 highest stratum the lowest being short and spherical, 
 the highest elongated and of differing texture. In 
 the intermediate layers, each 6 or 12 ins. thick and 
 occupying perhaps altogether 30 ft. of vertical thick- 
 ness, we find a graduated series of snail-shells leading 
 almost imperceptibly from the oldest lowest form to the 
 latest uppermost form. Such cases are known. But it 
 is an exceptional thing to find these graduated series 
 either spread over an area of the earth's surface, or 
 following one another in successive strata. When they 
 came into existence they were rapidly superseded and 
 destroyed as a rule, and have left only one or two widely- 
 separated examples of the intermediate forms. This we 
 should naturally expect by analogy from what we know 
 of the successive traces of human manufactures in the 
 deposits on the site of some of the great cities of the 
 ancient world which have been carefully excavated layer 
 by layer. But still we have the important fact that here 
 and there such gradational series have been found, and
 
 ii6 SECRETS OF EARTH AND SEA 
 
 we are justified in considering a few isolated intermediate 
 forms (which often occur connecting two greatly-differing 
 species) as survivors of a former complete graduated 
 series of intermediate forms, which came into existence 
 by slow modification of an ancestral stock, and may, when 
 the stock was widely spread over a continental area, not 
 merely have succeeded one another in time, but actually 
 coexisted in neighbouring regions. 
 
 There are many remarkable facts bearing upon the 
 origin of " species," the description of which fills volumes 
 written by such men as Darwin, Wallace, Poulton, and 
 others, and become interesting to every one who has 
 gained a correct notion of what naturalists mean by a 
 " species." I will cite one in order to illustrate this. The 
 bird which we call the red grouse, or nowadays simply 
 " grouse " (the old Scotch name for it was " muir-fowl "), is 
 one of twenty-four birds (among the 400 species of birds 
 which live in the British Islands), including several kinds of 
 titmouse, the goldfinch, bullfinch, song-thrush, stonechat. 
 jay, dipper, and others which are very closely similar to 
 species of birds living in Continental Europe, yet show 
 some definite and constant marks, such as small differences 
 in the colour of a group of feathers, enabling us to dis- 
 tinguish the British from the Continental forms. Are these 
 twenty-four British forms to be regarded as distinct species ? 
 
 The red grouse is placed in a genus called " Lagopus/' 
 of which there are several species in the northern hemi- 
 sphere. In Scotland the red grouse, which is distinguished 
 as Lagopus Scoticus, is accompanied by a rarer species 
 of Lagopus, which lives in high, bare regions. This is 
 the bird called by the Celtic name " ptarmigan " ; it 
 differs in several points from the red grouse, and acquires 
 white plumage in the winter, which the latter bird does 
 not; it is called Lagopus mutus. Now in Norway we 
 find also two species of grouse or Lagopus, called " rypd "
 
 SPECIES IN THE MAKING 117 
 
 (pronounced " reaper ") by the Norwegians. One is the 
 same bird in every respect as the Scotch ptarmigan, and 
 is known as "the mountain rype"." The other is very 
 close to our red grouse, and is called " the common or 
 bush rype," and by English naturalists the " willow 
 grouse," and by ornithologists " Lagopus salicetus." It 
 agrees in habits, voice, eggs, and anatomical detail with 
 our red grouse, but the back of the cock-bird of the red 
 grouse and the whole plumage of the hen-bird have a 
 darker colour. Moreover, the willow grouse, like the 
 ptarmigan or mountain Type", turns white acquires a 
 white plumage in the winter which the red grouse does 
 not. Are the red grouse and the willow grouse to be 
 regarded as distinct species? Our British red grouse 
 lives on heather-grown moors ; the willow grouse prefers 
 the shrubby growths of berry-bearing plants interspersed 
 with willows, whence its name. Their food differs accord- 
 ingly. Formerly the red grouse lived on the moors of 
 the South of England, and when in Pleistocene times 
 England was a part of the Continent of Europe the 
 willow grouse and the red grouse were one undivided 
 species inhabiting all the north-west of Europe. It is 
 probable, though the experiment would be almost im- 
 possible to carry out, that were the eggs of a number of 
 willow grouse now brought to Scotland and hatched on 
 the moors, they would tend to keep apart from the 
 native red grouse, and not inter-breed with them, in which 
 case we should say that the Scotch form is a " species on 
 the make," or, even, a completed and distinct species. On 
 the other hand, it is possible that the two forms would 
 freely pair with another, and that the colour and winter 
 coat of the one (probably that of the Scotch form if the 
 experiment were tried in Scotland) would predominate, 
 and after some generations no trace of the other strain 
 would be observable.
 
 CHAPTER X 
 SOME SPECIFIC CHARACTERS 
 
 AN interesting case, showing that qualities which 
 are life-preserving under certain severe conditions 
 exist in some varieties of a species and not in 
 others, was recorded some eight years ago. After a very 
 severe "blizzard" 136 common sparrows were found be- 
 numbed on the ground by Professor Bumpus at Providence, 
 United States. They were brought into a warm room 
 and laid on the floor. After a short time seventy-two 
 revived and sixty-four perished. They were compared to 
 see if the survivors were distinguished by any measurable 
 character from those which died. It was found that the 
 survivors were smaller birds (the sexes and young birds 
 being separately compared) than those which died, and 
 were lighter in weight by one-twenty-fifth than the latter. 
 Also, the birds which survived had a decidedly longer 
 breastbone than those which died. 
 
 Similarly, the late Professor Weldon found that in the 
 young of the common shore-crab, taken in certain parts 
 of Plymouth harbour, those with a little peculiarity in the 
 shape of the front of the shell survived when those without 
 this peculiarity died. Many thousands were collected 
 and measured in this experiment. It is not necessary 
 to suppose that the distinguishing mark of the survivors 
 in such cases is " the cause " of their survival. Such marks 
 as the breadth of the front part of the crab's shell and the 
 length of a bird's breastbone very probably are but " the
 
 SOME SPECIFIC CHARACTERS 119 
 
 outward and visible signs of an inward and (physiological) 
 grace." 
 
 The marks, little peculiarities of colour and propor- 
 tionate size, or some peculiar knob or horn, by which the 
 student of species distinguishes one constant form from 
 another, can rarely, if ever, be shown to have in them- 
 selves an active value in aiding or saving the life of the 
 species of plant or animal. The mark or " character " is 
 an accompaniment of a chemical, nutritional, physiological 
 condition, and is in itself of no account. It is what is 
 called " a correlated character." Such, for instance, is the 
 black colour of the skin of pigs which in Virginia, U.S., are 
 found, as stated by Darwin, not to be poisoned by a marsh 
 plant (" the paint-root," Lachnanthes tinctoria), whilst all 
 other coloured and colourless pigs are. The pigs which 
 are not black develop a disease of their hoofs which rot 
 and fall off, causing their death when they eat this special 
 plant " the paint-root." The colour does not save the pig 
 it cannot correctly be called the cause of the pig's 
 survival but is an accompaniment of the physiological 
 quality which enables the pig to resist the poisonous herb. 
 So, too, with white-spotted animals. They are known to 
 breeders as being liable to diseases from which others 
 are free. Fantail pigeons have extra vertebrae in their 
 tails, and pouter pigeons have their vertebrae increased 
 in number and size. But the vertebrae were never thought 
 of and " selected " by the breeders. They only wanted a 
 fanlike set of tail feathers in the one case, and a longer 
 body in the other. Some varieties of feathering main- 
 tained by pigeon breeders lead to the growth of abundant 
 feathers on the legs (as in Cochin-China fowls), and it is 
 found that these feather- legged pigeons always have the 
 two outer toes connected by a web of skin. If it were a 
 stabilized wild form we should separate it as a species on 
 account of its webbed toes, yet the real selection and
 
 120 SECRETS OF EARTH AND SEA 
 
 survival in the hands of the breeder had nothing to do 
 with the toes or their web, but was simply " caused " by 
 these pigeons having feathers of " survival or selection 
 value" in his judgment. Male white cats with blue eyes 
 are deaf. If deafness were ever an advantage (a difficult 
 thing to imagine), you would get a species of cat with 
 white hair and blue eyes, and be led to distinguish the 
 species by those characters, not by the real cause of 
 survival, namely, deafness. Not enough is yet known of 
 this curious and very important subject of correlation, 
 but its bearing on the significance of " specific characters " 
 is sufficiently indicated by what I have said. 
 
 An interesting group of species, three of which are to 
 be purchased alive through London fishmongers, are the 
 European crayfishes, not to be confused with the rock- 
 lobster or Langouste (Palinurus), sometimes called " craw- 
 fish " in London, nor with the Dublin prawn (Nephrops). 
 The little river crayfishes are like small lobsters, and 
 were placed by older naturalists in one genus with the 
 lobsters. Now we keep the European species of crayfishes 
 as the genus Astacus, and the common lobster and the 
 American lobster have been put (by H.Milne-Edwards) into 
 a separate genus (Homarus). You can buy in London the 
 " e"crevisses a pattes rouges " of French and German rivers, 
 which is called Astacus fluviatilis, and differs from that of 
 the Thames and other English and European rivers 
 (which you can also buy) called A. pallipes (" pattes 
 blanches " of the French), by the bright orange-red tips 
 of its legs, and by having the side teeth of the horn or 
 beak at the front of the head larger and more distinct. 
 The English crayfish grows to be nearly as large as the 
 " pattes rouges " in the Avon at Salisbury, though it has 
 nearly disappeared about Oxford. You can also sometimes 
 buy in London the big, long-clawed Astacus leptodactylus 
 of East Europe. There are two or three other species,
 
 SOME SPECIFIC CHARACTERS 121 
 
 named and distinguished, which do not come into the 
 London market. 
 
 Crayfishes, lobsters and the like have groups of plume- 
 like gills (corresponding in the most ancient forms to the 
 number of the legs and jaw-legs) overhung and hidden by 
 the sides of the great shield or "head" of the animal. 
 The common lobsters and crayfishes retain most of these 
 in full size and activity, but have lost in the course of 
 geologic ages the original complete number. These 
 plume-like gills each half an inch or so in length 
 are attached, some to the bases of the legs and some 
 to the sides of the body above the legs. In the 
 ancestral form there were thirty-two plumes on each 
 side, twenty-four attached to the bases of the legs, 
 and eight placed each at some distance above the con- 
 nection of one of the eight legs with the side of the body. 
 It is those on the side of the body which have suffered 
 most diminution in the course of the development of 
 modern crayfishes (and lobsters) from the ancestral form 
 provided with the full equipment of thirty-two gill-plumes 
 on each side. In fact, only one well-grown gill-plume, out 
 of the eight which should exist on each side of the body- 
 wall, is to be found and that is the one placed above the 
 insertion of the hindermost or eighth of the eight legs 
 (eight when we reckon the three jaw-legs as "legs" as 
 well as the five walking-legs). In front of this the side or 
 wall of the body is bare of gill-plumes though they are 
 present in full size on the basal part of most of the legs. 
 Nevertheless, when one examines carefully with a lens 
 the bare side of the body overhung by the head-shield or 
 " carapace," one finds in a specimen of the common 
 English " pale-footed crayfish " a very minute gill-plume 
 high above the articulation of the seventh leg and another 
 above the articulation of the sixth leg. They are small 
 dwindled things, as though on the way to extinction, and
 
 122 SECRETS OF EARTH AND SEA 
 
 are the mere vestiges of what were once well-grown gill- 
 plumes, and still are so in the rock lobster and some 
 prawns. In the red-footed crayfish of the Continent 
 (Astacus fluviatilis) yet another minute vestige of a gill- 
 plume is found, farther in front, on the body-wall above 
 the fifth leg on each side of the animal. This furnishes 
 a definite mark or character by which we can distinguish 
 the red-footed crayfish from the common English pale- 
 footed one. But these three rudimentary gill-plumes in 
 the red-foot species, and two in the pale-foot species are 
 all that until lately were recorded. The region of the 
 body-wall above the fourth, third, second, and first of the 
 legs was declared to be devoid even of a vestige of the 
 branchial plumes which were there in ancestral forms, and 
 have been retained more or less in some exceptional 
 prawn-like creatures allied to the crayfish. 
 
 Zoologists take a special interest in the' crayfish 
 because it is found to be a most convenient type for the 
 purpose of teaching the principles of zoology to young 
 students, and with that end in view was made the subject 
 of a very beautiful little book by the great teacher 
 Huxley. The conclusions above stated in regard to the 
 gills are set forth in that book with admirable illustrative 
 drawings, and the striking fact of the dwindling and 
 suppression of the various gill-plumes is clearly explained. 
 
 And now we come to an interesting discovery in this 
 matter of the gill-plumes of crayfishes. Some fifteen years 
 ago the daughter of my friend and colleague Professor 
 Moseley was a member of the class of Elementary Biology 
 at Oxford. She had to examine and identify these and 
 other points in the structure of the crayfish. The class 
 was supplied with specimens of the French red-footed 
 crayfish " Astacus fluviatilis," as it is more readily obtained 
 from fishmongers than our own " pale-foot " or " Astacus 
 pallipes." She found in her specimen far forward on each
 
 SOME SPECIFIC CHARACTERS 
 
 123 
 
 side of the " head " a very minute gill far away from the 
 others and previously unknown. The demonstrator in 
 charge of the class refused even to look at her discovery. 
 So she confirmed it by examining three other specimens 
 made drawings of the tiny 
 branched gill (as shown in Fig. 
 33) and their position, and sent 
 them to me in London. It was 
 at once clear that she had dis- 
 covered in this much studied 
 little animal a very interesting 
 pair of gills (right and left) 
 unknown to Huxley and the rest 
 of the zoological world. She 
 proceeded to examine specimens 
 of A. fluviatilis from various 
 rivers of Germany and France 
 and always found the new gill- FIG. 
 plume. She also showed (I 
 supplied her with specimens at 
 the Natural History Museum) 
 that it was, on the other hand, 
 absent from A. leptodactylus, 
 A. pallipes, and all the foreign 
 species (some from Asia) which 
 are known, and she published 
 an illustrated account of it in 
 the "Quarterly Journal of 
 Microscopical Science." This 
 tiny gill-plume is placed very far forward on each side 
 of the body, the farthest point forward at which any 
 gill-plume is found in any kind of prawn, shrimp or 
 lobster, namely in the region where the first pair of jaw- 
 legs is attached, so that there are three empty spaces 
 between it and the rudimentary gill over the fifth pair of 
 
 33. The rudimentary 
 gill-plume of a crayfish from 
 that part of the body-wall 
 to which the first pair of 
 jaw-legs (maxillipedes) is 
 articulated. Found in the 
 red-footed crayfish (Astacus 
 fluviatilis) but in no other 
 species of Astacus. It is 
 one-fifteenth of an inch long. 
 Drawn by Miss Margery 
 Moseley in 1904. (" Quart. 
 Journal of Microscopical 
 Science," vol. 26 (1904-5).)
 
 124 SECRETS OF EARTH AND SEA 
 
 legs, already known in the red-footed crayfish. It is only 
 two millimetres long about one-fifteenth of an inch ! 
 But its presence serves very distinctly to separate the red- 
 footed crayfish, Astacus fluviatilis of French and German 
 rivers, thus discovered to have four pairs of rudimentary 
 gill-plumes, from the Astacus leptodactylus of the Danube 
 basin and East Europe, which has only three pairs, and 
 still more to emphasize the difference between it and our 
 British species, the " white-foot " or Astacus pallipes, 
 which has only two ! 
 
 This little history is noteworthy, firstly, because it 
 shows that a young student may, to use an appropriate 
 term, " wipe the eye " of an expert observer and rightly 
 venerated teacher (who would have delighted in the 
 little discovery had he been alive), as well as the eyes of 
 tens of thousands of students and teachers (including my- 
 self) who have studied the red-foot crayfish year after year, 
 and missed the little gill. It is also interesting as showing 
 us a good sample of a specific mark or character which 
 has no survival value; that is, could not advantage the 
 crayfish in the struggle for life. The fact is, that this one 
 particular very minute forward pair of gill-plumes is like 
 the other rudimentary gills a survival in a reduced con- 
 dition of a pair of gill-plumes which were well-grown, 
 useful plumes aerating the blood, in the prawn-like 
 ancestors of all crayfishes, lobsters, shrimps, and prawns, 
 and is, owing to circumstances of nutrition and growth 
 which we know nothing about but can vaguely imagine, 
 retained by the red-foot species of crayfish, but lost by 
 all other crayfishes, lobsters, common prawns and 
 shrimps, and, in fact, only retained besides by a very few 
 out-of-the-way kinds of marine prawns. That is the sort 
 of thing which frequently has to serve as "a specific 
 character" or mark, distinguishing one "species" from 
 another.
 
 SOME SPECIFIC CHARACTERS 125 
 
 A more ample discussion of the origin of species is not 
 within the scope of this book. But I may say that until 
 recently the conception that every organ, part and feature 
 of a plant and animal must be explained, and can only be 
 explained, as being of life-saving value to its possessor, and 
 accordingly " selected " and preserved in the struggle for 
 existence, was held by many " Darwinians " in too uncom- 
 promising a spirit. This conception was, really from the 
 first, qualified by the admission that the life-saving value 
 and consequent preservation of a structure must un- 
 doubtedly in some cases have been in operation in 
 ancestors of the existing species, and is no longer opera- 
 tive in their descendants although they inherit the 
 structure which has now become useless. Moreover, the 
 operation of those subtle laws of nutrition and of form 
 which are spoken of as the " correlation of parts in growth 
 and in variation " (mentioned on p. 119) was pointed out 
 by Darwin himself as probably accounting for many re- 
 markable growths, structures and colour-marks which we 
 cannot imagine to be now, or ever to have been in past 
 ancestry, of a life-saving value. Nevertheless, the old 
 " teleology," according to which, in pre-Darwinian days, 
 it was held that every part and feature of an animal or 
 plant has been specially created to fulfil a definite pre- 
 ordained function or useful purpose, still influenced the 
 minds of many naturalists. Natural selection and sur- 
 vival of the fittest were reconciled with the old teleological 
 scheme, and it was held that we must as good Darwinians 
 account for every structure and distinctive feature in 
 every animal and plant as due to its life-saving value. 
 Herbert Spencer's term, " the survival of the fittest" con- 
 duced to the diffusion of this extreme view: Darwin's 
 equivalent term, " the preservation of favoured races," did 
 not raise the question of greater or less fitness. 
 
 The extreme view is now, however, giving place to the
 
 126 SECRETS OF EARTH AND SEA 
 
 recognition of the fact that the actual tendencies to varia- 
 tion accumulated in the living substance of the various 
 stocks or lines of descent and handed on during an 
 immense succession of ages of change by hereditary 
 transmission counts for more in the production of new 
 species and strange, divergent, even grotesque forms of 
 both animals and plants than had been supposed. 
 
 Undoubtedly selection or survival of the fittest mainly 
 accounts for the colouring and adaptive shaping of 
 living things, and so for those several great types 
 of modelling which arrest the eye and have excited 
 the interest of inquisitive man. But there seems to be 
 no justification for the assumption that in all cases a 
 variation that is to say, an increase or a diminution 
 of the volume of some existing structure in proportion 
 to other coexisting structures in the body of a living 
 plant or animal must be either favourable, that is, con- 
 ducive to survival, or injurious, that is, tending to the 
 defeat and destruction of its possessors or their race. On 
 the contrary, it is the fact that there are vast areas and 
 conditions related to countless myriads of living creatures 
 in which variations of those creatures of large and impos- 
 ing kind and degree are neither advantageous nor dis- 
 advantageous, but matters of absolute indifference^ that is 
 to say, without any effect upon the preservation or survival 
 of their race or stock. Nature is far more tolerant than 
 some of us were inclined to assume. In certain restricted 
 conditions of competition and in regard to some special 
 structures and components which are often so minute and 
 obscure as to be not yet detected by that recent arrival, 
 the investigating biologist though sometimes, fortunately 
 for him, large enough to jump to his eyes it is undeni- 
 able that there must be a "survival" or " favouring " of 
 individuals presenting a variation in increase, or it may be 
 decrease, of this or that special feature of its " make-up "
 
 SOME SPECIFIC CHARACTERS 127 
 
 or structural components. But it is a more correct state- 
 ment of the case to say that natural selection or survival 
 preserves not the fittest, but the least fit possible under the 
 circumstances namely, all those which, however great 
 their divagations and eccentricities of variation in other 
 respects, yet at the same time attain to a minimum 
 standard of qualification in those structures (or inner 
 chemical qualities) essential for success in the competi- 
 tion for safety, food and mating determined by the 
 particular conditions in which the competition is taking 
 place. Consequently forms which are meaningless so far 
 as standards of utility or " life-saving " are concerned, and 
 are rightly described as grotesque, monstrous, gigantic or 
 dwarfed excessive (as compared with more familiar 
 kinds) in hypertrophy or atrophy of their colouring and 
 clothing, or of out-growths such as leaves of plants and 
 limbs, jaws or other regions of the body of animals are 
 found existing in various degrees of eccentricity in every 
 class of both plants and animals. Among animals such 
 tolerated " exuberances of non-significant growth " are 
 more striking than in plants. The group of fishes seems 
 to be especially privileged in this way. They are freely 
 variable in the position of the fins, the suppression or 
 exaggeration of them, as well as of the scales on the 
 surface of the body (e.g. leather carp and mirror carp). 
 Take, for example, the mackerel and the salmon as 
 standards of utilitarian adaptation of the body to an active 
 life in sea or river, and then compare with theirs the 
 astounding proportions of the sun-fish (Orthagoriscus) like 
 a cherub "all head and no body," or the almost in- 
 credible Pteraclis with its little body framed immovably 
 between a huge dorsal and a huge ventral fin (see figures 
 on p. 130). The fin-like crest of enormous size on the 
 back of the great extinct lizard Dimetrodon of the 
 Permian age supported by long bony spines is a similarly
 
 128 SECRETS OF EARTH AND SEA 
 
 excessive and useless outgrowth. (This astonishing 
 creature is shown in our Frontispiece.) Such exuberant 
 products may be ascribed to an unrestrained " momentum " 
 of growth which once set going by fortuitous variation has 
 been tolerated but not favoured by natural selection. 
 Or (as supposed by some) their excessive development 
 may be due to the persistence of some nutritional condi- 
 tion which at first resulted in a moderate growth of the 
 fin-like crests in question as a serviceable structure, but 
 has persisted and increased long after the fin or crest has 
 attained a sufficient size simply because its increase 
 though of no life-saving value yet was not harmful and 
 so did not bring its owner under the guillotine of natural 
 selection. Such disproportionate exuberance of growth 
 due to innate variability, tolerated but not specially 
 favoured by natural selection, will account for many 
 strange and grotesque forms of living things. From time 
 to time in the long process of change, such exuberances 
 may suddenly become of service and be, so to speak, 
 taken in hand by natural selection, or they may become 
 dangerous and lead to the extermination of the stock in 
 which they have been previously tolerated. 
 
 Before my reader turns as I hope he or she will do 
 to some handbook of zoology in which the genealogical 
 tree or classification of the species of animals and of 
 plants is treated at length, I will endeavour to give some 
 estimate of the immense numbers of " species " which 
 exist. As to mere individuals, it is impossible to form 
 any estimate, but when we reckon up the teaming popula- 
 tion of a meadow or forest in England, the hundreds of 
 thousands of plants, including the smallest mosses and 
 grasses, as well as the larger flowers, shrubs, and trees, 
 the still greater number of insects, spiders, snails, and 
 larger animals and birds, feeding on and hiding among 
 them, and when we remember that in the ever-warm tropical
 
 SOME SPECIFIC CHARACTERS 129 
 
 regions of the earth life is ten or twenty times more 
 exuberant than with us, then the immensity of the living 
 population of the land and water of the globe becomes 
 as difficult to realize as are the figures in which the 
 astronomer tells of the number and distances of the stars. 
 On the other hand, some idea of the number of distinct 
 species of animals and plants which have up to this date 
 been recognized and described by naturalists as at present 
 existing, may be formed by a statement of those which 
 have been described in some of the more familiar groups. 
 About 10,000 species of mammals have been described ; 
 about 14,000 of birds ; 7000 of reptiles ; 15,000 of fishes ; 
 500,000 of six-legged insects ; 14,000 of Crustacea (shrimps, 
 lobsters, crabs) ; 62,000 of molluscs (snails, mussels, etc.) ; 
 15,000 of star- fishes and sea-urchins; 5000 of corals and 
 polyps ; 3000 of sponges ; and 6000 of microscopic pro- 
 tozoa. In all about 800,000 species of animals have been 
 recorded, and probably as many more remain yet to be 
 recognized and described. 
 
 The total number of described species of plants has 
 never been estimated, but some idea of it may be formed 
 from the fact that 1860 species of flowering plants alone 
 have been distinguished in Britain, 17,000 in British India, 
 and 22,000 in Brazil, not to mention those of Africa and 
 Australia ! These figures do not include the vast numbers 
 of flowerless plants, the ferns, mosses, sea-weeds, mush- 
 rooms, moulds, lichens, and microscopic plants. 
 
 And then we have to add to these enumerations of 
 living species the extinct species of successive geological 
 ages, the remains of which are sufficiently well preserved 
 to admit of identification. Those which are known are 
 only a few thousands in number, and a mere fragment of 
 the vast series of species which have existed in successive 
 past ages of the earth. They are a few samples of the pre- 
 decessors of the existing species, and some of them were 
 9
 
 130 
 
 SECRETS OF EARTH AND SEA 
 
 the actual ancestors of those existing to-day. The larger 
 number of them have left no direct issue, but represent side 
 branches of the " tree of life " which have died out ages ago. 
 
 STRANGELY-SHAPED FISHES. i. The Coffer-fish (Ostracion) ; 2. Pteraclis, 
 an oceanic fish allied to the so-called Dolphins ; 3. The Sun-fish 
 (Orthagoriscus) ; 4. An Australian Blenny Pataecus.
 
 CHAPTER XI 
 HYBRIDS 
 
 THE subject treated in this and the next chapter 
 is one of the most interesting to mankind, and is 
 surrounded by extraordinary prejudice, sentiment, 
 and ignorance. It is one upon which really trustworthy 
 information is to a very large extent absent and difficult 
 to obtain. I cannot profess to supply this deficiency, but 
 I can put the matter before the reader. 
 
 It is a well-established fact that the various " kinds " 
 of animals and of plants do not breed promiscuously with 
 one another. The individuals of a " species " only breed 
 with other individuals of that " species." They do not even, 
 as a habit, breed with the individuals of an allied species. 
 So nearly universal is this rule that it was for a long 
 time held by naturalists to be an absolute definition of 
 " a species," that it is a group of individuals capable of 
 producing fertile young by breeding with one another 
 and incapable of producing fertile young by mating with 
 individuals of another such group, which were, therefore, 
 held to constitute a distinct species. The practical im- 
 portance of this definition was that it could, in a large 
 number of instances among animals, and still more 
 amongst plants, be made use of as a test and decided 
 by experiment. 
 
 It is a curious fact that popular belief amongst 
 country-folk and those who have opportunities of coming 
 to a conclusion on so simple and direct a question has
 
 132 SECRETS OF EARTH AND SEA 
 
 never accepted this law of the limitation of species in 
 breeding as more than a general rule to which it has 
 always been supposed that frequent exceptions occur. 
 I mention this not in order to add that "there is always 
 some basis of truth in these popular beliefs," but on the 
 contrary to point out that popular beliefs on such matters 
 are very frequently altogether erroneous, and though 
 their origin can sometimes be explained, it is rare to 
 find that they are due, in however small a degree, to 
 true observation and inference. Where the subject under 
 consideration has the obscurity and strong fascination for 
 the natural man which all that relates to the processes 
 of life, growth, and reproduction possess, we find that 
 traditional fancies of the most unwarrantable kind are 
 current, and hold their ground with tenacity even at 
 the present day. Some 250 years ago, and earlier in 
 fact, before the commencement of that definite epoch of 
 "the New Philosophy" marked by the foundation of 
 the Royal Society of London any queer-looking animal 
 brought from remote lands, and any misshapen mon- 
 strosity born of cattle, sheep, dogs, or men, was "ex- 
 plained," and confidently regarded as a " hybrid," the 
 result of a " cross " or irregular coupling of two distinct 
 species of animals to which the "monster" presented 
 some fanciful resemblance. Whole books were devoted 
 to the description and picturing of such supposed examples 
 of mis-begotten progeny. 
 
 The belief in the existence of such extraordinary 
 hybrids is still common among so-called " well-educated " 
 people. I have with difficulty avoided causing annoyance 
 and offence to a friend, a celebrated painter, by refusing 
 to admit that a deformed cat, of which he gave me an 
 account, was a hybrid between a cat and a rabbit. A very 
 eminent person whom I was conducting some years ago 
 round the galleries of the Natural History Museum,
 
 HYBRIDS 133 
 
 declared, as we stood in front of the specimen of the 
 Okapi of the Congo Forest, that it was clearly a hybrid 
 between the giraffe and the zebra. He insisted that it 
 was obvious that such was its explanation, and pointed 
 to its striped haunches and legs, and its cloven hoofs 
 and giraffe-like head. I failed to change his opinion. 
 
 It is the fact ascertained by careful observation of 
 natural occurrences and by experiment that, in spite 
 of the almost absolute law or general truth to the effect 
 that the members of a species (whether of plant or 
 animal) only produce fertile offspring by mating with 
 members of that same species, yet there are rare instances 
 known in which individuals of two distinct but allied 
 species have mated and produced fertile offspring. The 
 cases in which such unions have resulted in the production 
 of offspring, but in which the offspring so produced prove 
 to be infertile that is, incapable of producing offspring 
 in their turn are much more numerous. An important 
 distinction has also to be made between cases of either 
 fertile or infertile hybrid-production which occur spon- 
 taneously in nature, and those in which man by separating 
 the parent animals or plants from their natural con- 
 ditions of life, or by bringing about impregnation (as in 
 " pollinating " one flower with the pollen-dust of another) 
 succeeds in obtaining a " cross " or " hybrid," whether 
 fertile or infertile, not known to occur in " wild " (that 
 is, not humanly controlled) nature. The rarest case 
 would be that of the production of fertile hybrids in 
 uncontrolled natural conditions. Such possibly occur in 
 the case of some fishes in which the fertilization of the 
 eggs takes place in water, the fertilizing microscopic 
 sperms passing from the males like dust into the water and 
 thus reaching the eggs laid by the females. Occasionally 
 hybrids are thus produced between some common fresh- 
 water fishes species of the same genus and between
 
 134 SECRETS OF EARTH AND SEA 
 
 species of flat-fish, such as the turbot and the brill, though 
 it is difficult to be sure that the rare hybrids so produced 
 are fertile even if they attain to maturity. The same is 
 true as to certain small flowering plants having distinct 
 regions of natural distribution and occurrence. At the 
 confines of the regions proper to two such allied species, 
 insects passing from one to the other do sometimes effect 
 a reciprocal fertilization of the two species, and a natural 
 hybrid is the result. Here, again, it is difficult to follow 
 the subsequent history of the hybrids, but it is believed 
 that in some instances they are fertile, and that the 
 hybrid race is only gradually merged by subsequent 
 crossing into one or other of the parent species. Not 
 a single instance is on record of the production of a 
 " natural " hybrid (that is to say, one produced in natural 
 conditions without man's interference), whether fertile or 
 infertile, between two species of the larger animals (such 
 as between horse and ass or zebra and ass, or between 
 lion and tiger or any of the species of cats, or between 
 species of bears) or birds (such as pheasants of various 
 species, including the jungle cock, the wild original of 
 our domestic fowl, or between various species of ducks, 
 various species of geese, or between various species of 
 the grouse-birds). 
 
 Nevertheless, in conditions brought about by man 
 that is to say, confinement in cages or paddocks, or at 
 any rate removal from their native climate and home 
 all the groups of species just cited commonly and fre- 
 quently produce hybrids inter se, that is, one or more 
 species of the horse group thus inter-breed with one 
 another, so will certain species of cats, certain species 
 of bears, many species of pheasants, also of ducks, of 
 geese, and of grouse. In nearly every case the hybrids 
 so produced are infertile ; they will not mate with a 
 similar hybrid, and even when mated with one of the
 
 HYBRIDS 135 
 
 parent species rarely produce offspring, though they some- 
 times do so. The best cases of the production of fertile 
 hybrids are between species of flowering plants brought 
 to this country from widely separated regions. The 
 surprising and instructive result has been obtained that 
 a cross between two allied species (that is, of one and 
 the same " genus ") which will fail altogether or " come 
 to nothing " as infertile hybrids if the two species crossed 
 are from the same or contiguous regions yet will yield 
 readily vigorous fertile hybrid offspring when the two 
 species (always, of course, of one and the same genus) 
 have their native homes in widely separate parts of the 
 world as, for instance, the Indian Himalaya range and 
 the South American Andean range. 
 
 This has been found in crossing species of rhodo- 
 dendrons, of orchids, and of many other plants with which 
 horticulturists occupy themselves for commercial purposes. 
 It is in some ways the reverse of what one might expect. 
 It would be reasonable to suppose that allied species from 
 the same climate and geographical region would have 
 more affinity and be more readily hybridized than species 
 from widely remote and physically differing regions. But 
 the reverse is the case, many thriving hybrid stocks which 
 duly fertilize and set their seed are now in cultivation, 
 having been produced by the union of parent species 
 from " the opposite ends of the earth." 
 
 The consideration of this case throws some light on 
 the significance of the non-occurrence of natural hybrids 
 and of the very remarkable and curious fact that hybrids 
 are so usually sterile. When we come to think of it, the 
 natural preliminary assumption should be (as is that of 
 unsophisticated humanity) that any animal or plant 
 might, so far as possibilities go, breed with any other ; 
 and the questions to be answered are: (i) What advantage 
 to a species is it not to be able to hybridize with other
 
 136 SECRETS OF EARTH AND SEA 
 
 species, and (2) how that is to say, by what structure or 
 by what subtle chemical differences or other features in 
 their make-up and habit are they prevented from so 
 hybridizing ? Then we come on further to the question, 
 Why should a hybrid, once produced, fail to bear healthy 
 eggs or sperms according to its sex, although it grows up 
 to full size and is to all appearances mature? And why 
 should hybrids between parents of origin locally remote 
 from one another not show this failure, but behave like 
 ordinary healthy organisms? 
 
 In the full solution of these inquiries we should get 
 very near to some of the most important secrets of the 
 living body which have still to he searched out. But a 
 reply to these questions which is probably in large 
 measure true, and serves to help us in the further 
 collection and examination of facts, is as follows : First, 
 the production and maintenance of " species " of plants 
 and of animals by survival of favourable variations in the 
 struggle for existence (Darwin and Wallace's theory of 
 the origin of species) requires the maintenance of the purity 
 of the favourable stock which survives in the struggle. If 
 it were continually liable to hybridization by other species 
 it would never establish its own distinctive features. It 
 would deteriorate by departing from those characteristics 
 which have been " naturally selected " and have rendered 
 it a successful "species." Thus the breeder, when he 
 has selected a stock for propagation which approaches 
 the standard at which he is aiming, keeps it apart, and 
 does not allow it to be " crossed " by other stock. One of 
 the qualities " naturally selected " in " the wild " is the 
 power of resistance to fertilization by neighbouring 
 species. 
 
 This power of resistance or immunity to fertilization 
 by other species may be attained by several different 
 methods. Amongst these are (i) a difference ^ in the
 
 HYBRIDS 137 
 
 season of breeding or sexual ripening ; (2) the production 
 of secretions (whether by plant or by animal) which poison 
 or paralyse' the fertilizing sperms of allied and locally 
 associated species, but are harmless to those of the secret- 
 ing species ; (3) the mechanical differences of size, etc., 
 which prevent the fertilizing material of a strange species 
 from gaining access to the egg-cells ; (4) psychical activities 
 (antipathies) in the case of animals or mere attraction and 
 repulsion by odoriferous substances, which serve to repel a 
 strange species, but are attractive to individuals of the 
 same species; (5) finally, a chemical and physiological 
 incompatability between the sperms of one species and 
 the germs of another (as distinct from the attraction or 
 repulsion of the entire living individual), which, even when 
 all other difficulties are absent or have been overcome, 
 may be, and frequently is, present, so that the spermatozoon 
 cannot penetrate the egg-cell even when resting upon it, 
 but may be paralysed or repelled, and in any case is not 
 guided and drawn into the aperture of the egg-covering, 
 called the micropyle, or " little entry," so as to fuse with 
 and fertilize the egg. 
 
 The operation of these hindrances to hybrid fertilization 
 and breeding have been ascertained in several different 
 instances. It is not always possible, and certainly not 
 easy to ascertain, which is at work in any and every case. 
 But we can well conceive that one or other of these 
 agencies have been developed and accentuated by survival 
 of the fittest, so as to protect a species against fertilization 
 by a neighbouring species, and thus to enable it to maintain 
 its own " bundle of characteristics " free from the swamping 
 effects of" mixture " (that is, " hybridization ") with another 
 species. It is also thus intelligible that an allied species 
 from a distant land against which our native species and 
 its closer ancestry struggling for purity of race have had 
 no occasion or opportunity to develop a repelling protection
 
 138 SECRETS OF EARTH AND SEA 
 
 will have no such difficulty in effecting the fertilization of 
 the native species as have those adjacent species against 
 whose intrusions the latter is specifically moulded and 
 selected by long generations of severe natural selection. 
 
 The failure of hybrids generally to ripen their ova and 
 sperm so as to reproduce themselves is a subject upon 
 which, considering its enormous importance and signifi- 
 cance, singularly little has been done in the way of investi- 
 gation. Fifty years ago it was usually taught that the 
 mule, between the horse and the ass, so largely produced 
 under human superintendence for transport service, was 
 unable to breed owing to some deformity in the reproductive 
 passages. Even now no adequate study of the subject has 
 been made, but it appears that whilst a female mule can 
 be, and sometimes is, successfully mated to a horse or an 
 ass, giving birth to a foal, the male mule does not produce 
 fully-formed spermatozoa. What precisely is the nature 
 of this failure, what the ultimate microscopic condition of 
 the sperm cells in infertile male mules, or in any other infer- 
 tile male hybrids, has not yet been properly worked out 
 by modern cytological methods. It would be a matter of 
 vast interest to determine what is the difference in the 
 structure of the sperm-cells of a fertile and of an infertile 
 male hybrid. At present, so far as I know, this has not 
 been done. 
 
 So far what I have written applies to hybridization 
 the inter-breeding of distinct species. A similar but by 
 no means identical subject is that of the inter-breeding of 
 distinct races or varieties of one species, and the production 
 of " mongrels." " Mongrels " are to races what " hybrids " 
 are to species. To this branch of the subject belongs the 
 study of the effects of intermarriage between distinct 
 races of men.
 
 CHAPTER XII 
 THE CROSS-BREEDING OF RACES 
 
 WE have seen that there is no simple rule as to 
 the "mating" of individuals of a species with 
 individuals of another closely allied but distinct 
 species. Such mating very rarely comes about in natural 
 conditions, but man by his interference sometimes succeeds 
 in procuring " hybrids " between allied species. Hybrids 
 between species belonging to groups so different as to be 
 distinguished by zoologists as distinct " families " or 
 " orders " are quite unknown under any circumstances. 
 Such remoteness of natural character and structure as is 
 indicated by the two great divisions of hoofed mammals 
 the even-toed (including sheep, cattle, deer, antelopes, 
 giraffes, pigs and camels), and the odd-toed (including 
 tapirs, rhinoceroses, horses, asses and zebras) is an 
 absolute bar to inter-breeding. So, too, the carnivora 
 (cats, dogs, bears and seals, and smaller kinds) are so 
 remote in their nature from the rabbits, hares and rats 
 called " the rodents " that no mating between members 
 of the one and the other of these groups has ever been 
 observed, either in nature or under artificial conditions. 
 
 Even when individuals of closely allied species mate 
 with one another it is a very rare occurrence that the 
 hybrids so produced ripen their ova and sperms so as 
 to be capable of carrying on the hybrid race, though 
 sometimes they do ripen them and breed. The great 
 naturalist Alfred Wallace, in his most valuable and
 
 140 SECRETS OF EARTH AND SEA 
 
 readable book called " Darwinism," expressed the opinion 
 that the apparent failure of hybrid races to perpetuate 
 themselves by breeding was to a large extent due to the 
 small number of individuals used in experiments on this 
 matter, and the in-and-in breeding which was the con- 
 sequence. One of the great generalizations established 
 by Darwin is that in-and-in breeding is, as a rule, resisted 
 in all animals and plants, and leads when it occurs to a 
 dying-out of the inbred race by resulting feebleness and 
 infertility. A large part of Darwin's work consisted in 
 demonstrating the devices existing in the natural structure 
 and qualities of plants and animals for securing cross- 
 fertilization among individuals of the same species but of 
 different stock. Both extremes seem to be barred in 
 nature namely, the inter-breeding of stocks so diverse 
 in structure and quality as to be what we call " distinct 
 species," and again the inter-breeding of individuals of 
 the same immediate parentage or near cousinship. What 
 seems to be favoured by the natural structure and qualities 
 of the plant or the animal is that it shall only breed within 
 a certain group the species and shall within that group 
 avoid constant self-fertilization or fertilization by near 
 cousins. Thus we find numerous cases in which, though 
 the same flower has both pollen and ovules, and might 
 fertilize itself, the visits of insects (specially made use of 
 by mechanisms in the flower) carry the pollen of one flower 
 to the ovules of another and to flowers on separate plants 
 growing at a distance. It is necessary to note that there 
 are, nevertheless, self-fertilizing flowers, and also self- 
 fertilizing lower animals, the special conditions of which 
 require and have received careful examination and con- 
 sideration, upon which I cannot now enter. 
 
 In relation to the question of the possibility of establish- 
 ing hybrids between various species experimentally, I 
 must (before going on to the cognate question of
 
 THE CROSS-BREEDING OF RACES 141 
 
 "mongrels") tell of an interesting suggestion made to 
 me by my friend Professor Alphonse Milne-Edwards 
 not long before he died, and never published by him. He 
 was director of the Jardin des Plantes in Paris, where 
 there is a menagerie of living beasts as well as a botanic 
 garden and great museum collections and laboratories. 
 He held it to be probable, as many physiologists would 
 agree, that the fertilization of the egg of one species by 
 the sperm of another, even a remotely related one, is 
 ultimately prevented by a chemical incompatibility 
 chemical in the sense that the highly complex molecular 
 constitution of such bodies as the anti-toxins and serums 
 with which physiologists are beginning to deal is 
 " chemical " and that all the other and secondary 
 obstacles to fertilization can be overcome or evaded in 
 the course of experiment. He proposed to inject one 
 species by "serums" extracted from the other, in such 
 a way as seemed most likely to bring the chemical state 
 of their reproductive elements into harmony, that is to 
 say, into a condition in which they should not be actively 
 antagonistic but admit of fusion and union. He proposed, 
 by the exchange of living or highly organized fluids (by 
 means of injection or transfusion) between a male and 
 female of separate species, to assimilate the chemical 
 constitution of one to that of the other, and thus possibly 
 so to affect their reproductive elements that the one could 
 tolerate and fertilize the other. The suggestion is not 
 unreasonable, but would require a long series of experi- 
 ments in which the possibility of producing such " assimi- 
 lation," even to a small extent and in respect of less 
 complex processes than those ultimately aimed at, would 
 have to be, first of all, established. My friend did not 
 live to commence this investigation, but it is possible that 
 some day we may see the obstacle to the union of ovum 
 and sperm of species, which are to some extent allied,
 
 142 SECRETS OF EARTH AND SEA 
 
 removed in this way by transfusion or injection of 
 important fluids from the one into the other. 
 
 We must not lose sight of the fact, in the midst of 
 these various and diverging observations about the 
 fertilization of the ova of one species by sperms of 
 another species, that there is such a thing as " partheno- 
 genesis," or virgin-birth. In some of the insects and 
 lower forms of animals the egg-cell habitually and 
 regularly develops and gives rise to a new individual 
 without being fertilized at all. And in other cases by 
 special treatment, such as rubbing with a brush, or in the 
 case of marine animals by addition of certain salts to the 
 water in which the eggs are floating or, again, in the 
 case of the eggs of the common frog by gently scratching 
 them with a needle the eggs which usually and regularly 
 require to be penetrated by and fused with a spermatozoon 
 or sperm-filament before they will develop, proceed to 
 develop into complete new individuals without the action 
 upon them of any spermatozoon. In such marine animals 
 as the sea-urchins or sea-eggs it has been found that the 
 eggs deposited in pure sea-water, though they would die 
 and decompose if left there alone, can be made to develop 
 and proceed on their growth by the addition to the sea- 
 water of the sperm filaments of a star-fish (the feather 
 star or comatula). The spermatozoa or sperm-filaments 
 do not however, in this case fuse with the egg-cells. 
 They mechanically pierce the egg-coat, but contribute 
 no substance to the embryo into which the egg develops. 
 They have merely served, like the scratch of a needle on 
 the frog's egg and the brushing of insects' eggs, to start 
 the egg on its growth, to " stimulate " it and set changes 
 going. It appears thus that the fertilizing sperm-filaments 
 of organisms generally have two separate and very im- 
 portant influences upon the egg-cells with which they 
 fuse. The one is to stimulate the egg and start the
 
 THE CROSS-BREEDING OF RACES 143 
 
 changes of embryonic growth ; the other is to contribute 
 some living material from the male parent to the new 
 individual arising from the growth and shaping of the 
 egg-cell. The first influence can be exercised without 
 the second, as is seen in the case of the eggs of some 
 sea-urchins stimulated to growth by the spermatozoa of 
 some star-fishes. It happens that these marine animals 
 are convenient for study and experiment because their 
 eggs are small and transparent and that they and the 
 spermatozoa are freely passed into the sea-water at the 
 breeding season, in which the fertilization of the eggs 
 takes place. 
 
 When these facts are considered we have to admit that 
 in the mating of two species which will not regularly and 
 naturally breed together, there may be a limited action of 
 the spermatic element which may stimulate the egg to 
 development without contributing by fusion in the regular 
 way to the actual substance of the young so produced, or 
 only contributing an amount insufficient to produce a full 
 and normal development of the hybrid young. Such 
 cases not improbably sometimes occur in higher animals, 
 though they have not been, as yet, shown. to exist except 
 in the experiments with sea-urchins' eggs and feather- 
 star's sperm. 
 
 In all animals and plants, but especially in domesti- 
 cated and cultivated stocks or strains, varieties arise which, 
 by natural or artificial separation, breed apart, and give 
 rise to what are called " races." Such races in natural 
 conditions may become species. Species are races or 
 groups of individuals, which, by long estrangement (not 
 necessarily local isolation) from the parent stock and by 
 adaptation to special conditions of life, have become more 
 or less " stable " that is, permanent and unchanging in 
 the conditions to which they have become adapted. They 
 acquire by one device or another the habit of not breeding
 
 144 SECRETS OF EARTH AND SEA 
 
 with the stock from which they originally diverged a 
 repugnance which may be overcome by human contrivance 
 or by natural accident, but is, nevertheless, an effective 
 and real quality. Distinct forms, which have not arrived 
 at the stability and separation characteristic of species, are 
 spoken of as " races," or " varieties." It is very generally 
 the case that the " races " of one species can inter-breed 
 freely with one another, and with the original stock, when 
 it still exists. Comparatively little is known as to the be- 
 haviour of wild or naturally-produced " races." Practically 
 all our views on the subject of " races " and their inter- 
 breeding are derived from our observation of the immense 
 number and range of " races " and " breeds " produced by 
 man as farmer, fancier, and horticulturist. It has been 
 generally received as a rule, that the various races pro- 
 duced in the farm or garden by breeding from a species, 
 will inter-breed freely, and produce offspring which are 
 fertile. A special and important series of races, in which 
 human purpose and voluntary selection necessarily have 
 a leading part, are the races of man. 
 
 The offspring of parents of two different races is called 
 a mongrel, whilst the term " hybrid " has been of late 
 limited, for the sake of convenience, to the offspring of 
 parents of two different species. Mongrels, it has been 
 generally held, are fertile often more fertile than pure- 
 bred individuals whose parents are both of the same race, 
 whilst " hybrids " are contrasted with them, in being in- 
 fertile. We have seen that infertility is not an absolute 
 rule in the case of hybrids, and it appears that there is also 
 a source of error in the observations which lead to the 
 notion that "mongrels" are always fertile. The fact is 
 that observations on this matter have nearly always been 
 made with domesticated animals and plants which are, of 
 course, selected and bred by man on account of their 
 fertility, and thus are exceptionally characterized by
 
 THE CROSS-BREEDING OF RACES 145 
 
 fertility, which is transmitted in an exceptional degree to 
 the races or varieties which are experimentally inter-bred, 
 and, consequently, may be expected to produce fertile 
 mongrels. Alfred Russel Wallace insisted upon this fact, 
 and pointed out that in a few cases colour varieties of a 
 given species of plant have been found to be incapable of 
 inter-breeding, or only produce very few " mongrels." 
 This has been established in the case of two dissimilarly- 
 coloured varieties of mullein. Also the red and the blue 
 pimpernel (the poor man's weather-glass, Anagallis), which 
 are classed by botanists as two varieties of one species, 
 have been found after repeated trials to be definitely in- 
 capable of inter-breeding. Wallace insists in regard to 
 crossing, that some degree of difference favours fertility, 
 but a little more tends to infertility. We must remember 
 that the fertility of both plants and animals is very easily 
 upset. Changed conditions of life such as domestication 
 may lead (we do not know why) to complete or 
 nearly complete infertility ; and, again, " change of air," 
 or of locality, has an extraordinary and not-as-yet- 
 explained effect on fertility. 
 
 " Oh, the little more and how much it is ! 
 And the little less, and what ^worlds away ! " 
 
 Infertile horses sent from their native home to a different 
 climate (as, for instance, from Scotland to Newmarket) 
 become fertile. A judicious crossing of varieties or races 
 threatened with infertility will often lead to increased vigour 
 and fertility in the new generation, just as change of locality 
 will produce such a result. Physiological processes which 
 are not obvious and cannot be exactly estimated or 
 measured are then, we must conclude, largely connected 
 with the question of sterility and fertility. Mr. Darwin 
 has collected facts which go far to prove that colour (as 
 in the case of the black pigs of Virginia, which I cited
 
 146 SECRETS OF EARTH AND SEA 
 
 in Chapter X.), instead of being a trifling and unimportant 
 character, as was supposed by the older naturalists, is 
 really one of great significance, often correlated with 
 important constitutional differences. It is pointed out by 
 Alfred Wallace that in all the recorded cases in which a 
 decided infertility occurs between varieties (or races) of the 
 same species of plants (such as those just cited), those 
 varieties are distinguished by a difference of colour. He 
 gives reasons for thinking that the correlation of colour 
 with infertility which has been detected in several cases in 
 plants may also extend to animals in a state of nature. 
 The constant preference of animals even mere varieties 
 of dog, sheep, horses, and pigeons for their like, has 
 been well established by observation. Colour is one 
 of the readiest appeals to the eye in guiding animals 
 in such selection and association, and is connected with 
 deep-seated constitutional qualities. " Birds of a feather 
 flock together" is a popular statement confirmed by the 
 careful observation of naturalists. Thus we arrive at some 
 indication of features which may determine the inter- 
 breeding, or the abstention from inter-breeding, of diverse 
 races sprung from one original stock. The "colour 
 bar" is not merely the invention of human prejudice, 
 but already exists in wild plants and animals. 
 
 We now come to the questions, the assertions, the beliefs, 
 and the acts concerning the inter-breeding of human races, 
 to the consideration of which I have been preparing the 
 way. The dog-fancier has generally a great contempt for 
 " mongrels." Breeders generally dislike accidental crosses, 
 because they interfere with the purpose which the breeder 
 has in view of producing animals or plants of a quality, 
 form, and character which he has determined on before- 
 hand. This interference with his purpose seems to be the 
 explanation of beliefs and statements, to the prejudice of 
 " mongrels." Really, as is well known to great breeders
 
 THE CROSS-BREEDING OF RACES 147 
 
 and horticulturists, a determined and selective crossing of 
 breeds is the very foundation of the breeder's art, and 
 there is no reason to suppose that a " mongrel " is 
 necessarily, or even probably, inferior in vigour or in 
 qualities which are advantageous in the struggle for life in 
 "natural" that is to say, "larger" conditions of an 
 animal's or plant's life; not those limited conditions for 
 which the breeder intends his products. Indeed, the very 
 opposite is the case. In nature, as Mr. Darwin showed, 
 there are innumerable contrivances to ensure the cross- 
 breeding of allied but distinct strains. Dog-owners who 
 are not exclusively bent upon possessing a dog which 
 shows in a perfect way the " points " of a breed favoured 
 by the fashion of the moment, or fitting it for some 
 special employment, know very well that a " mongrel " 
 may often exhibit finer qualities of intelligence, or endur- 
 ance, than those exhibited by a dog of pure-bred " race." 
 And the very " races " which are spoken of to-day as 
 " pure-bred," or " thoroughbred," have (as is well known) 
 been produced as " mongrels " that is to say, by crossing 
 or mating individuals of previously-existing distinct and 
 pure breeds. The history of many such " mongrel breeds," 
 now spoken of as " thoroughbred,", is well known. The 
 English racehorse was gradually produced by the " mon- 
 grelizing," or cross-breeding, of several breeds or races 
 the English warhorse, the Arab, the Barb. A very fine 
 mongrel stock having at last been obtained, it was found, 
 or, at any rate, was considered to be demonstrated, that no 
 further improvement (for the purposes aimed at, namely, 
 flat-racing) could be effected by introducing the blood of 
 other stock. The offspring of the "mongrels" Herod, 
 Matchem, and Eclipse accordingly became established as 
 " the " English racehorse, and thenceforward was mated 
 only within its own race or stock, and was kept pure or 
 "thoroughbred." Another well-known mongrel breed
 
 148 SECRETS OF EARTH AND SEA 
 
 which is now kept pure, or nearly so, is that of the St. 
 Bernard's dog, a blend of Newfoundland, Bloodhound, 
 and English Mastiff. 
 
 Often the word " mongrel " is limited in its use to 
 signify an undesired or undesirable result of the cross- 
 breeding of individuals of established races. But this is 
 not quite fair to mongrels in general, since, as we have 
 seen, the name really refers only to the fact they are 
 crosses between two breeds. When they happen to suit 
 some artificial and arbitrary requirement they are favoured, 
 and made the starting-point of a new breed, and kept 
 pure in their own line; but when they do not fit some 
 capricious demand of the breeder they are sneered at 
 and condemned, although they may be fine and capable 
 animals. No doubt some mongrels between races differing 
 greatly from one another, or having some peculiar mixture 
 of incompatible qualities the exact nature of which we 
 have not ascertained, are wanting in vigour, and cannot 
 be readily established as a new breed. In nature the 
 success of the mongrel depends on whether or not its 
 mixture of qualities makes it fitter than others to the 
 actual conditions of its life, and able to survive in the com- 
 petition for food and place. In man's breeding operations 
 with varieties of domesticated animals and " cultivated " 
 plants, the survival of the mongrel depends upon its 
 fitting some arbitrary standard applied by man, who 
 destroys those which do not suit his fancy, and selects 
 for survival and continued breeding those which do. 
 
 What is called " miscegenation," or the inter-breeding 
 of human races, must be looked at from both these points 
 of view. We require to know how far, if at all, the mixed 
 or mongrel offspring of a human race A with a human 
 race B is really inferior to either of the original stocks A 
 and B, judged by general capacity and life-preserving 
 qualities in the varied conditions of the great area of the
 
 THE CROSS-BREEDING OF RACES 149 
 
 habitable globe. And how far an arbitrary or fanciful 
 standard is set up by human races, similar to that set up 
 by the " fancier " or cultivator of breeds of domestic animals. 
 The matter is complicated by the fact that what we loosely 
 speak of as " races " of man are of very various degrees of 
 consanguinity or nearness to one another in blood, that is, 
 in stock or in ultimate ancestry. It is also complicated 
 by the fact that we cannot place any reliance upon the 
 antipathies or preferences shown by the general sentiment 
 of a race in this (or other matters) as necessarily indicating 
 what is beneficial for humanity in general or for the 
 immediate future of any section of it. Nor have we any 
 assurance that what is called " sexual selection " the 
 preference or taste in the matter of choosing a mate is 
 among human beings necessarily anything of greater im- 
 portance so far as the prosperity of a race or of humanity 
 in general is concerned than a mere caprice or a meaning- 
 less persistence of the human mind in favouring a choice 
 which is habitual and traditional. I have referred to this 
 point again in the last paragraph of this chapter. 
 
 In regard to marriage between individuals of different 
 European nationalities, a certain amount of unwillingness 
 exists on the part of both men and women which cannot 
 be ascribed to any deep-seated inborn antipathy, but is 
 due to a mistrust of the unknown " foreigner," which very 
 readily disappears on acquaintance, or may arise from 
 dislike of the laws and customs of a foreign people. 
 English, French, Dutch, Scandinavians, Germans, Russians, 
 Greeks, Italians and Spaniards have no deep-rooted pre- 
 judices on the subject, and readily intermarry when 
 circumstances bring them into association. Though the 
 Jews by their present traditional practice are opposed to 
 marriage with those not of their faith, there is no effective 
 aversion of a racial kind to such unions, and in early 
 times they have been very frequent. During the " captivity "
 
 ISO SECRETS OF EARTH AND SEA 
 
 in Babylon and again after the " dispersal " by the Romans, 
 the original Jewish race was practically swamped by 
 mixture with cognate Oriental races who adopted the 
 Jewish faith. So far from there being inborn prejudice 
 against intermarriage of the peoples above cited, it is 
 very generally admitted that such " miscegenation " leads 
 frequently to the foundation of families of fine quality. 
 The blend is successful, as may be seen in the number 
 of prominent Englishmen who have Huguenot, German, 
 Dutch, or Jewish blood in their veins. 
 
 But when we come to the intermarriage of members 
 of the white race of Europe with members of either the 
 negroid (black) race or of the yellow and red mongoloid 
 race, a much greater and more deeply-rooted aversion is 
 found, and this is extended even to members of the 
 Caucasian race who, possibly by prehistoric mixture with 
 negro-like races, are very dark-skinned, as is the case 
 with the Aryan population in India and Polynesia. It 
 is a very difficult matter ; in fact, it seems to me not 
 possible in our present knowledge of the facts, to decide 
 whether there is a natural inborn or congenital disinclina- 
 tion to the marriage of the white race, especially of the 
 Anglo-Saxon branch of it, with " coloured " people, or 
 whether the whole attitude (as I am inclined to think) is 
 one of " pride of race," an attitude which can be defended 
 on the highest grounds, though it may lead to erroneous 
 beliefs as to the immediate evil results of such unions, 
 and to an unreasonable and cruel treatment both of the 
 individuals so intermarry ing and of their offspring. There 
 is little or no evidence of objection to mixed unions on 
 the part of the coloured people with whites, no evidence 
 of physical dislike to the white man or white woman, 
 but, on the contrary, ready acquiescence. 
 
 A curious aversion to marriages with whites on the 
 part both of North American Indians and of negroes is,
 
 THE CROSS-BREEDING OF RACES 151 
 
 however, recorded from time to time in the official reports 
 of the United States Government 
 
 Two beliefs about such unions are more or less 
 prevalent among white men in the regions where 
 they not infrequently occur. Neither of these beliefs 
 is supported by anything like conclusive evidence. 
 The one is that such unions lead to the production 
 of relatively infertile offspring ; the mixed breed or 
 stock is said to die out after a few (some seven or 
 eight) generations. It is, however, the fact that the 
 circumstances under which this occurs suggest that it 
 is not due to a natural and necessary infertility. The 
 other assertion is that the offspring of parents one 
 of white race and the other of black, yellow or brown 
 tend by some strange fatality to inherit the bad qualities 
 of both races and the good qualities of neither. This is 
 a case to which must be applied the saying, c Give a dog 
 a bad name and hang him." The white man m North 
 America, in India, and in New Zealand desires the increase 
 and prosperity of his own race. Like the fancier set on 
 the production of certain breeds of domesticated animals, 
 he has no toleration for a " mongrel." In so far as it is true 
 that miscegenation (marriage of white and coloured race) 
 produces a stock which rapidly dies out this is due to 
 the adverse conditions, the opposition and hostility to 
 which the mixed race is exposed by the attitude of the 
 dominant white race. To the same cause is due the 
 development of ignoble and possibly dangerous charac- 
 teristics in the unfortunate offspring of these marriages 
 more frequently than in those who find their natural place 
 and healthy up-bringing either in the white or the coloured 
 sections of the community. The " half-breed " is in some 
 countries inexorably rejected by the race of his or her 
 white parent and forced to take up an equivocal association 
 with the coloured race.
 
 152 SECRETS OF EARTH AND SEA 
 
 That some, at any rate, of the evils attributed to 
 " miscegenation " are due to the baneful influence of " pride 
 of race " is evident from the fact that the Portuguese (with 
 the exception of a small aristocratic class) have not since the 
 early days of the fourteenth century, perhaps in consequence 
 of established association with the Moorish and other 
 North African races, shown that pride of race and aversion 
 to mixture with dark-skinned races which is so strong a 
 feature in the Anglo-Saxons, their successors and rivals 
 as colonists. The long-standing admixture of black blood 
 in the Portuguese population before the colonization of 
 South America, has led to a toleration on the part of the 
 Portuguese colonists of" miscegenation," both with Indians 
 and the liberated descendants of imported negro slaves. 
 The consequence is that in Brazil there is no condemnation 
 of black blood ; children of mixed parentage and of 
 coloured race attend the same schools as those of European 
 blood, and freely associate with them. There is no notion 
 that that portion of the population which is of mixed 
 negro, Indian, and white blood is less vigorous or fertile 
 than the unmixed, nor that vice and feebleness are the 
 characteristics of the former, whilst virtue and capacity 
 belong to the latter. 
 
 The determined hostility of the Anglo-Saxon race in 
 North America and in British India to "miscegenation" 
 is in the case of the United States to be explained by 
 the peculiar relation of a large slave population in the 
 Southern States to a pure white slave-owning race : whilst 
 in India we have a handful of white men temporarily 
 stationed as rulers of millions of " natives," but never 
 accepting India as their home. The attitude of the 
 Anglo-Saxon race to the North American Indians, and 
 also to the Maoris of New Zealand, has never been, so 
 extreme in the matter of miscegenation as it has been 
 to negroid people and to the very different though dark-
 
 THE CROSS-BREEDING OF RACES 153 
 
 skinned people of the East. In support of that opinion 
 may be cited the fact that some of " the first families of 
 Virginia " are proud of their descent from Pocahontes, 
 the Algonkian " Princess " who married the Englishman 
 Rolfe. In New Zealand there are many families of mixed 
 Anglo-Saxon and Maori blood. Though they are not 
 ostracized, as are the half-breeds of negro blood in the 
 United States, there is a firm tendency to relegate the 
 half-breeds in New Zealand to the Maori section of the 
 population, which it must be remembered includes some 
 of the richest and most prosperous landowners in the 
 colony. 
 
 It may be questioned whether there is in this matter 
 a greater "pride of race" among Anglo-Saxons than 
 among other Northern European peoples. Neither the 
 French nor the Germans have established great colonies 
 like the English, nor undertaken the administration of 
 a huge Eastern Empire, and have, therefore, not shown 
 what attitude they would adopt under such circumstances. 
 The tolerance and easy-going humanitarianism of the 
 French in relation to "miscegenation" in their depen- 
 dencies in past times has never had the significance or 
 practical importance which it would have possessed in 
 the English Colonies and in the great Indian Empire. 
 
 There is, on account of the sporadic and exceptional 
 occurrence of modern instances, no information of any 
 value as to the results of mixture of other races of man. 
 In early times and among more primitive or less civilized 
 peoples there appears to have been, when immigration 
 or conquest gave the opportunity, no obstacle to a free 
 intermixture of an incoming race with the natives of an 
 invaded territory. The " pride of race " has, nevertheless, 
 throughout historic time been a frequent factor in the 
 adjustment of populations of diverse races, and though 
 "colour" has been a frequent "test" or symbol of the
 
 154 SECRETS OF EARTH AND SEA 
 
 superior and exclusive race, it has not been the only 
 characteristic exalted to such importance. Such " pride 
 of race " has frequently excluded the members of a 
 closely allied but conquered racial group from inter- 
 marriage with the conquerors, and has only disappeared 
 after centuries of persistence. The term " blue blood " is 
 interesting in this connection. It is the "saing d'azure " 
 of the Gothic invaders, the conquerors of the Iberian and 
 Moorish people of Spain. It refers not to any " blueness " 
 of the blood itself, such as distinguishes veinous from 
 arterial blood, but to the blue colour of the veins as 
 seen through the colourless skin of a northern race (the 
 Goths), as compared with the invisibility of the veins 
 when the skin is rendered more or less opaque by a 
 brown pigment, as in the Moors and the swarthy Iberians. 
 Among the people of Western Europe marriage has 
 assumed more and more a character which is almost 
 unknown in the rest of the world. Whatever the future 
 may be in regard to this matter, there is no doubt 
 possible that the place given to women in Western 
 Europe by the ideals of chivalry and the practice of 
 the northern race (which has so largely displaced the 
 traditions of the Roman Empire) has established a relation 
 of the sexes in which marriage and consequent parentage 
 have ceased to be regarded as a mere regularization of 
 animal desire and appetite. The accepted, but not always 
 consciously recognized, view of marriage in Western 
 Europe is that the union so sanctioned and the families 
 thereby produced should be the result not of the mere 
 physical necessity of irresponsible victims of an impulse 
 common to all animals, but the outcome of the deliberate 
 choice of man and woman attracted to one another by 
 sympathy, understanding and reciprocal admiration, based 
 upon knowledge of character, mental gifts and aspirations, 
 as well as upon bodily charm. A rarely-expressed but
 
 THE CROSS-BREEDING OF RACES 155 
 
 none the less deeply-seated conviction exists that from 
 such unions children of the finest nature, nurtured in 
 circumstances most likely to make them worthy members 
 of the community, will be born and reared. It is this 
 conviction which leads to, or at any rate endorses, the 
 exclusiveness which is described as "pride of race." The 
 Anglo-Saxon man and equally the Anglo-Saxon woman 
 (as well as the allied races of neighbouring nationalities) 
 recognize a responsibility, a race duty, resulting from 
 accumulated tradition, the heirloom of long ages of family 
 life, which causes the man to be ashamed of, and the 
 woman to shrink with instinctive horror from, union with 
 an individual of a remote race with whom there can be 
 no real sympathy, no intimate understanding. That 
 seems to me to be the explanation and the justification 
 of the " colour bar." 
 
 In relation to the probable effectiveness of sexual 
 selection among uncivilized peoples in favouring and 
 maintaining a particular type or form of features, hair, etc., 
 characteristic of the race, independently of the life- 
 preserving value of such qualities, I may mention, before 
 quitting this difficult but strangely fascinating subject, 
 a fact observed by a traveller in Africa, and related to 
 me by him. Other similar facts are on record. Among 
 the negroes employed as "porters" by my friend, some 
 thirty in number, was one who had a narrow aquiline 
 nose and thin lips. He was as black and as woolly- 
 haired as any of them, .but would if of fair complexion 
 have been regarded by Europeans as a very handsome, 
 fine-featured man. Such cases are not uncommon in 
 parts of Africa, where probably an unrecognized mixture 
 with Arab or Hamite blood has occurred. My friend 
 expected this man to be a favourite, on account of what 
 to him appeared to be "good looks," with the girls of 
 the villages at which he camped during a three months'
 
 156 SECRETS OF EARTH AND SEA 
 
 journey. At every such village, as they journeyed on, 
 the travellers were received with joy and good nature. 
 The negro porters were feted and made much of by the 
 young women. But one alone was unpopular and regarded 
 with ridicule and dislike. This was the handsome negro 
 with the fine, well-modelled nose and beautiful European 
 lips. The black beauties turned their backs on him, in 
 spite of his amiable character and kindly overtures. They 
 invariably and by open confession preferred the men 
 with the thickest lips, the broadest noses, and the most 
 thoroughly (as we should say) degraded prognathous 
 appearance and disgusting expression. Hence no doubt 
 the young negresses were likely to perpetuate in their 
 offspring the features which are characteristic of their 
 race, and hence it is probable that mere capricious sexual 
 selection of individuals most completely conforming to 
 a preferred type irrespective of the value of the features 
 preferred may have great effect in both the selection 
 and the maintenance of the peculiarities of the type. 
 Dark skin may thus have been selected, until it became 
 actually black; a slight curling of the hair, until it 
 became woolly ; thickish lips and broadish nose, until 
 they became excessive in thickness and breadth.
 
 CHAPTER XIII 
 WHEEL ANIMALCULES 
 
 TWO hundred years ago the Dutch naturalist 
 Leuwenhoek, who made many discoveries with the 
 highly magnifying lenses which he himself ground 
 and mounted, wrote to the Royal Society of London 
 that he had " discovered several animalcula that protrude 
 two wheels out of the forepart of their body as they 
 swim, or go on the sides of the glass jar in which they 
 are living." He says that " the two wheels are thick 
 set with teeth as the wheel of a watch," and he sent to 
 the society for publication drawings of these wonderful 
 little creatures. This was the first account of the Wheel 
 Animalcules. Since then they have been studied by many 
 microscopists, especially by Ehrenberg, who figured many 
 in his great book on animalcules in 1838. Fourteen years 
 later the delightful English naturalist, P. H. Gosse, who 
 studied and illustrated the "sea-anemones" so ably 
 and, by his example and charming descriptions, made 
 the keeping of these beautiful things in marine aquaria 
 a favourite occupation among people of leisure, blessed 
 with a " curiosity concerning the things of nature " 
 published some microscopical studies on Wheel Animal- 
 cules, and continued throughout his life to make them 
 a special subject of his investigation. 
 
 The microscope was greatly improved in fact, reached 
 its present state of perfection during Mr. Gosse's lifetime, 
 and a wonderful amount was added to our knowledge
 
 158 SECRETS OF EARTH AND SEA 
 
 not only as to the various kinds of wheel animalcules 
 (which now number not less than 900 species), but also 
 with regard to the minutest details of their structure, 
 their growth from the egg, and their habits. Another 
 English lover of these minute creatures, Dr. C. T. Hudson, 
 of Clifton (Bristol), began his observations a few years 
 later, and also discovered many wonderful kinds. It 
 was my good fortune to bring these two devotees of the 
 Rotifera, or Wheel Animalcules, together, and to induce 
 them to write a conjoint work on their favourites after, 
 as they say in their preface, they had each continued 
 their studies almost daily for thirty years, and had made 
 innumerable drawings from living specimens, which are 
 reproduced in the many hundred (mostly coloured) figures 
 engraved in the thirty-four quarto plates of their monu- 
 mental book. This was published in 1889, a year after 
 Mr. Gosse's death at the age of 78. My friend, Mr. 
 Edmund Gosse, the distinguished man of letters, is the 
 son of the naturalist ; the microscope, the aquarium, and 
 the rock-pools of the seashore were the familiar delights 
 of his boyhood, as of mine. 
 
 In Fig. 34 I have sketched the common Rotifer or 
 wheel animalcule. It is about the one-fortieth of an inch 
 long. The two specimens drawn in Figs. 34, A and B, are 
 seen to be clinging by the forked tail-end of the body to 
 a piece of weed (drawn in dotted lines). The body is 
 stretched in these specimens to its full length. It can be 
 shortened by a " telescoping " or pulling in of either end, 
 so as to make the animal a mere oval particle. The four 
 narrower joints or segments at the tail-end can be pulled 
 in like the segments of a telescope, whilst the two wheels 
 and adjacent parts can be drawn down into the body as 
 shown in Fig. 34, C, where the two wheels (W) are seen 
 showing through the skin by transparency. 
 
 The common rotifer can walk like a looping caterpillar
 
 WHEEL ANIMALCULES 
 
 159 
 
 or a leech fixing itself by its tail, then stretching out the 
 head and fixing that, 
 whilst letting go the tail 
 and bringing it up by 
 " telescoping " it, near 
 to the head region. The 
 tail is forked, and in the 
 side view (Fig. 34, B) it 
 is seen to have a soft 
 branched process, which 
 helps it to cling. The 
 letter V in Fig. 34, A, 
 points to the vent or 
 opening of the gut at 
 the fork of the tail. 
 The mouth, marked 
 M, is seen between the 
 two " wheels." The two 
 "wheels" are really 
 two discs, the edges of 
 which are beset by 
 coarse " cilia," or vibrat- 
 ing hairs Of protoplasm. 1 FlG ' 34-Diagram of Rotifer vulgaris- 
 , * the common wheel animalcule one 
 
 These cilia lash and hundred and twenty times as long as 
 Straighten again one the creature itself. A, front view. 
 B, side view. C, head showing eyes S, 
 and retracted wheel apparatus W. 
 The letters in A and B have the 
 following signification : AI, mouth. 
 W, wheel or ciliated disc. S, eye 
 spots on head. T, spur or tentacle. 
 G, gizzard. St, stomach. Int, in- 
 testines. V, vent : aperture of intestine. 
 
 after the other, so that 
 the optical illusion is 
 produced of the toothed 
 edge of the disc being 
 in movement like a 
 wheel. They may be 
 "focused" with the 
 microscope so that the groups or 
 
 bunches " of them 
 
 1 For some account of "cilia," see "Science from an Easy Chair," 
 Figs. 29, 33, 40 and the accompanying text.
 
 160 SECRETS OF EARTH AND SEA 
 
 look like stiff, motionless "teeth," although they are 
 really, all the time, lashing and beating in regular rhythm. 
 When the animal is fixed by its tail, the lashing of the 
 cilia on the wheels causes currents in the water which set 
 with great strength to the mouth and bring floating food 
 particles to it. It is thus that the Rotifer feeds. When 
 the tail is not grasping a support, the movement of the 
 cilia on the wheels causes the animal to swim forward 
 through the water, so that it has two modes of locomotion 
 the leech-like crawling method and the free swimming 
 method. 
 
 The various internal organs of a Rotifer are readily seen 
 through its transparent skin (Fig. 34, A). It has a nervous 
 system, many bands of contractile muscles and a pair of 
 little tubular kidneys or nephridia, besides reproductive 
 germs (the eggs). I have here sketched only the digestive 
 canal. The mouth leads through a gullet to a very curious 
 organ called the " gizzard," marked G. All the wheel 
 animalcules have this gizzard, but its teeth, shown as two 
 oval bodies in the drawing, differ a great deal in shape 
 and complexity in the different kinds. Whilst the Rotifer 
 is feeding by bringing currents of water to its mouth, the 
 two halves of the gizzard are kept in rapid movement by 
 muscles, causing them to rub against one another and to 
 grind up the food particles which reach them through the 
 gullet. The gizzard (G) is followed by the digestive 
 stomach (St), and that by the intestine (Int), which opens 
 at the vent (V). The side (or three-quarter profile) view 
 of a similar specimen (Fig. 34, B) shows only the surface 
 of the little animal, and is intended to show especially the 
 snout-like head-lobe (S), with its two eye-spots, which 
 are red in colour. Standing out backwards from this is 
 a finger-like process (T), which is called the spur, or 
 tentacle. It has hairs at its tip, and is a sensory 
 organ.
 
 WHEEL ANIMALCULES 
 
 161 
 
 In some wheel animalcules there is a pair of these 
 
 spurs, and the very 
 remarkable wheel 
 animalcule drawn in 
 Figs. 35 and 36 has 
 six large processes 
 which, though much 
 bigger, appear to be 
 of the same nature. 
 Of these four are seen 
 in Fig. 35, namely, 
 </./., the dorsal limb, 
 v.l., the great ventral 
 limb, and 7./. 1 and /./. 2 , 
 the two lateral limbs 
 of the right side, all 
 of them carrying fan- 
 like groups of fringed 
 hairs. Theyare moved 
 by very powerful 
 muscles, and strike the 
 water with energetic 
 strokes, so as to cause 
 the little owner to 
 dart through it. This 
 jumping or darting 
 wheel animalcule is 
 called " Pedalion," 
 and was discovered 
 and described by 
 Dr. Hudson. It is 
 so astonishing and 
 
 w.a. 
 
 FIG. 35. The Rotifer Pedalion minim 
 seen from the right side, magnified 180 
 diameters. w.a., wheel apparatus or 
 "'ciliated" margin of the cephalic disc. 
 r.e., right side eye -spot, m., mouth. 
 /., tactile process. d.l. t median dorsal 
 limb (as it is seen in profile, only three of 
 the fringed hairs at its extremity are seen). 
 v.l., the great ventral limb (only five of 
 its fan of eight fringed hairs are seen). 
 LL 1 , dorso-lateral, and /./. 2 , ventro-lateral 
 limbs of the right side : they show the 
 complete fans of eight fringed hairs. 
 x., the pair of posterior processes tipped 
 . with vibratile cilia, better seen in Fig. 36. 
 
 wonderful a little 
 beast, that when Dr. 
 Hudson sent me some alive in a tube by post in 1872, 
 ii
 
 1 62 
 
 SECRETS OF EARTH AND SEA 
 
 soon after he had 
 
 discovered it, I could not believe 
 my eyes, and thought I must 
 be dreaming. It is very 
 like the young form of 
 Crustaceans known as a 
 " Nauplius " (see tail-piece to 
 the present chapter) in having 
 (what no other wheel animal- 
 cule has) great hollow paired 
 limbs moved by striated mus- 
 cular fibre, carrying fringed 
 hairs only known before in 
 Crustaceans (crabs, shrimps 
 and water fleas), and striking 
 the water violently just as do 
 those of the Nauplius. And 
 yet all the while it has on its 
 head a pair of large ciliated 
 wheels which serve it just 
 as do those of the com- 
 mon Rotifer. No Crustacean, 
 
 FIG. 36. The Rotifer 
 
 mirum seen from the ventral 
 surface. Letters as in Fig. 35. 
 
 The complete fan of eight fringed young or old, has this '^wheel- 
 apparatus " nor any vibratile 
 " cilia " on the surface of its 
 body. Pedalion possesses an 
 astounding "blend" of char- 
 acters. Fig. 35 shows, besides 
 the " paddles " or " legs " (of 
 which two on the other side 
 of the animal are not seen), 
 the broad and large wheel- 
 apparatus W (within which 
 the right eye-spot ;-.*. is seen), 
 and a little lobe (/>) called the "chin" lying just below 
 the mouth (;w). The big leg (^./.) and the pair on each 
 
 hairs terminating the great vent- 
 ral limb are seen, and the three 
 spine-like processes on each side 
 of it. The fringed hairs of the 
 two ventro-lateral limbs, /./. 2 , are 
 omitted ; they are fully shown 
 in Fig. 35, and are the same in 
 number and disposition as those 
 forming the "fan" of the great 
 ventral limb. Compare these 
 hairs with those of the "Nauplius" 
 Crustacean larva drawn as a tail- 
 piece to Chapter XIII.
 
 WHEEL ANIMALCULES 
 
 163 
 
 side (7./. 1 and /./. 2 ), of which that on the right side only 
 is seen, end in beautiful fringed hairs, which are only 
 seen elsewhere in the Crustacea (water-fleas and others). 
 Those on the lateral limbs and 
 the great ventral limb (Fig. 36) 
 are set in two groups of four on 
 each side of the free end of the 
 limb, whilst those on the dorsal 
 leg (</./.) are apparently not so 
 numerous. I have corrected the 
 drawings, Figs. 35 and 36, by re- 
 ference to actual specimens kindly 
 given to me by Mr. Rousselet. 
 
 The 500 different species of 
 Wheel Animalcules or Rotifera 
 differ from one another in the ex- 
 act shape of the wheel-apparatus, 
 in the jointing of the body and its 
 general shape, and in the develop- 
 ment, in some, of a hard skin or 
 shell like a turtle's or tortoise's shell 
 (Fig. 37) over that broadest region 
 of the body in which in our Fig. 34, A, 
 the stomach marked "St" is placed. 
 They differ also in the shape of the 
 gizzard's teeth, in the presence of 
 paddles or legs (in Pedalion alone), 
 and in the presence in some of longer 
 or shorter projecting movable rods 
 or bristles in pairs or in bunches. 
 Many build for themselves tubular 
 habitations of jelly or of hard cemented particles. They 
 are all minute (from the i-i2th to the 1-500 in. in length). 
 They are divided into five principal groups, which are 
 (i) the crawlers, like the common Rotifer (Fig. 34), which 
 
 FIG. 37. The Rotifer 
 Noteus quadricornis to 
 show its curious four- 
 horned carapace from 
 which the wheelapparatus, 
 wa, emerges in front, and 
 the tail, t, behind ; some- 
 what as the head and tail 
 of a tortoise emerge from 
 its protective " box " or 
 carapace. The ridges on 
 the horney covering of the 
 Rotifer recall the horney 
 plates of the tortoises and 
 turtles.
 
 1 64 
 
 SECRETS OF EARTH AND SEA 
 
 can crawl like a leech and also swim freely by aid of their 
 wheel-apparatus ; (2) the naked free swimmers, which do 
 not crawl, but move only by swimming ; (3) the turtle- 
 shelled free swimmers (Fig. 37) like the last, but provided 
 with strong, often faceted, angular, and spike-bearing 
 shells or " bucklers," from which head and wheel-apparatus 
 project in front and narrow tail behind ; (4) the rooted or 
 fixed forms (Figs. 37 bis) ; these never swim when full 
 grown, but each forms and inhabits a protective tube or 
 case ; (5) the skipping or darting forms. Of these there 
 is only the Pedalion mirum (Figs. 35 and 36), which is 
 quite unlike all the other wheel animalcules in having limbs 
 like those of the'j minute water-fleas (Nauplius, Cyclops) 
 which strike the water and are fringed with feather-like 
 hairs. 
 
 The larval or young form of Crustacea known as " the Nauplius." This is 
 the " Nauplius " of a kind of Prawn. The three pairs of branched limbs 
 are well seen. Much magnified.
 
 CHAPTER XIV 
 MORE ABOUT WHEEL ANIMALCULES 
 
 MICROSCOPIC as the wheel animalcules are 
 they yet have been watched and examined by 
 their admirers to as great a point of intimacy as 
 that reached by the devotees of insects or of birds. A 
 remarkable fact about them is that in about 130 different 
 species (out of the 500 known) it has been found that the 
 males are diminutive creatures, about one-tenth the size 
 of the females, and devoid of digestive canal ; in fact, little 
 more than minute swimming sacs full of spermatozoa. 
 In one group, that of the crawling Rotifers, to which the 
 common wheel animalcule, figured in the last chapter, 
 belongs, no male at all has ever been discovered. They 
 are all females. They are precisely those wheel animal- 
 cules which are known to microscopists for their power of 
 surviving (like the little water-bears or tardigrades and 
 some other minute animalcules) the desiccation, or 
 " drying-up " of the water in which they were living, 
 swimming, and crawling (see Chapters XV. and XVI.). 
 And it is quite probable that this power of resistance 
 to the adverse conditions of changing seasons has, in 
 the crawling Rotifers, taken the place of the produc- 
 tion of eggs fertilized by a male. For, as in the case 
 of the crustacean water-fleas (and of the terrestrial 
 plant-lice, or aphides and gall-flies), it is found that the 
 female Rotifers or wheel animalcules, which hatch from 
 
 fertilized eggs, are themselves " parthenogenetic," and lay 
 165
 
 1 66 SECRETS OF EARTH AND SEA 
 
 eggs which develop without fertilization by males that 
 is to say, are " impaternate." In the case of the water-fleas 
 these are called " summer eggs," and after one or more 
 generations of such fatherless females a proportion of 
 males are produced which fertilize the females hatched 
 at the same period. The eggs so fertilized acquire a 
 thick shell and are called " winter eggs." They remain 
 dormant for some months and resist the injurious in- 
 fluences of winter cold, or, it may be, of drying up and 
 conversion of the pond-mud into dust, but hatch out when 
 warmer and wetter conditions return. 
 
 This, however, is just what the adult crawling kind 
 of Rotifer can do in the full-grown state by drawing 
 up her body into the shape of a ball and exuding 
 a jelly-like or horny coat. So that she has no need 
 of " winter eggs," and the whole process of forming 
 them and of males to impregnate them has "dropped 
 out" of the life-history of this special kind of resist- 
 ant Rotifers. The minute insignificant males and the 
 eventual disappearance of males altogether in some races 
 is a subject which may well occupy the attention of 
 our human "suffragettes." That the males are minute 
 creatures, less than the thousandth part of the size of the 
 females, is a fact also ascertained in the case of some 
 curious marine worms (called Bonellia and Hamingia). 
 The only other instance of such degradation of the male 
 sex is in some of the barnacles (discovered by Darwin), in 
 which the big individuals are of double sex (hermaphrodite). 
 Adhering to the shells of these are found minute dot-like 
 "supplemental males." It is to be observed that these 
 are instances where the inferiority of the male is an 
 obvious measurable fact. In the mammals, the group of 
 vertebrate animals to which man belongs, the male 
 possesses measurably greater activity and size than does 
 the female, and is provided with more powerful natural
 
 MORE ABOUT WHEEL ANIMALCULES 167 
 
 weapons, such as teeth and horns. He entirely dominates 
 and controls the female, or a whole company of females, 
 and in no case is there equality of the sexes, or any 
 approach to it, still less inferiority of the male. It is, 
 perhaps, a question whether "by taking thought" this 
 natural inferiority of the mammalian female can be 
 changed. 
 
 The survival of Rotifers, especially of a pink-coloured 
 species (called Philodina roseola), after long drying or 
 " desiccation," has been experimentally studied. It is 
 found that if the water in which some are swimming is 
 placed in a watch-glass and allowed to dry up rapidly 
 the Rotifers are killed, none reappear when after a few 
 hours fresh water is poured into the watch-glass. But if 
 a few grains of sand or particles of moss are present from 
 the first in the water the final drying up takes place more 
 slowly and the Rotifers find their way between the shelter- 
 ing fragments, where the water remains long enough to 
 give them time to form a little gelatinous case, each for 
 itself. When thus encased they survive, motionless, for 
 months. The experiment has often been made, and is 
 not in doubt. According to trustworthy statements, 
 Philodina can thus survive even for so long as five years. 
 The processes of life are arrested, but the drying has not 
 proceeded to the extent which is called chemical drying 
 or dehydration. The tiny Rotifers are still of soft con- 
 sistence : the protoplasm is not chemically destroyed. 
 When one is watched with the microscope as water is 
 allowed to flow round it after several months of dust- 
 like aridity, it is seen to emerge from its protective case 
 and at once to commence swimming and searching for 
 food by means of the currents directed towards its mouth 
 by its so-called " wheel-apparatus." I may just say that 
 in the case of the slime-mould called " flowers of tan " the 
 protoplasm dries to the consistency of hard wax, and I
 
 1 68 SECRETS OF EARTH AND SEA 
 
 have kept it for years in that state and then revived it 
 by moisture into full activity and growth. I used also at 
 one time to keep in my laboratory a supply of the dried 
 yellow lichen from apple-trees, in which one could always 
 rely upon finding the animalcules called "Macrobiotus " 
 or " water- bears" ready to be revived from a desiccated 
 condition, after three or four years passed in that condition. 
 Many of the Rotifers carry their eggs when ripe 
 extruded from the body in two bunches or clusters, as is 
 the habit also of the little microscopic shrimps known as 
 Cyclops. There is a whole group of Rotifiers which fix 
 themselves by the tail, when full grown, to some solid 
 support. Each then forms a protective tube or case 
 around itself, from the mouth of which it puts forth its 
 wheel-apparatus and into which it can retire for pro- 
 tection. Some of the largest and most beautiful of the 
 wheel animalcules belong to this group of fixed or 
 sedentary Rotifers. The crown animalcule (Stephano- 
 ceros) is one of these, having what are discs edged with 
 vibrating hairs in the common Rotifer here drawn out 
 into a circlet of tapering lobes like the points of a 
 coronet (Fig. 37 (bis\ B). Another is the floscule 
 (Floscularia), in which the wheel-apparatus has the form 
 of five knobs arranged on a pentagonal disc around 
 the mouth (A in same figure). Each knob has a 
 bundle of excessively fine, long, stiff, motionless hairs 
 spreading out from it ready to entangle food particles 
 which may drift into contact with them. I used to find 
 the stems of the fresh-water polyp (Cordylophora) of 
 Victoria Dock a sure source of supply of these fine little 
 creatures. When seen under the microscope as brightly 
 illuminated glassy florets on a black ground (by what is 
 called "dark ground illumination") their strange delicacy 
 and beauty cannot be surpassed. A rare species of 
 floscule (which I have never seen) has extra-long and fine
 
 MORE ABOUT WHEEL ANIMALCULES 169 
 
 filaments, each of which shows a fine streaming current 
 in its substance, and is, in fact, a naked filament of living 
 protoplasm like one of the ray-like filaments of the sun- 
 animalcules. 
 
 The most curious of the tube-building Rotifers are those 
 which form their tubes of little, equal-sized pellets of solid 
 
 FIG. 37 (6is). Three tube-building wheel animalcules. A, Floscularia 
 campanulata. B, Stephanoceros Eichhornii. C, Melicerta ringens. 
 
 matter a~s it were, " bricks " which they first form by com- 
 pacting fine particles in a special pit on the head and then 
 build them up and cement them together in rows to form the 
 tube, adding row after row as the animal itself increases in 
 length (Fig. 37 (bis), C). These are known as Melicerta ; 
 and, though some kinds use any minute particles to make 
 their bricks, one kind is frequent which uses its own
 
 1 70 SECRETS OF EARTH AND SEA 
 
 excrement for this purpose. By feeding the little creatures 
 first with food coloured with carmine and then with blue- 
 stained material, one can obtain alternate rows of pink 
 and blue pellets, carefully manufactured and laid in posi- 
 tion to build up the growing length of tube. Melicerta 
 has certainly an extraordinary and economical way of dis- 
 posing of that refuse which we larger creatures carefully 
 remove from our habitations and should be very unwilling 
 to employ as building materal. The individuals of one 
 rare and interesting kind of the tube-builders, after swim- 
 ming freely in the youngest stage, settle down together and 
 form their gelatinous transparent tubes side by side, to the 
 number of fifty or more, in such a way as to produce a 
 perfect sphere, a twentieth of an inch or more in diameter, 
 built up of fused jelly-like tubes radiating from a common 
 centre. The inhabitant of each tube is quite separate 
 from and independent of his neighbours, but they all 
 protude their vibrating wheel-apparatus simultaneously, 
 and cause the glass-like ball to rotate and travel through 
 the water. Many years ago I found this beautiful little 
 thing in a small moss-pool (not more than 3 ft. wide), 
 high up the sloping-side of the north-west section of 
 Hampstead heath, above the " Leg of Mutton Pond." 
 The well-meant care of the public guardians of the heath 
 has now drained this region, and my little moss-pools and 
 the "bog," in which grew the Drosera, or Sun-dew, and the 
 Bog-bean and such plants, have gone for ever. But we 
 must console ourselves with the fact that the same pro- 
 gressive expansion of the great city has given us electric 
 railways, tubes, and tramways by which we can go farther 
 afield than Hampstead in a few minutes, and still find 
 moss-pools and the undisturbed glories of ancient swamps 
 and bog-land. 
 
 Many of the Rotifers have a pair of ruby-red eyes, and 
 in some of them there is a minute crystalline lens over-
 
 MORE ABOUT WHEEL ANIMALCULES 171 
 
 lying the red sensitive spot, which receives the fibres of 
 the optic nerve coming from the brain one on each side. 
 It is almost incredible that so minute a creature often 
 only the one-fiftieth of an inch long when full grown 
 should have a nervous system and special organs of touch 
 (sensory hairs) as well as eyes, and on the other hand 
 muscles running from one attachment to another and 
 called into activity by nerves connected with this same 
 central brain. The pair of branched tubes, which end 
 internally in flickering " flame-cells " and open externally 
 far back at the vent, are kidneys. Similar tubes called 
 " nephridia " or little kidneys are found in many of the 
 smaller animals; the earthworm has a pair in each ring 
 of its body. 
 
 There is little doubt that the wheel animalcules are 
 related in pedigree to the primitive ancestors of the 
 marine segmented or annulate worms, which also gave 
 rise to the ringed leg-bearing jaw-footed creatures with 
 hard skin, called Crustacea, Arachnids and Insects (the 
 Arthropods). The wheel-apparatus or cilia-fringed discs 
 of the Rotifer is seen in the young stages of many marine 
 worms, and also in the young of marine snails, known as 
 the " veliger " " velum " or " sail " being the name given 
 to the wheel-apparatus of the young snails (see the 
 drawing on p. 181). There are very minute marine 
 annulate or segmented worms (Dinophilus and others), 
 which come near to the Rotifers in many features, 
 whilst the ringed or segmented character of the body is 
 obvious in the common wheel animalcule. 
 
 The Rotifers are so small that they are built up of very 
 few " cells " or nucleated units of protoplasm. Many of 
 them are of smaller size than some of the big infusorian 
 animalcules, which consist of a single cell. The Rotifers 
 are probably a dwindled pygmy race descended from 
 ancestors of ten or a hundred times their linear measure-
 
 172 SECRETS OF EARTH AND SEA 
 
 merit It is an important fact that in the possession of a 
 toothed gizzard, in the hard body-case or cuirass of some 
 kinds, and in Pedalion's rapidly-moving legs or paddles, 
 fringed with plumose hairs and moved by that peculiar 
 variety of muscular tissue which is called "striped 
 muscular tissue," the wheel animalcules give evidence of 
 relationship to the Crustacea that is to say, it appears 
 to be probable that they were derived from the common 
 ancestor of marine worms and Crustacea before those two 
 lines of descent had diverged. 
 
 Rotifera or wheel animalcules are found all over the 
 world, in the tropics, the temperate zones, the Arctic and 
 Antarctic, and many species have a world-wide distri- 
 bution. They occur in fresh waters and in the sea, in 
 great lakes, in gutters which dry up, in pools in the polar 
 regions and on high mountains which are solid ice for the 
 greater part of the year. A few are parasitic, some living 
 on the legs of minute Crustacea. One which I discovered 
 in 1868 in the Channel Islands lives in crowds on the skin 
 of a remarkable sea-worm (Synapta), which burrows in 
 the sand, exposed at low tide. It holds on (as I found 
 and figured) by a true sucker, which replaces the forked 
 tail of other commoner Rotifers. It was named " Dis- 
 copus " by Zelinka, who searched for it in consequence of 
 my description, and gave a very detailed account of it. 
 Others are parasitic inside earthworms, and one is found 
 inside the globe animalcule Volvox ! Another causes the 
 growth of warts or " galls " in a curious kind of Alga 
 called Vaucheria.
 
 CHAPTER XV 
 SUSPENDED ANIMATION 
 
 OUR leading newspapers, with rare exceptions, never 
 report the discoveries announced at our scientific 
 societies. But they often seek to astonish their 
 readers with silly stories of monsters said to have been 
 seen in tropical forests, ghostly "manifestations" and 
 such rubbish transmitted to them at a high price by 
 crafty " newsmongers," and do much harm to themselves 
 and to the public thereby. On the other hand, foreign 
 newspapers do occasionally report the proceedings of 
 their local Academies and then " our own correspondent " 
 telegraphs to London with a flourish, a confused report 
 of what he has read and ignorantly imagines to be " a 
 startling discovery " because he knows nothing whatever 
 of the subject. Thus shortly before the recent war 
 the confirmation by a French experimenter of the fact, 
 long since demonstrated, that the seeds of plants can 
 survive exposure to very low temperature, was announced 
 with ridiculous emphasis by one of these " fat boys " of 
 journalism pour epater le bourgeois. 
 
 A temperature very near to that of the total absence 
 of that molecular movement or vibration which we call 
 " heat," can now be attained by the use of liquid hydrogen, 
 which enables us, by its evaporation, to come within a 
 few degrees (actually three !) of that condition known 
 as the "absolute zero." We divide into one hundred 
 
 equal steps or degrees the column of liquid (mercury, 
 173
 
 174 SECRETS OF EARTH AND SEA 
 
 spirit, or other liquid) of a thermometer as it expands 
 from the shrunken bulk which it occupies when placed 
 in freezing water to the full length which it attains when 
 the water is heated to boiling point. This is called the 
 centigrade scale, or scale of a hundred degrees. But, 
 as we know by the records of travellers in the Arctic 
 regions and by the experiments made in laboratories, 
 there are " degrees " of coldness or diminution of heat 
 which are much below that of freezing water, and can 
 be measured by the further shrinking of the column of 
 liquid in the thermometer, so that we record " degrees " 
 " below zero centigrade," each of the same length as 
 those above it and corresponding to the same " quantum " 
 of decrease or increment of heat. As we pass from the 
 temperature at which water is solid to that much lower 
 or diminished state of hotness at which mercury becomes 
 solid, the shrinking column of the thermometer (in which 
 a liquid is used not rendered solid by this amount of 
 cooling) falls through 39 degrees of the centigrade size, 
 so that we say that mercury freezes at minus 39 or at 
 39 degrees below zero of the centigrade scale. The con- 
 clusion has now been reached that the absolute zero or 
 cessation of all heat in a body is represented by a fall 
 of no less than 273 degrees below zero on the centigrade 
 scale. Hydrogen gas becomes a liquid at 252 degrees 
 below zero centigrade, and a solid at 264 degrees. If we 
 start our counting of those degrees or increments of heat, 
 of which there are 100 between the freezing and boiling 
 points of water, at the absolute zero or condition of total 
 absence of heat, we must say that hydrogen " melts " 
 that is, passes from the solid to the liquid state at 
 II degrees (absolute), and boils at about 20 degrees 
 (absolute), whilst water does not melt until 273 degrees 
 (absolute) of temperature are reached, and boils at 
 373 degrees above the absolute zero.
 
 SUSPENDED ANIMATION 175 
 
 It is the fact that, from the year 1860 onward, 
 numerous observers have experimented on the influence 
 of very low temperatures upon seeds, and have uniformly 
 shown that the power of germination and healthy growth 
 of the seeds is not destroyed by exposure to very low 
 temperatures. The celebrated Swiss botanist, De Candolle, 
 published the first careful observations on this subject 
 in conjunction with Raoul Pictet, who had devised an 
 apparatus for producing exceedingly low temperatures. 
 Pictet in 1893 exposed various bacteria and also seeds 
 to a temperature of nearly 200 degrees below zero centi- 
 grade without injury to them. They "resumed" their 
 life when gradually restored to the normal temperature. 
 Pictet concluded that since all chemical action of the 
 kind which goes on in living things requires a certain 
 degree of temperature for its occurrence, and that this is 
 demonstrably considerably higher than minus 100 degrees 
 centigrade, we must suppose that all chemical action in 
 living things (as in nearly all other bodies) is annihilated 
 at 100 degrees below zero centigrade. Accordingly he 
 maintained that what we call " life," or " living," is a 
 manifestation of chemical forces similar to those shown 
 in other natural bodies, and liable to interruption and 
 resumption by the operation of unfavourable or favourable 
 conditions as are other chemical processes. In 1897, 
 Mr. Horace Brown and Mr. F. Escombe published, in 
 the Proceedings of the Royal Society of London, an 
 account of experiments in which they exposed seeds of 
 twelve plants belonging to widely different natural orders 
 to a temperature varying from 183 degrees to 192 degrees 
 below zero centigrade for a period of no consecutive 
 hours (about four days and a half). As a result the 
 germinative powers of the seeds showed no appreciable 
 difference from that of seed not subjected to cold, and 
 they produced healthy plants. The low temperature was
 
 176 SECRETS OF EARTH AND SEA 
 
 obtained by the use of liquid air in a vacuum-jacketed 
 flask (like the well-known " thermos " flasks), into which 
 the seeds were introduced in thin glass tubes. Professor 
 M'Kendrick had previously shown that the putrescence 
 of meat, blood and milk by bacteria infesting them was 
 temporarily arrested, but not permanently so, by expos- 
 ing those substances for one hour to a temperature of 
 182 degrees below zero centigrade. It appeared that 
 the putrefactive bacteria present in those substances were 
 not destroyed by that degree of cold, but returned to 
 a state of activity when the normal temperature was 
 restored. Professor M'Kendrick also showed that seeds 
 would germinate after exposure to like treatment. 
 
 All this is ancient history, twenty years and more in 
 the past. The experiments of a French observer, men- 
 tioned at the beginning of this chapter as foolishly 
 trumpeted in a London paper, were of service as con- 
 firming the extensive and careful work of his predecessors. 
 It is only when our old well-bottled discoveries have, 
 however tardily, been brought before the Paris Academy 
 of Sciences and sent back to us by the Paris correspondents 
 of news agencies as " startling novelties " and " amazing 
 discoveries" (twenty years old), that any attempt is made 
 to mention them in the London daily Press. And then 
 they are announced without any reference to their true 
 history. This habit of culling stale morsels of information 
 from the proceedings of foreign academies points to the 
 fact that there is incompetence both in the purveyor and 
 publisher of such scraps. If our newspaper editors must 
 publish scraps about scientific novelties, they should 
 employ educated assistants to see that they do not 
 make themselves ridiculous. The scraps which come 
 round to our newspapers from Paris are usually plagiarized 
 from a French newspaper by some one who has a very 
 imperfect knowledge of the subject to which they refer,
 
 SUSPENDED ANIMATION 177 
 
 and adds his own blunders to those of the original 
 reporter. 
 
 The action of extreme cold in arresting life in such 
 minute organisms as plant seeds and bacteria without 
 destroying the possibility of the resumption of those 
 chemical and physical changes when warmth is restored, 
 is dependent on the fact that those chemical changes 
 can only proceed in and by the aid of liquid water. 
 When thoroughly frozen the chemical constituents of 
 minute organisms and seeds which until frozen were 
 living and undergoing continuous, though perhaps slow, 
 change become solid, and can no longer act on one 
 another or be acted on by surrounding chemical bodies 
 equally reduced in temperature. They may be compared 
 to the solid dry constituents of a Seidlitz powder one 
 an acid, the other a carbonate. So long as they are 
 dry they remain when mixed and shaken together 
 inert, without action on one another. Even if one is 
 dissolved in water and then frozen solid and mixed in 
 a powdered state with the other at an equally low 
 temperature the mixture remains dry and inert. Nothing 
 happens so long as the low temperature is maintained. 
 But if we raise the temperature above the freezing-point 
 so as to liquefy the solution chemical action will 
 immediately ensue. With much fizzing and escape of 
 gas the two chemicals will unite. The effect of cold on 
 living matter is of this nature. It is a real "suspension" 
 of the changes which were however slowly and quietly 
 going on before complete solidification of the protoplasm 
 by freezing. A frozen seed and frozen bacteria are in 
 a state of " suspended animation." 
 
 It is not the fact that absolutely all chemical union 
 and change whatsoever is prevented that is to say, 
 arrested or suspended by extreme cold, although the 
 union with oxygen and other such changes of the essential
 
 1 78 SECRETS OF EARTH AND SEA 
 
 material of living things, which we call "protoplasm," 
 and most other chemical changes are thus arrested or 
 suspended. The most striking exception is that of the 
 most active of all elements, the gas fluorine, which 
 becomes a liquid at 210 degrees below zero centigrade, 
 and in that condition attacks turpentine if brought into 
 contact with it at the same low temperature with ex- 
 plosive force. Even solid fluorine combines with liquid 
 hydrogen with violent explosion. It seems certain, how- 
 ever, that elements or chemical compounds brought into 
 the solid (not merely liquid) condition by extreme cold 
 cannot act chemically upon other bodies in the same solid 
 condition, even when they would at normal temperatures 
 so act with the greatest readiness, because they are then 
 either liquid or gaseous. 
 
 The conception of an arrest of the changes in 
 organisms, which we call life, followed by their re- 
 sumption after a greater or less interval of suspense, 
 was long ago suggested and discussed before we had 
 knowledge of the action of low temperatures. The 
 winter-sleep of some animals and the " comatose " con- 
 dition sometimes exhibited by human beings had led to 
 the notion of " suspended animation." But a careful study 
 of hybernating animals and of human instances of pro- 
 longed "coma" satisfied physiologists nearly 100 years 
 ago that the processes of life the beating of the heart 
 and the respiration were not actually and absolutely 
 suspended in these cases, but reduced to a minimum. The 
 chemical processes connected with life were still very 
 slowly carried on. 
 
 Again, a great deal of interest and discussion was 
 excited in the last century by the drying up of delicate 
 yet complex aquatic animalcules, such as the Rotifers 
 (the wheel animalcules described in our last chapter) 
 and Tardigrades (bear animalcules), and the fact that
 
 SUSPENDED ANIMATION 179 
 
 after their preservation as mere dust for many months 
 dried on a glass-slip they could be revived and made to 
 return to life by wetting them with a minute drop of 
 water, whilst the whole process of revival was watched 
 under the microscope. Letters were published in the 
 " Times " in the " fifties " by the Rev. Lord Sydney 
 Godolphin Osborn, describing his observations and ex- 
 periments on these animalcules. 
 
 The yellow slime-fungus called "flowers of tan," after 
 creeping as a naked network of protoplasm over the 
 "spent tan," thrown out from tan-pits, will in dry 
 weather gather itself into little knobs, each of which is 
 as hard and brittle as a piece of sealing-wax. Yet (as 
 I have repeatedly experienced in using material given 
 to me by the great botanist, de Bary) a fragment of one 
 of these hard pieces, if carefully guarded in a dry pill-box 
 for two or three years, will when placed on a film of water 
 at summer-heat gradually absorb moisture and expand 
 itself into threads of creeping, flowing protoplasm, nourish 
 itself, and grow and reproduce. It was formerly suggested 
 in regard to these cases of resuscitation after drying, as 
 also in the case of seeds which germinate after being kept 
 in a dry condition for many years, that really they were 
 not thoroughly dried, but were sufficiently moist to allow 
 of very slow oxidation and gas exchange, which it was 
 said was so small in amount as to escape observation. 
 There was a plausible comparison of the condition of 
 these dried organisms to that of hybernating mammals, 
 desiccated snails, and comatose men. It was held that 
 here, too, the life-processes were not absolutely arrested, 
 but reduced to an imperceptible minimum. 
 
 This view of the matter was connected, no doubt, 
 with a traditional assumption that life was an entity an 
 " anima animans " which entered a living body, kept it 
 continually " going " or " living," and if driven out from
 
 i8o SECRETS OF EARTH AND SEA 
 
 it could not return. Curiously enough, Mr. Herbert 
 Spencer seems to have been (perhaps unconsciously) 
 affected by this traditional view, since he defined life as " the 
 continuous " that is the important word " adaptation 
 of internal to external relations." This definition pre- 
 judiced the view of some distinguished physiologists on 
 the question of " suspended animation," and I remember 
 a very warm dinner-table discussion with Michael Foster 
 and other friends, some twenty-five years ago, when I 
 put forward the view that so long as the intimate 
 structure in fact, the chemical structure of the proto- 
 plasm of a living thing is not destroyed, it does not 
 " die " though all chemical change in it may be arrested. 
 I compared the dried seed and dried animalcule as I 
 would now compare the frozen seed and the frozen 
 bacteria to a well wound watch which is stopped by 
 the intrusion of a needle between the spokes of its balance 
 wheel, or, better, by the cooling on the wheel of a tiny 
 drop of soft wax so as to clog it. The works of the 
 watch are rendered absolutely motionless, but it is not 
 " dead." As soon as the needle is removed or the tiny 
 speck of wax melted by a gentle warmth it resumes its 
 movement. It is, as we say, " alive again." So, too, 
 the frozen or dried organism is absolutely motionless. 
 No chemical movements can go on in it. They are 
 stopped by the solidity set up by freezing, or in the case 
 of simple "desiccation," by the absence of the moisture 
 necessary for bringing the chemical molecules into contact. 
 If protected from destructive agents, the mechanism 
 remains perfect for just so many years or centuries as 
 that protection lasts. Whenever the frozen organism 
 thaws or the dried organism becomes wet, the life- 
 processes are resumed, the seed germinates, the bacteria 
 grow and multiply. 
 
 Thus we see what are some of the points of interest
 
 SUSPENDED ANIMATION 181 
 
 and importance raised by the old experiments of Pictet, 
 M'Kendrick, and Horace Brown, the results of which were 
 the same as those announced as Parisian novelties. I 
 have yet to say a few words as to the reason why we 
 cannot produce " suspended animation " in higher or- 
 ganisms or in man by the application to them of extreme 
 cold. Further, the influence of extreme cold on the 
 possible passage, through space, of living germs from 
 other worlds to this earth a possibility suggested by 
 the late Lord Kelvin requires some consideration in 
 connection with the striking experiments with phosphor- 
 escent bacteria described ten years ago by Sir James 
 Dewar. 
 
 Young stages of growth or Veliger larvae of marine snails, 
 showing the ciliated band or velum which is identical 
 with the wheel apparatus of the Rotifers or Wheel 
 animalcules.
 
 CHAPTER XVI 
 MORE ABOUT SUSPENDED ANIMATION 
 
 I GAVE some account in the last chapter of the 
 experiments made within the last twenty years, 
 which have shown that, in certain very simple 
 organisms and in seeds, all chemical change can be stopped 
 by the application to them of methods of freezing. The 
 continuous changes which go on in these living things 
 under ordinary circumstances are arrested by the solidifica- 
 tion of what was more or less " moist " material. Water 
 in the liquid state, though it may be in extremely minute 
 quantity, is necessary for the chemical combinations and 
 decompositions which go on in living things. Hence not 
 only the solidification of all moisture, in or having access 
 to the living bodies experimented on, arrests those 
 chemical combinations and decompositions, but very 
 thorough drying also has this result. Yet either on 
 thawing the frozen liquid or supplying moisture to the 
 " dried up " organism, the previously continuous chemical 
 and physical changes are resumed as though no arrest or 
 suspension of them had occurred. No limit is known to 
 the length of time during which this arrest may be 
 continued, and yet a resumption of living changes occur 
 when the cause of arrest namely, either solidification by 
 cold or else dryness is removed. The apparatus the 
 exact structure and the exact chemical materials of the 
 seeds or the bacteria remains uninjured and unchanged 
 by either freezing or drying carefully applied. It is, of
 
 MORE ABOUT SUSPENDED ANIMATION 183 
 
 course, impossible to guarantee that no accident, no 
 unforeseen change in the surroundings, shall take place 
 and destroy in one way or another the experiment. But 
 the arrest of all change, such as goes on in life, has been, 
 in many experiments, maintained under careful supervision 
 and protection for several months, and yet life has been 
 resumed when the cause arresting chemical change has 
 been removed. The presumption, then, is in favour of 
 the possibility of the arrest being maintained for an un- 
 limited period, and yet at any time being resumed when 
 the arresting cause (cold or dryness) is removed. 
 
 Before what we may call " the suspensory action " of 
 very low temperatures had become generally known, the 
 question occurred as to whether seeds kept in a dry 
 condition for several months, or even years, and yet 
 capable of germination when placed in moist earth, are 
 during their dry condition undergoing any chemical 
 changes. The matter presented itself in this way. 
 The dry seeds can germinate when sown, therefore 
 they are not dead, but living. According to various 
 physiologists and philosophers (e.g., Herbert Spencer), 
 life is a continuous adjustment of internal to external 
 relations. Burden Sanderson, the Oxford professor of 
 Physiology, declared that "life is a state of ceaseless 
 change." If this is a correct conception, and if by " living " 
 we mean, as the great Oxford English Dictionary tells 
 us, " manifesting the property called life," then the seeds 
 which, though dry, are still " living " or " alive " or 
 " endowed with life," should yield some evidence of the 
 "ceaseless change" (by which is meant chemical change) 
 of which, as things not dead but living, they are supposed 
 to be the seat. The late Dr. George Romanes published 
 in 1893 some experiments on this matter. We know that 
 free oxygen is very generally (though not universally) 
 necessary for the continual chemical changes which the
 
 1 84 SECRETS OF EARTH AND SEA 
 
 minutest as well as the largest plants and animals carry 
 on. Romanes enclosed a quantity of dry seeds in glass 
 tubes, from which he pumped out all gas as completely 
 as possible that is to say, all except one-millionth of 
 the original volume. He also expelled all oxygen by 
 replacing it by other gases. As a result of this treatment, 
 continued for as much as fifteen months, he found that 
 neither a high vacuum nor subsequent exposure for twelve 
 months in separate instances to oxygen or to hydrogen, 
 or nitrogen, or carbon monoxide, or carbon dioxide, or 
 hydrogen sulphide, or the vapour of ether or of chloroform, 
 had any effect on the subsequent germinative power of the 
 seeds employed. These experiments proved that anything 
 like respiration by ordinary gaseous exchange with the 
 atmosphere was not going on in the seeds, and that if 
 they are the seat of " ceaseless change " because not dead, 
 the changes must be chemical interactions of some kind 
 or other within their protoplasm. 
 
 The keeping of seeds and also of bacteria for days and 
 even months at temperatures as low as 100 degrees below 
 zero centigrade and their subsequent resumption of life, 
 has removed the possibility (not excluded by Romanes) 
 of the occurrence of chemical interactions within the 
 substance of these organisms preserved during long 
 periods of time, and yet not ceasing to be what is ordinarily 
 called " alive," or endowed with " life." It is time that we 
 should definitely abandon Herbert Spencer's and Burdon 
 Sanderson's definitions or verbal characterizations of 
 " life." The word " life " is commonly and properly used 
 to designate the condition of a "living thing" or a thing 
 which is "alive." A thing which has lost life that is, 
 which was living, but is so no more, and cannot be 
 " restored to life " or resuscitated is, in correct English, 
 said to have " died," or to be " dead." The motionless, 
 unchanging frozen seed or bacterium, which resumes its
 
 MORE ABOUT SUSPENDED ANIMATION 185 
 
 living activities when carefully thawed, has not " died." 
 The mere fact that it can be resuscitated justifies the 
 application to it, according to correct English usage, of 
 the word "alive" it is still "alive." It is not possible to 
 alter the significance of the words " life," " living " and 
 " alive," so as to retain the definitions of Herbert Spencer 
 and Burdon Sanderson as correct. They are incorrect. 
 Life is not continuous or ceaseless change. It is a property 
 of the more active substance of plants and animals which 
 has special structure and definite chemical constituents. 
 The property is, no doubt, usually manifested under 
 normal conditions of temperature, light, moisture, pres- 
 sure, chemical and electrical surroundings in a continuous 
 series of changes, both chemical and physical. But at 
 exceptionally low temperature, and in other arresting 
 circumstances these changes can, in a few exceptional 
 organisms, be absolutely stopped, though the organism 
 in which the changes cease is uninjured as a mechanism. 
 It still possesses "the property of life" is still "alive" 
 although motionless and unchanging. Its life is in 
 suspense, as is that of a clock with arrested pendulum. 
 
 The unjustified conception of "life," or "living," or 
 being " alive," and not dead, as necessarily a state of 
 incessant chemical and other change, is bound up with the 
 old fancy that life is not to be considered as a state or 
 motion of a special and complex structure called proto- 
 plasm, but is a thing, a spirit or an essence, which takes 
 possession of organic bodies and makes them "live." 
 According to Sir Oliver Lodge, if chemists could build up 
 the chemical materials which constitute protoplasm, the 
 protoplasm so made by them would not live. It would 
 (he stated at the meeting of the British Association in 
 Birmingham in 1912) have to receive a charge or infusion, 
 as it were, of this thing suggested by the word " life." It 
 cannot live itself (according to the suppositions of Sir '
 
 1 86 SECRETS OF EARTH AND SEA 
 
 Oliver), but serves as the vehicle, the receptacle, for this 
 supposed intangible entity " life." In the same imaginative 
 vein, our grandfathers used to say that heat was due to 
 the entity or " fairy " " caloric " which could be enticed 
 into or driven from material bodies, making them " hot " 
 by its presence and cold by its greater or less exclusion. 
 The suspended animation of frozen germs and their return 
 to life when warmed could thus be represented as an 
 affection or affinity between the fairy " Vitalis " and the 
 fairy " Caloric," the former fleeing from the body and 
 waiting near when the latter deserts his place, but returning 
 to happy union with " Caloric " when he again, however 
 feebly, pervades once more the vehicle provided for 
 " Vitalis." Such imaginary essences are not of any 
 assistance to us in arriving at a knowledge of the facts, 
 and so far from helping us to a comprehension of the 
 ultimate nature of things (which we have no reason to 
 suppose that it is possible for us to attain) their intro- 
 duction tends to the substitution of imaginary causes 
 and unverified assumptions for the carefully-tested and 
 demonstrated conclusions of science. 
 
 In 1871 Lord Kelvin, when president of the British 
 Association, suggested that the origin of life as we know 
 it may have been extra-terrestrial, and due to the " moss- 
 grown fragments from the ruins of another world," which 
 reached the earth as meteorites. It \vas objected to this 
 that the extreme cold very near to the absolute zero 
 which prevails in interstellar space would be fatal to all 
 germs of life carried by such meteoric stones. But twenty 
 years later Sir James Dewar showed that this objection 
 did not hold, since at any rate some forms of life certain 
 bacteria could survive an exposure of several days to a 
 temperature approaching the absolute zero. Later Sir 
 James made some very striking experiments by exposing 
 cultivations of phosphorescent bacteria to the temperature
 
 MORE ABOUT SUSPENDED ANIMATION 187 
 
 of liquid hydrogen (252 degrees below zero centigrade). 
 These bacteria may be obtained by selective cultivation 
 from sea-water taken on the coast, in which a few are 
 always scattered. A rich growth of these bacteria in 
 gelatine broth gives off a brilliant greenish light when 
 shaken with atmospheric air or otherwise exposed to 
 oxygen. The light is so intense that a glass flask holding 
 a pint of the cultivation gives off sufficient light to enable 
 one to read in an otherwise dark room. The emission of 
 light is dependent on the chemical activity of the living 
 bacteria in the presence of oxygen. In the absence of 
 free oxygen they cease to be luminous. As soon as they 
 are killed the light ceases. When they are frozen solid 
 the light ceases, even in the presence of free oxygen gas. 
 When a film consisting of such a culture is frozen solid it 
 will remain inactive if the low temperature be maintained 
 for months, though exposed to free oxygen gas, and then, 
 as soon as it is liquefied by a gentle rise in temperature, 
 the active changes recommence, and the phosphorescent 
 light beams forth. Sir James Dewar exposed such films 
 to the low temperature of liquid hydrogen for (so far as I 
 remember) six months, and obtained from them at once 
 the evidence of their living chemical activity, namely, their 
 " phosphorescence," as soon as they were thawed. In the 
 frozen state, at a temperature of minus 250 degrees centi- 
 grade, nothing, it appeared, could injure these phosphor- 
 escent bacteria. No chemical can " get at them " at that 
 temperature, the most biting acid, the most caustic alkali 
 cannot touch them when, like them, it is in a hard, solid 
 condition. Powdering the film by mechanical pressure 
 has no effect on the bacteria. They are too small to be 
 crushed by any mill. Such germs would, it seemed, surely 
 be able to travel through interstellar space, as suggested 
 by Kelvin. 
 
 Then it occurred to Sir James that light the strangely
 
 1 88 SECRETS OF EARTH AND SEA 
 
 active ultra-violet rays of light might be able to disinte- 
 grate and destroy the bacteria, even when frozen solid at 
 the lowest temperature. He exposed his frozen cultures 
 to strong light, excluding any heat-giving rays, and found 
 that the bacteria no longer recovered when subsequently 
 the culture was thawed. Light, certain rays of light, can, 
 it thus appears, penetrate and cause destructive vibrations 
 in chemical bodies protected from all other disintegrating 
 agencies by the solidity conferred by extreme cold. I am 
 not able to say, at the moment, how far this important 
 matter has been pursued by further experiment, nor 
 whether what are called the " chemically active " rays of 
 light and other rays such as the Rontgen rays can effect 
 chemical change in other bodies (besides living germs), 
 upon which they act at normal temperatures, but in regard 
 to which they might be expected to be inoperative when 
 the bodies in question are brought into the peculiar state 
 of inactivity produced by extreme cold. Since light is far 
 more intense outside our atmosphere than within it, it 
 seemed, at first, that the demonstration of its destructive 
 action on frozen germs puts an end to Kelvin's theory of 
 a meteoric origin of life. It must, however, be remembered 
 that minute living germs could conceivably be protected 
 from the access of light by being embedded in even very 
 small opaque particles of meteoric clay. So Lord 
 Kelvin's suggestion as to the travelling of life on meteoric 
 dust cannot be set aside as involving the supposition of 
 the persistence of life in conditions known to be destruc- 
 tive of it. 
 
 The great interest in former times in relation to 
 " suspended animation " has naturally been in relation to 
 the occurrence of this condition in man and the possibility 
 of producing it in man by this or that treatment. There 
 is no doubt whatever, at the present day, that " death-like " 
 trances, whether occurring naturally or after the adminis-
 
 MORE ABOUT SUSPENDED ANIMATION 189 
 
 tration of drugs, in the case of man and of higher animals, 
 are not due to that complete suspension of living changes 
 which we can produce, as I have here related, in certain 
 lower forms of life. These death-like trances are merely 
 cases of reduction of the living changes to a very low 
 degree. 1 
 
 The bodies of all but the simplest animals and plants 
 are too large and too complex to survive the bursting and 
 disruptive action of extreme cold, due to the unequal 
 distribution of water within them and its irresistible 
 expansion when frozen. Their living mechanism is 
 broken, mechanically destroyed by this expansion. We 
 cannot hope to apply cold to man so as to produce 
 " suspended animation." It is true that experiments are 
 on record in which fish and even frogs have survived 
 enclosure within a solid mass of ice by the freezing of the 
 water in which they were living. But careful experiments 
 are wanting which would demonstrate that these animals 
 were actually frozen through and through, and that either 
 fish or other cold-blooded animals can survive a thorough 
 solidification by freezing of their entire substance. Such 
 survival cannot be pronounced to be impossible, but it has 
 not been demonstrated in any cold-blooded animal even 
 shell-fish or worm or polyp let alone a warm-blooded 
 mammal. It appears that, apart from disruptive effects, 
 the protoplasm of even very minute and simple organisms, 
 such as the Protozoa, does not in all kinds, even if in any, 
 survive exposure to great cold. The toleration of great 
 cold and return to living activity after thorough freezing 
 is, it appears, a special quality attained by the living 
 material of vegetable seeds and by many kinds of bacteria. 
 A similar special toleration of high temperatures, a good 
 deal short of the boiling point, but high enough to kill 
 
 1 See the chapter on "Sleep," in my "Science from an Easy Chair," 
 Methuen, 1909.
 
 190 SECRETS OF EARTH AND SEA 
 
 most plants and animals, is known to characterize certain 
 bacteria and allied Schizophyta found in hot springs. It 
 is a matter of common knowledge that many animals 
 and plants are killed by a temperature (whether too 
 high or too low for them) which allows others to flourish 
 and may be necessary for their life. Minute organisms 
 (flagellate monads) have been cultivated experimentally in 
 a nourishing liquid, the temperature of which was raised 
 daily by one or two degrees until the liquid was so hot 
 that the same species of organism was at once killed by 
 it when abruptly transferred to it from liquid at ordinary 
 summer temperature. 
 
 The true " suspended animation " of many vegetable 
 seeds and of many kinds of bacteria under the influence 
 of cold is not an exhibition of a general property of living 
 things, but is due to a special quality of resistance gradually 
 attained by natural selection of variations a little more 
 tolerant of cold or of drought than are the majority. It is 
 of life-saving value and a cause of survival to the species 
 of plants and bacteria concerned. No doubt there is need 
 of further experiment on the subject of the " killing " or 
 destructive effect exerted by different degrees of diminu- 
 tion of temperature upon the protoplasm of all kinds of 
 organisms, and with the knowledge so obtained we shall 
 be able to frame a conception of the actual mechanical 
 and chemical peculiarities of the protoplasm of those 
 bacteria and of those vegetable seeds which can be exposed 
 to the extreme of cold for many months or for an in- 
 definite period and yet subsequently recover or live again. 
 Probably in order to survive freezing, protoplasm must be, 
 not absolutely dry, but free from all but a minimum of 
 moisture.
 
 CHAPTER XVII 
 THE SWASTIKA 
 
 A GOOD many people have never heard of the 
 Swastika. It is an emblem or device such as is 
 the Cross or the Crescent. Here it is (Fig. 38) 
 in its most simple and most common form. In India it 
 is in common use at the present day, and has been so 
 for ages. It is the emblem of good 
 luck. The name " Swastika," by which 
 it is widely known, is a Sanskrit word 
 meaning " good luck." The word is 
 composed of Su, the equivalent of the 
 Greek eu, signifying "well" or "good," 
 and asti (like the Greek esto], signify- 
 ing " being/'whilst ka is a suffix com- 
 pleting the word as a substantive. 
 The sign or emblem called Swastika 
 must have existed and been largely 
 used in decoration of temples, images, 
 swords, banners, utensils, and personal 
 trinkets of all sorts long before this name was given to it. 
 It has a name in many widely separate languages. It 
 is often referred to by English writers as the fylfot, the 
 gammadion, and the " crux ansata," also as the " croix 
 gamme'e." It is often found more roughly drawn (on 
 pottery or cloth) as shown in Fig. 39. Often the arms of 
 the cross are bent rigidly at right angles as in Fig. 38, 
 but they are often only curved as seen in Fig. 39, C, 
 
 FIG. 38. The swastika 
 in its simplest rectan- 
 gular form. It may 
 turn to the right, as 
 here, or to the left, a 
 less usual thing, but 
 without significance.
 
 X K X 
 
 192 SECRETS OF EARTH AND SEA 
 
 or curled spirally as in B, when it is called an "ogee." 
 The arms of the Swastika are sometimes bent to the 
 right as in Fig. 38, and sometimes to the left as in Fig. 39. 
 This difference does not appear to have any symbolic 
 significance, but to depend on the fancy of the artist. 
 
 In Figs. 40 to 45 a few examples are shown of the 
 Swastika from various places and ages. It was in use 
 in Japan in ancient times, and is still common there and 
 in Korea. In China, where it is called " wan," it was at 
 one time used, when enclosed in a circle, as a character 
 or pictograph to signify the sun. It has been employed 
 in China from time immemorial to mark sacred or 
 
 specially honoured 
 works of art, build- 
 ings, porcelain, 
 pictures, robes, and 
 A B is sometimes tattooed 
 
 FIG. 39. Three simple varieties of the swas- on the hands, arms, 
 tika. A, the normal rectangular B the Qr ^^ ^ j^ 
 ogee variety (with spiral extremities). C, the . 
 curvilinear or "current "variety. it IS Widely used in 
 
 decoration by both 
 
 Buddhists and Brahmins; children have it painted on 
 their shaven heads, and it is introduced in various 
 ceremonies. The gigantic carved footprints of Buddha 
 from an Indian temple drawn in Fig. 40 show several 
 Swastikas on the soles of the feet and on the toes. In 
 the Near East and in Europe the Swastika is no longer 
 in use : it is not, in fact, popularly known. But in ancient 
 and very remote times it was in constant use in these 
 regions, especially by the Mykenaean people and those 
 who came under their influence, and also by the people 
 of the Bronze Age before the use of iron in Europe. 
 Fig. 41 shows a vase of Mykenaean age (about 1200 
 years B.C.) from Cyprus ornamented with Swastikas. 
 Hundreds of terra-cotta " spindle-whorls " like Fig. 42
 
 THE SWASTIKA 
 
 193 
 
 were found by Schliemann in excavating Hissarlik and 
 the site of ancient Troy, and some of them date from 
 3000 B.C. in layers of different ages. The vase on which 
 is painted the ornament shown in Fig. 43 is from Bceotia, 
 and belongs to the same early period the " Mykenaean " 
 or " yEgaean " before that of the Hellenes. It still 
 
 FIG. 40. Footprint of the Buddha, from an ancient Indian carving, 
 showing several swastikas. (Fergusson and Schliemann.) 
 
 survives in the pottery of the Dipylon period (circa 
 800 B.C.), as is seen in the fragment drawn in Fig. 6, 
 Chapter I. The later Greeks of the great classical period 
 (Hellenes) did not use the Swastika. Nor has it been 
 found on the works of art of the ancient Egyptians, nor 
 in the remains of Babylonia, Assyria or Persia. It, in 
 fact, seems to have belonged especially to that ancient 
 " Minoan " civilization, the remains of which are found in 
 '3
 
 194 
 
 SECRETS OF EARTH AND SEA 
 
 Crete and the other Greek islands. The same culture 
 and the same race is revealed 
 to us by the discoveries of 
 Schliemann at Mykenae and 
 other spots in Greece, and at 
 Hissarlik, the seat of ancient 
 Troy. The Mykenaean art 
 seems not to have been trans- 
 mitted to the post-Homeric 
 Greeks, nor to Egypt, nor to 
 Babylonia and Assyria. The 
 Swastika seems, like the " flying 
 gallop" of Mykenaean art, to 
 have travelled in very ancient 
 
 FIG. 4 i.-Vase from Cyprus times . a nort h- ea stern route 
 (Mykenaean Age, circn 1200 , ' _ 
 
 B.C.) ; painted with lotus, to the Far East - [ have g lven 
 
 bird and four swastikas some account of the latter, with 
 (Metropolitan Museum, New illustrations, in " Science from 
 
 York City). 
 
 an Easy Chair," Second series. 
 
 Like the representation of the galloping horse, with 
 
 both fore and hind legs stretched and the hoofs of the 
 
 hind legs turned upwards, the Swastika is found in the 
 
 remarkable metal work (Fig. 43 bis) 
 
 discovered in the necropolis of Koban, 
 
 in the Caucasus, dating from 500 B.C. 
 
 The Swastika and the " flying gallop " 
 
 probably travelled together across 
 
 Asia to China and the Far East, 
 
 and so eventually to India on the 
 
 one hand and Japan on the other FIG. 42. Terra-cotta 
 
 the Swastika thus escaping altO- spindle-whorl marked 
 
 gether, as does the pose of the " flying th swastikas. Troy, 
 
 ' XT , , 4th city (Schhemann). 
 
 gallop, the Near East and later 
 
 Greece. This is a very remarkable and interesting 
 
 association.
 
 THE SWASTIKA 
 
 195 
 
 The Mykenseans and their island relatives obtained 
 the Swastika either from the ancient Bronze-age people 
 of Europe or else gave it to them, since it is very nearly 
 as common as a decoration or symbol on the bronze 
 swords, spear-heads, shields, and other metal work of 
 these prehistoric people of the middle and north of Europe 
 (also occurring in the pottery of the Swiss Lake dwellings), 
 as it is in the islands and adjacent 
 lands of the Eastern Mediter- 
 ranean. The Swastika is also 
 found abundantly on the early 
 work of the Etruscans, but dis- 
 appeared from general use in 
 Italy, as it did from the rest of 
 Europe, before historic times, 
 although occasionally used (as 
 in the decoration of the walls of 
 a house at Pompeii). All over 
 Germany, Scandinavia, France, 
 and Britain it is found (Fig. 44) 
 on objects of the Bronze period 
 sometimes on stone as well as 
 on bronze utensils, ornaments, 
 and weapons. A few objects of 
 Anglo-Saxon age are ornamented 
 with it especially remarkable 
 is a piece of pottery of that age from Norfolk 
 (Fig- 45> 
 
 The history of the " Swastika " would be remarkable 
 enough if it ended here with the disappearance of its use 
 in Europe in prehistoric times and its continued use in 
 the Far East and India. But the most curious fact about 
 it is that we find it as a very common and favourite 
 decoration and device among the native tribes in North 
 America and Mexico, and exceptionally in Brazil. It is 
 
 FIG. 43. Ornament from an 
 archaic (pre-Hellenic) Boeo- 
 tian vase, showing several 
 swastikas, Greek crosses and 
 two serpents (from Good- 
 year).
 
 196 
 
 SECRETS OF EARTH AND SEA 
 
 found in use among the Indians of Kansas and other 
 tribes as a device in pottery, in bead- work (Fig. 46), 
 
 FIG. 43 (fa's). Swastika in bronze repouss, from the necropolis of Koban, 
 Caucasus (after Chantre " Le Caucase "), about 500 B.C. 
 
 FIG. 44. Silver-plated bronze horse- 
 gear from Scandinavia, showing two 
 swastikas, and below a complex 
 elaboration of a swastika. (Bronze 
 Age, about 1500 B.C.) 
 
 FIG. 45. Anglo-Saxon urn from 
 Shropham, Norfolk, orna- 
 mented by twenty small hand- 
 made swastikas stamped into 
 the clay. (British Museum.) 
 
 patch-work, quill-embroidery, and other decorative fabrics. 
 The Indians called Sacs, Kickapoos, and Pottawottamies,
 
 THE SWASTIKA 
 
 197 
 
 who worship the sun (which is associated with the 
 Swastika in China), call it by a native name signifying 
 " the luck." It is also found as a decorative design in 
 the most ancient remains of man in America, dating (so 
 far as can be guessed) from a thousand years or more 
 before Columbus (Fig. 47). 
 
 It is generally held that the Swastika must have been 
 introduced into America in prehistoric times by early 
 redskin immigrants from Asia. The question has been 
 raised as to whether this introduction was before or after 
 the worship of Buddha in Asia. It is only amongst 
 
 FlG. 46. Piece of a ceremonial bead -worked garter, showing star and 
 two swastikas (made by the Sac Indians, Cook County, Kansas. 
 (Modern.) 
 
 Buddhists that the Swastika has a religious or sacred 
 character. Elsewhere it seems to have been a mark 
 or sign carrying "good luck." A representation of a 
 sitting human figure incised on shell has been found in a 
 prehistoric burial-mound in Tennessee, which has remark- 
 able resemblance to the Asiatic statues of the Buddha. 
 Shell ornaments have also been found here decorated 
 with sharply-cut Swastikas, and in a mound in Ohio 
 thin plates of copper were found cut into simple Swastika 
 shapes like that of Fig. 38, four inches across. Modern 
 Mexican Indians make brooches of gold and turquoise in 
 the form of the Swastika, and it is a favourite device
 
 198 SECRETS OF EARTH AND SEA 
 
 among the Indians of neighbouring territory. Swastikas 
 occur as decorations or lucky marks on the small terra- 
 cotta " fig-leaf," which was worn by the women of some 
 of the aboriginal tribes of Brazil, and have also been 
 found on native pottery from the Paraguay River. 
 
 Some students of this subject have held the opinion 
 that the " Swastika " has been invented independently at 
 different times in different parts of the world. It is a 
 fairly simple device, it is true; but the view which is 
 accepted at present is that it has spread from one centre 
 
 probably European in the 
 late Stone period through 
 the Mykenaeans, across Asia, 
 and so with early immigrants 
 across the Pacific into the 
 American continent. 
 
 Apart from this prob- 
 lem, there is an interesting 
 FIG. 47.-A stone slab from the Question as to how the 
 ancient city of Mayapan (Yucatan, device probably took its 
 Central America), on which (right origin. The " Swastika " 
 side) a curvilinear swastika is . som etimes Called the 
 carved. (From the American Anti- . 
 
 quarian Society, 1881.) " gammadion, because it 
 
 may be regarded as four 
 
 individuals of the Greek letter gamma (which has this 
 shape f) joined at right angles to one another. The old 
 English name for it, dating from Anglo-Saxon times, 
 was fylfot an old Norse word of doubtful meaning, which 
 has no currency at the present day. 
 
 A method of making the Swastika by piling up sand 
 or grain on a flat surface, actually in use at the present 
 time in India, is shown in Fig. 48. The artist makes 
 first of all a circle with a cross drawn within it (A). 
 Then the circle is rubbed out or cut away at four 
 corresponding points where the arms of the cross touch
 
 THE SWASTIKA 199 
 
 the circle, and so we get B. Then by the straightening 
 of the curved pieces we get the correct rectangular 
 Swastika, C. It is not probable that this is the way 
 in which the Swastika was originally devised, though it is 
 not possible to arrive at any certainty on the subject. 
 
 In these matters concerning the origin of simple 
 ornamental patterns, designs, and symbols, we always 
 have to deal with certain natural opposing tendencies 
 on the part of the artist-draughtsman or designer, one or 
 other of which may be variously called into promi- 
 nence by the softness or hardness or other quality of the 
 material he has to use, or by the individual fancy for 
 elaboration or for simplification which exists in him. I 
 will call four of these tendencies which concern us in 
 regard to the Swastika: I, the rectilinear as opposed to 
 2, the curvilinear, and 3, the grammatizing as opposed 
 to 4, the naturalizing tendency, and will show what 
 bearing they may have on the origin of the device known 
 as the Swastika. 
 
 FIG. 48. Diagram to show the derivation of the swastika from 
 a Greek cross enclosed by a circle. In India the swastika 
 is actually modelled in this way in native ceremonies with 
 rice-grain spread on the ground. The successive figures 
 drawn above are produced by moving the rice with the 
 hand.
 
 CHAPTER XVIII 
 THE ORIGIN OF THE SWASTIKA 
 
 THE Swastika is, we have seen, a very early device 
 or symbol in use among ancient races in Europe, 
 Asia and America. Though it has been found 
 on an ingot of metal in Ashanti it was of late foreign 
 introduction there, and is not known in Africa, nor in 
 Polynesia and Australia, nor among the Eskimos. How 
 did it as a mere matter of shape and pattern come into 
 existence? One might suppose that such combinations 
 of lines as the simple cross and this modified cross, with 
 the arms bent each half-way along its length to form a 
 right angle, would be very natural things for a primitive 
 man or a child to make when trying to produce some 
 ornamental effect by tracing simple rectilinear and sym- 
 metrical figures. No doubt such a " playing with lines " 
 is a common phase or stage of the human search for 
 decorative design. It leads by gradual steps to very 
 complex line-decoration in early pottery and woven work, 
 which is sometimes called " geometrical design." 
 
 It is, however, the fact, and a very interesting one, 
 that the tendency to make geometrical design is not so 
 pronounced in the very earliest examples of human 
 drawing and ornament known to us, as is the tendency 
 to copy natural objects. And this would appear to be 
 especially the case where the drawing is to be a symbol 
 or significant badge. In the earliest art-work known to 
 us that of the cave-men of the late Pleistocene period in
 
 THE ORIGIN OF THE SWASTIKA 201 
 
 Western Europe (see Chaps. L, II. and III.) the artists 
 were busy with attempts (often wonderfully successful 
 ones) to present the outlines of familiar animals (and 
 sometimes plants) by incised carving on bone or painting 
 on the rock walls of caves preceded, it is true, by a 
 period in which " all-round " sculpture in bone or stone 
 or modelling in clay was the method employed. The 
 extensive use of lines concentric or parallel, like those 
 on the finger-tips as decoration of stone work is not 
 known until the later or Neolithic period. 1 On one at 
 least of the incised bone drawings of the Palaeolithic 
 cave-men two little diamond-shaped lozenges are en- 
 graved. They are seen in the cave-men's drawing of 
 a stag figured on pp. 12, 13 of this book. These lozenges 
 are supposed to be the "signature" of the artist, and, 
 if so, are not only the first examples of a geometrical 
 rectilinear figure as ornament, but the earliest examples 
 known of the use of a badge or symbol as a means of 
 identification. 
 
 When we compare the simpler decorative designs 
 made use of by the less cultivated races of men, we find 
 that there are certain distinct and opposed tendencies 
 the predominance of which is of importance in helping 
 us to explain the origin of the design. The tendency to 
 make straight lines and rectilinear angles, which we may 
 call the "rectilinear habit," is found in work executed 
 on hard stone by a graving tool, and in work where 
 square-cut stones are set together or flat pieces of wood 
 or straw are interlaced, and in coarser kinds of weaving, 
 beadwork, and basketwork. The opposite tendency is 
 found in work executed with a brush and fluid paint on 
 pottery or cloth, or even with a graver on soft clay or bone. 
 
 1 But spiral and leaf-like decorative designs engraved on bone (see Fig. 
 2 9> P- 54) are found in caves associated with other carvings made by cave- 
 men of the Reindeer or late Palaeolithic period.
 
 202 SECRETS OF EARTH AND SEA 
 
 The contrast is well shown in the two renderings of 
 one and the same " pattern," shown in A and B of Fig. 49. 
 A is the rectilinear angular decorative design which is 
 known as the "Greek key pattern," whilst the scroll 
 below it is the " curvilinear " treatment of the same 
 subject. The first takes its rectilinear character from 
 a structure built up of hard blocklike pieces ; the other 
 is the flowing, easily moving line of a brush laying on 
 paint, or of a style moving over clay or soft wax. The 
 contrast is the same as that of the capital letters of the 
 Roman alphabet, as used in print, with their equivalents 
 
 in " copper - plate," 
 cursive handwriting. 
 Another pair of 
 tendencies opposed 
 to each other which 
 
 Bhave much signifi- 
 cance in the explan- 
 ation of decorative 
 FIG. 49. The Greek Key pattern in A rect- design is the ten- 
 angular, and B curvilinear or "current" , , ., 
 
 f * m dency to convert the 
 
 simple lines of an 
 
 original design into a drawing representing some animal 
 or plant shape. At the end of the last chapter I dis- 
 tinguished this as the "naturalizing" tendency, contrast- 
 ing it with the grammatizing or simplifying tendency. 
 A good example of it is seen in Fig. 50. In A of that 
 figure we see a circle divided into three cones by curved 
 lines; this is a known design. It is called a "triskelion" 
 (meaning a three-legged figure), or is more correctly 
 termed " a three-branched scroll." The curves are con- 
 verted into angles and straight lines in B, and then the 
 stiff rectilinear "triskelion" is subsequently developed into 
 three human legs, as shown in C, Fig. 50. It is naturalized. 
 Were the change to proceed in the other way from the
 
 THE ORIGIN OF THE SWASTIKA 203 
 
 three human legs to the simple lines, we should have an 
 example of the opposed tendency, namely, that of con- 
 verting drawings of natural objects by a degenerative or 
 reducing process to the simplest lines representative of 
 them. This tendency, which we call " grammatizing " 
 (from gramma, the Greek for a line), is far commoner 
 in early art than the naturalizing tendency which sets 
 in when the artist is exuberant, self-confident, and 
 imaginative. We see a "naturalizing" tendency in the 
 flamboyant and arabesque decorative work of the re- 
 nascence, but it is also found among the happy Minoan, 
 or ^Egaean, island folk 
 who decorated great 
 pots and basins in 
 Cyprus and Crete with 
 forms suggested by A " B C 
 
 birds, sea - Creatures, FIG. 50. Diagrams of the "triskelion" or 
 
 and Climbing plants, ^formed by the division of a circle 
 
 . , into three equal bent cones as in A. B is 
 
 and worshipped the the rectangu i ar form der ived from it. C 
 
 great mother Nature is a "naturalized" form derived from it, 
 as Aphrodite, the sea- namely, the three conjoined legs used as 
 , i , the badge of Sicily and of the Isle of Man. 
 
 born goddess. 
 
 The triangular island of Sicily (called also Trinacria) 
 had in ancient times (even as far back as 300 B.C.) the 
 conjoined three legs (shown in Fig. 50, C) as its badge or 
 armorial emblem. An ancient Greek vase found at 
 Girgenti has this badge painted on it. Ancient Lycia 
 had a triskelion formed by three conjoined cocks' heads 
 stamped on its coins. Though it has no direct connection 
 with the Swastika, the introduction of the " three legs " 
 as the armorial emblem of the Isle of Man is worth 
 relating, as it is not known to most of those who are 
 familiar with the device, with its motto, "Quocunque 
 jeceris stabit " on the copper pence minted for that island 
 up to as late a date as 1864, and current in Great Britain.
 
 204 SECRETS OF EARTH AND SEA 
 
 King Alexander III of Scotland expelled the Norse 
 Vikings from the Isle of Man in A.D. 1266, and substituted 
 for their armorial emblem in the island, which was a ship 
 under full sail, the three legs of Sicily. Frederick II, 
 King of Sicily, married Isabella, the daughter of Henry III 
 of England. Alexander 1 1 1 of Scotland married Margaret, 
 another daughter of Henry, and Henry's son, Edmund 
 the Hunchback, became King of Sicily, in succession to 
 his brother-in-law Frederick. Alexander of Scotland was 
 thus brother-in-law both of Frederick II and of Edmund, 
 successive kings of Sicily. It was in this way that he 
 was led, when he added the Isle of Man to his kingdom, 
 to replace the former Norse emblem of the island by the 
 picturesque and striking device of that other island 
 Sicily with which he had so close a family connection. 
 
 The tendency for drawings of men and animals when 
 used as decorative designs to degenerate, in the course 
 of time and repetition, into more and more simple lines, 
 to become more and more " grammatized " and simplified, 
 till at last their origin is hardly recognizable, is both a 
 very remarkable and a very usual thing. The process 
 of degeneration, step by step, can often be traced, and 
 curious remnants of important parts of the original drawing 
 are found surviving in the final simplified design. The 
 paddles and other carvings of some of the South Sea 
 Islanders show very curious " degenerations " of this kind. 
 A carved human head with open mouth becomes by re- 
 peated copying and simplification a mere crescent or hook, 
 which is the vastly enlarged mouth of the original face. It 
 alone survives, and is of enormous size, when all other 
 features and detail have been abandoned. In some 
 carvings of a face the tongue is shown projecting as an 
 indication of defiance. In course of simplification in 
 successive reproductions the face becomes a mere curved 
 surface with a large pointed piece standing out from it ;
 
 THE ORIGIN OF THE SWASTIKA 205 
 
 it is the tongue. That one significant thing suggesting 
 defiance alone persists. The study of this process in 
 human art covers a very wide field, including all races 
 and all times. An excellent example is that given in 
 Fig. 51. It shows the step by step " grammatizing " of 
 a favourite decorative drawing that of an alligator, as 
 painted by the Chiriqui Indians of Panama on pottery. 
 We start in Fig. 51, A, with an alligator, already con- 
 siderably "schematized " or conventionalized. The Indians 
 could do better than that, but it served for pottery 
 decoration. The figures B, C, D show three stages of 
 further " grammatiz- 
 
 (from different parts ~ E 
 
 of the surface of a pot) 
 till, in D, we get the 
 alligator reduced to a 
 yoke-like line and a 
 
 dot! F IG S 1 - Four stages in the simplification 
 
 Familiar modern of a decorative design-the Alligator- 
 
 , r i as painted on pottery by the Cnmqui 
 
 examples of this re- Indians> (Ho imes.) 
 duction of an animal 
 
 figure to one or two lines, with mysterious-looking branches 
 (representing limbs or horns), are seen in the scattered 
 devices on the Turkey carpets so largely used at the 
 present day. A comparison of various examples of such 
 carpets of different age and locality reveals the true nature 
 of these queer-looking patterns as representations of 
 animals ! Another familar instance of the grammatizing 
 of an animal form is that shown in Fig. 52, D, which is 
 the common symbol in modern European art for a flying 
 ,bird. Fig. 52 shows, however, some more important 
 simplifications of animal form. The series marked E are 
 a few examples from hundreds painted on the walls of 
 caves in Cantabria (Spain) by perhistoric men. They
 
 206 
 
 SECRETS OF EARTH AND SEA 
 
 start with a clearly recognizable figure of a man many 
 such, an inch or two high, occur on some parts of the 
 cave-walls and then we have all sorts of simplifications 
 and deviations from the more naturalistic initial design, 
 as shown by the rest of the series, ending in a T a 
 
 primitive symbol 
 often arrived at by 
 
 ^,,1, "^^ ^f j savage decorative 
 
 X^\ vTvv artists in various 
 
 A ;; )} B parts of the world 
 
 by reducing and 
 grammatizing the 
 human figure. The 
 letters of many 
 alphabets have 
 
 "V 
 
 been simplified in 
 this way from or- 
 iginal picture -like 
 signs or picto- 
 graphs. 
 
 The drawings 
 lettered A, B and C 
 in Fig. 52 represent 
 accurately figures 
 scratched on the 
 clay "spindle- 
 whorls" (before 
 baking), so abun- 
 dant in the remains 
 of the ancient cities on the hill of Hissarlik (Troy), 
 found by Schliemann (see Figs. 42 and 53). These 
 heavy, bun-like spindle-whorls have retained their use 
 and shape since Neolithic times (they are found in 
 the Swiss lake-dwellings) to the present day. Similar 
 whorls were made of modern porcelain, variously de- 
 
 FlG. 52. Simplification (grammatizing) of 
 decorative design. A, a stork walking. 
 B, a stag. C, a stork with wings spread for 
 flying resulting when fully " grammatized " 
 in a curvilinear swastika. A, B, and C, 
 from spindle-whorls found at Hissarlik. 
 D, conventional representation of three 
 flying birds. , grammatized human figure 
 from the walls of caverns in Cantabria.
 
 THE ORIGIN OF THE SWASTIKA 
 
 207 
 
 corated, in France in the last century and sold to the 
 peasants for giving weight and rotatory stability to 
 the spindle used in spinning, and are still used wher- 
 ever the spindle survives, as among the Indians of 
 Central America. A " grammatized " profile representa- 
 tion of a stork (Fig. 52, A) is one of the designs on 
 these Hissarlik spindle-whorls, and so is the linear re- 
 presentation of a stag (Fig. 52, B). And now we come 
 back to the Swastika. The four figures in a row, marked 
 C in Fig. 52, are a few of the re- 
 presentations of " flying " storks on 
 these same spindle-whorls ; one so 
 marked is drawn in Fig. 53. They 
 are of various degrees of simplifica- 
 tion, and the last but one on the 
 right hand side is identical with a 
 Swastika ! It must be carefully 
 remembered that these clay spindle- 
 whorls from Hissarlik are very 
 commonly inscribed with undoubted 
 well-shaped Swastikas, as shown in 
 Fig. 42. The Swastika is quite 
 a common and usual decorative 
 lucky badge in the household art 
 of that locality and age. Hence it is not surpris- 
 ing that M. Solomon Reinach, of Paris,- has suggested 
 that the Swastika may have originated thus by the 
 "stylizing" or " grammatizing " of a favourite and sacred 
 bird the stork. Once thus suggested and drawn in the 
 simple Swastika shape the emblem (it would be supposed) 
 became fixed, and made as rectilinear and simple as 
 possible. Thenceforward it was accepted as an emblem 
 of good luck, which has been transmitted throughout the 
 ancient world of Europe, Asia and America. This theory 
 has a plausible aspect, but I understand from M. Reinach 
 
 FIG. 53. Spindle - whorl 
 from Troy (fourth city), 
 with three swastikas 
 two resembling 
 "stylized" storks (see 
 Fig. 52, C). (Schlie- 
 mann. )
 
 208 SECRETS OF EARTH AND SEA 
 
 that he no longer attaches importance to it. I do not 
 know what theory, if any, of the origin of the Swastika 
 now commends itself to him, nor whether he thinks it has 
 originated independently in several times and places, or 
 holds that it has one common origin. I am inclined to 
 favour the theory that the Swastika has been started by 
 the copying of the form of a natural object on the part of 
 a primitive race of men, and that this form has lent itself 
 to the invention of other badges and symbols besides that 
 known as the Swastika. I will explain this in the next 
 chapter.
 
 CHAPTER XIX 
 THE TOMOYE AND THE SWASTIKA 
 
 FIG. 54 represents a remarkable design which is a 
 sort of national emblem, a universally accepted 
 badge of triumph and honour in Japan,' and is called 
 " Tomoye " meaning " triumph." The black and white 
 portions are in that country painted respectively red and 
 yellow. It is simply a circle divided 
 into two equal cone-like figures by the 
 inscription within it of a doubly-curved 
 line like the letter S. Where and how 
 did the Japanese get this badge? who 
 invented it, or from what natural object 
 is it copied ? A modified Tomoye with 
 the cones dislocated is used as the 
 national flag of Korea. A single one 
 of these curious, tapering, one-sided 
 cones is closely similar to the cone- 
 like figures sometimes called " pines " which one sees 
 on Indian shawls. The origin of these is sometimes 
 said to be a copying of some fruit or vegetable growth, 
 but is really not ascertained and is possibly half of a 
 Tomoye ! A great circular altar-stone has been found in 
 Central America, 5 ft. across, divided by a deep S-shaped 
 groove into two equal one-sided cones (Fig. 59) like the 
 Tomoye. The figure formed by an S within a circle is 
 found in the writings of the ancient Chinese philosopher 
 Chu-Hsi. He gives a series of symbols representing 
 14 
 
 FIG. 54. The 
 "Tomoye" the 
 Japanese badge or 
 triumph.
 
 210 
 
 SECRETS OF EARTH AND SEA 
 
 and female. D, The halves in rotatory move- 
 ment, suggested by the S-like bending of the 
 dividing line or diameter of the circle. 
 
 (according to him) the history of the universe. They are 
 shown in Fig. 55, and are explained as follows. The 
 
 empty circle A 
 
 OS~\ /'"PN K*~*\ re P resen ts the 
 {') \1\'J v"*V or ig ma l "void" 
 the boundary line 
 
 A B C D i 
 
 is conventional. 
 FIG. 55. Symbols of the history of the universe ... . . 
 
 used by the ancient Chinese philosopher Chu- After untold aeons 
 Hsi. A, The original "void." B t The great the great monad 
 monad. C, The monad divides into two, male appeared. It is 
 
 represented by B. 
 Then we get the 
 division of the 
 
 great monad (now called " Tai-I ") into two, shown in 
 C of our Fig. 55 singularly recalling the division of the 
 nucleated cell or protoplasmic unit of animal and vegetable 
 structure. The two halves, however, in this case repre- 
 sent the feminine called " Yin " and the masculine called 
 "Yang." The last drawing, D of Fig. 55, shows the Yin 
 and the Yang in 
 rotatory motion. 
 This is indicated 
 by the S-like 
 bending of the 
 diameter, and 
 the consequent 
 formation of a 
 figure like the 
 Tomoye. By 
 this motion the 
 visible universe 
 is supposed by 
 the philosopher Chu-Hsi to be produced. The figure 
 marked D is described as a " cosomological symbol." 
 It does not help us to the origin of the figure showing 
 
 FlG. 56. Diagrams to show the possible derivation of 
 the swastika from the inscription of two S-like lines 
 (or "ogees") within a circle so as to divide the 
 circle into four bent cones. B and C are ogee and 
 rectangular swastikas easily produced by modifica- 
 tion of the encircled figure.
 
 THE TOMOYE AND THE SWASTIKA 211 
 
 the division of the circle as in the Tomoye, for it dates 
 only from about the twelfth century of our era. 
 
 If we suppose the circle divided, as in the Tomoye, 
 to be a very ancient badge or device, dating from pre- 
 historic man, then it is probably derived from a natural 
 object. And this object was probably a ground-down 
 transverse section across a whelk-shell, for if one makes 
 such a section just above the mouth of the shell 
 at right angles to its length, one gets two adjacent 
 chambers of the spirally-coiled shell separated by an 
 S-like partition, the resulting figure given by the slice 
 across the shell being that of the 
 " tomoye," with its paired, one-sided, 
 cone-like constituents. Shells are 
 amongst the chief ornaments used by 
 prehistoric and modern savage man. 
 Large ones are ground down to make _ 
 
 ~, ... r 4l _ . , FIG. 57. Terra-cotta 
 
 armlets. The perception of the spiral cone w j tn 
 
 as a decorative line is almost certainly armed sun -like 
 due to the handling and grinding- fi g re engraving on 
 down of snail shells, and, indeed, we SLat?*' * 
 find spirals and reversed spiral scrolls 
 engraved on bone by the Pleistocene cave-men (see 
 Fig. 29). 
 
 The yEgaean people of the Greek islands (of whom 
 the Mykenaeans are a part) copied a variety of forms of 
 marine animals in their decorations of pottery, and, in 
 fact, natural shapes were the basis of their decorative art. 
 They simplified and " grammatized " their more nature- 
 true designs into badges and symbols. 
 
 We find in early work discovered in the ancient mounds 
 of North America decorative circles (Fig. 58) in which two 
 S-like lines at right angles to one another are inscribed 
 as shown in Fig. 56, and we find also that these curved 
 rays may be prolonged as a marvellous enveloping
 
 212 
 
 SECRETS OF EARTH AND SEA 
 
 spiral coil or helix especially in the painting of pottery. 
 When the curved rays are many in number, as in Fig. 
 57, the design has been interpreted by some archae- 
 ologists as symbolizing the sun, and it is important to 
 remember that the Swastika itself was used in China 
 as the pictograph of the sun. A single curved S-like 
 line has been found cut on a great circular slab, an 
 ancient altar-stone (Fig. 59) in Honduras (Copan) so as 
 
 to divide the circle as is 
 done in the Japanese 
 Tomoye. It is obvious 
 that the exact geo- 
 metric character of the 
 S-like division is of 
 great significance in 
 these designs and re- 
 quires careful study 
 and explanation. I 
 have briefly discussed 
 this matter at the end 
 of the chapter. ' In 
 
 FlG. 58. Scalloped Shell Disk, from a 
 
 mound near Nashville, Tennessee, showing the Common " ogee 
 in the centre a tetraskelion with four Swastika," Fig. 56, B, 
 curved arms, about four inches in the more or less 
 diameter, made of polished shell. (Pea- , , , , . . . , 
 
 body Museum.) elaborately hehcoid 
 
 arms are merely care- 
 less flourishes of the painter's brush. The simple four- 
 rayed figure, shown in Fig. 56, A, is often spoken of as 
 a "tetraskelion," or four-legged scroll, and is associated 
 with the three-legged figure or triskelion which I wrote 
 of in the last chapter. If the curvilinear "tetraskelion" 
 be angularized that is to say, rectangles substituted for 
 semicircles, we get the correct fully developed Swastika, 
 Fig. 56, C. And if, abandoning the circle, the draughts- 
 man rapidly drew with a brush or on soft clay lines like
 
 THE TOMOYE AND THE SWASTIKA 213 
 
 an S crossing one another at right angles, he produced 
 what is common enough wherever the more formal rect- 
 angular Swastika is found, namely, the curvilinear or 
 " ogee Swastika," Fig. 56, B. 
 
 It is not possible with our present knowledge to pene- 
 trate into the remote past and really ascertain the origin 
 of the shape or device called a Swastika. But it is, I think, 
 quite likely that in manipulating the " tomoye " symbol 
 (whether copied from a section of shell or originating by 
 more independent invention and " trying " of lines and 
 curves and circles), very 
 early man duplicated the 
 symmetrical S by which 
 he had divided a circle 
 and produced the tetra- 
 skelion seen in Fig. 56, A. 
 The conversion of this 
 into the rectangular 
 Swastika and into 
 varieties of the ogee and 
 menander (which I have 
 not found space to de- 
 scribe) would be an easy 
 and natural sequence. 
 
 At the same time, I 
 
 FIG. 59. An altar-stone of prehistoric 
 age. The circular surface is cut into by 
 a trough of S-shape, which divides it so 
 as to resemble the Japanese " Tomoye." 
 From Copan, Honduras. 
 
 have no conviction that this is 
 the real origin of the Swastika, and await further evidence. 
 The "flying-stork theory," which was put forward by 
 Reinach, is very attractive. Birds as badges and " totems " 
 are frequent among primitive mankind, and certain species 
 are often regarded as sacred and bringing good luck. 
 The stork is one of these. If the artists who marked the 
 very ancient clay-pottery of Hissarlik with the Swastika 
 and also with outlines of the flying stork, strongly 
 resembling a Swastika, did not derive the Swastika from 
 the stork, but had received it from some independent
 
 214 SECRETS OF EARTH AND SEA 
 
 source, then it is probable that they purposely drew the 
 flying stork, so as to make it resemble as much as possible 
 a Swastika. 
 
 When we take account of the apparently arbitrary 
 passage of human decorative design from the naturalistic 
 to the linear, and from the linear to the naturalistic ; from 
 the curvilinear to the rectilinear, and from rectilinear to 
 curvilinear; when we also reflect that some races and 
 populations of men have been prone to seek for the 
 forms of their decoration in the natural forms of plants 
 and animals, whilst others have made use of mere 
 mechanical patterns of parallel or interlacing lines, we must 
 conclude that by the appeal to one or other of these 
 various tendencies it is easy to invent a large variety of 
 more or less plausible theories as to the origin of the 
 Swastika. The truth of the matter can only be decided, 
 if ever, by more direct and conclusive evidence than we 
 at present possess. Nevertheless, it is a legitimate and 
 fascinating thing to speculate on the origin of this 
 wonderful world-pervading emblem coming to us from 
 the mists of prehistoric ages, and to endeavour to arrive, 
 if possible, at possible points of contact between it and 
 other " devices " and " symbols," even though they may 
 be of equally obscure birth. 1 
 
 The accurate division of a circle into two equal 
 comma-shaped areas of the special shape presented by 
 the " Tomoye " of the Japanese (Fig. 54) and the rotating 
 " Great Monad " of Chinese cosmogony (Fig. 55), is effected 
 by describing within a given circle two circles each having 
 its diameter equal to a radius of the enclosing circle. The 
 two inscribed circles touch one another at the centre 
 
 1 I am indebted for the figures (not the diagrams) illustrating Chapters 
 XVII., XVIII., XIX. to the report by Mr. Thomas Wilson on the Swastika 
 in the Smithsonian Reports, 1894. Those interested in this subject will find 
 a vast store of information in that report.
 
 THE TOMOYE AND THE SWASTIKA 215 
 
 of the latter, but do not overlap. The area of the enclos- 
 ing circle is thus divided into four areas, a, b, c and d 
 (see Fig. 60, A). The areas a, b are the two inscribed 
 circles. Each of the residual areas c, d'\$ called (as Sir 
 Thos. Heath, F.R.S., kindly informs me) an " arbelus " by 
 ancient Greek geometricians a name used for a rounded 
 knife used by shoemakers. The comma-shaped bent 
 cone or pine is formed by the fusion of one of the two 
 
 FIG. 60. 
 
 small circles with one of the adjacent arbeli (Fig. 60, B). 
 The figure so formed which to-day is loosely spoken of as 
 a " bent cone," a " pine," or a " comma, ' has never, so far as 
 I can ascertain, received a name in geometry, nor in the 
 language of decorative design or pattern'-making. Nor 
 has the S-like line made by the two semicircles separat- 
 ing the contiguous " pines " or " commas " received any 
 designation though vaguely indicated by the word " ogee." 
 The comma-like areas might conveniently be called.
 
 216 SECRETS OF EARTH AND SEA 
 
 " streptocones," and their S-like boundary " a hemicyclic 
 sigmoid." As shown in Fig. 56, by drawing a second 
 hemicyclic sigmoid of the same dimensions at right angles 
 to the first, the circle is divided into four smaller strepto- 
 cones. By using sigmoids or half-sigmoids of a curvature 
 of a different order from that of the hemicyclic one, but of 
 a precisely defined nature, the circle may be divided into 
 three, six, eight or more equal " streptocones " of graceful 
 proportions, some of which have been used either in series 
 as borders in metal work (for circular dishes and goblets) or 
 as detached or grouped elements in pattern-designs (stone- 
 work tracery, embroidery, woven and printed fabrics). 
 
 Apart from this development of the "streptocone" as 
 an important feature in decorative work, it is not without 
 interest in connection with the probable importance and 
 significance of the Japanese double streptocone, as we may 
 call the Tomoye, to note some of its geometrical features. 
 Referring to the Fig. 60, it is obvious that each of the 
 paired streptocones is equal in area to half the enclosing 
 circle, also that each of the two inscribed circles (a, b} has 
 an area of one-fourth of that of the enclosing circle and 
 that each arbelus (c, d} has also an area one-fourth that 
 of the enclosing circle and is equal in area to each of the 
 inscribed circles (a, P). Each of the two constituent 
 " streptocones " is made up of a complete circle capped by 
 an " arbelus " equal in area to it (namely, one-quarter of 
 that of the big circle). It is obvious that the area of the 
 arbelus formed in a semicircle by two enclosed semi- 
 circles which are contiguous and of equal base as in Fig. 60, 
 is equal to that of a circle the diameter of which is the 
 vertical line drawn from the apex of the arbelus to the arc 
 of the semicircle (Fig 60). This is true whether the 
 enclosed contiguous semicircles have chords of equal or 
 unequal length (Fig. 60). This fact was known to the 
 Greek geometricians, as I am informed by Sir Thos. Heath.
 
 CHAPTER XX 
 COAL 
 
 COAL is so much "a matter of course" in our daily 
 life that most people are only now, when its supply 
 is becoming precarious, anxious to know something 
 of its nature and history. By the word " coal," or " coles," 
 our ancestors understood what we now distinguish as 
 " charcoal," prepared from wood by the " charcoal-burner," 
 or " charbonnier," as the French call him. What we 
 now call "coal "was known to them as "sea-coal," and, 
 later, as " black " or " stone cole," to distinguish it from 
 " brown coal," known nowadays as " lignite," though the 
 name " stone coal " is locally applied in England to that 
 very hard kind of black coal also called " anthracite," of 
 which jet is only an extremely hard and dense variety 
 found in small quantities in the oolitic strata of Whitby, 
 Spain, and other localities. 
 
 It is on record that in the year 1306 a citizen of 
 London was tried, condemned, and executed for burning 
 " sea-coal." This severe treatment was held to be justified 
 by the poisonous and otherwise injurious nature of the 
 smoke produced by fires of sea-coal. I have not met 
 with any records of the earliest digging for and trade in 
 " sea-coal," but presumably it was obtained near the 
 coast in the North of England and brought to London by 
 ship hence its name. The coal-trade of Newcastle 
 began in the thirteenth century, but, owing to an Act of 
 Parliament in the reign of Edward I forbidding the use
 
 218 SECRETS OF EARTH AND SEA 
 
 of sea-coal in London, did not become important until 
 the seventeenth century. It came very gradually into 
 use, and we find that Evelyn (the diarist) in 1661 noted 
 the withering and bad condition of rose-bushes and other 
 plants in London gardens, which be attributed to the 
 pestilential action of the smoke given off by the newly 
 introduced " sea-coal " which was increasingly used as 
 fuel in London houses. The sea-coal was not yet largely, 
 if at all, used in the production of iron ; and Evelyn as a 
 forest-owner and lover of trees, has much to say about the 
 necessity for attention to the cultivation of our forests in 
 connection with the iron industry which then flourished 
 in the Weald of Sussex ; charcoal procured by the slow 
 burning or roasting of wood being the fuel used in the 
 smelting furnaces, whilst the ore was the orange-brown 
 wealden sand. It was during the eighteenth century 
 that what we now call simply " coal " came rapidly into 
 use not only for domestic heating, but for furnaces of 
 all kinds employed in industrial enterprise, and, at a 
 later date, for the earlier and later forms of steam-engines. 
 The smoke of the new coal was everywhere regarded as 
 a terrible nuisance, and a source of injury to both animal 
 and vegetable life. The poisonous action of coal-smoke 
 is not due to the finely divided black particles of carbon 
 of which it largely consists, but to the sulphuric acid 
 derived from the small quantities of sulphur present in 
 coal. It is calculated that more than sixteen million tons 
 of coal are annually used in London alone for heating 
 purposes, and that 480,000 tons of black carbon powder 
 are discharged over London by its chimneys every year, 
 together with very nearly the same weight of poisonous 
 sulphuric acid ! 
 
 What, then, is this " sea-coal " or " coal " of our modern 
 life? We all know its black, glistening appearance, and 
 more or less friable character. Its nature and origin are
 
 COAL 219 
 
 best conveyed by the statement that it is very ancient 
 " peat," compressed and naturally changed by chemical 
 action and retaining little or no trace of its original 
 structure. Peat, as we know it from the low land of 
 English and French river valleys and the bogs of Scotland 
 and Ireland, is formed by the annual growth and death 
 of " mosses " of several kinds and of other accompanying 
 vegetation. It retains the woody forms of the vegetable 
 growths which constitute it, and they are often but loosely 
 adherent to one another. Peat may be merely a growth 
 of the past five years, but is sometimes many thousand 
 years old. Older than peat, and more caked and com- 
 pressed, is lignite, or brown coal, which occurs on the 
 Continent of Europe, also in South Devon and elsewhere, 
 in geological strata newer than those which yield our black 
 coal. Then we have the most important class of black 
 coals which are known as " bituminous coals," because they 
 soften when heated and form hydrocarbons of both viscid 
 and gaseous nature. They are used for domestic pur- 
 poses, and wherever flame is desired. They are, in fact, 
 the " lumps of coal " familiar in our scuttles. The 
 " bituminous coal " with the greatest amount of hydrogen 
 in it is the cannel or candle coal, so called from its bright 
 flame when burning. This kind is especially valuable for 
 gas-making, and of smaller value as fuel. The term 
 " anthracite " is reserved for a hard, stone-like coal which 
 is very nearly pure carbon (ninety per cent). This class 
 of coal burns with a very small amount of flame, gives 
 intense heat, and no smoke. It is used in drying malt 
 and hops. 
 
 Like all woody matter, that from which peat is formed 
 consists of a combination of the elements carbon, hydrogen 
 and oxygen ; and these remain in somewhat changed 
 chemical union in the brown coal, bituminous coal, and 
 anthracite. The carbon and a varying and small proper-
 
 220 SECRETS OF EARTH AND SEA 
 
 tion of the original hydrogen of the woody peat, are the 
 important elements in coal; and we may well ask how 
 they come to be produced as a black or dark brown mass 
 from dead vegetable growths which are often bleached 
 and colourless. It is true that vegetable refuse does not 
 necessarily blacken when left to itself. We know that 
 by roasting or charring wood (or animals' flesh or bone) 
 we can drive off the elements oxygen and hydrogen 
 and nitrogen (if there), and obtain a black mass of 
 carbon (so-called charcoal). That blackness is the 
 actual true tint of carbon. The dead weeds and leaves 
 at the bottom of a stagnant pond break down and form 
 a pitch-black mud. They would not, and do not, go 
 black if exposed to the oxygen of the atmosphere; but 
 at the bottom of a stagnant pond or in a refuse heap they 
 are excluded from the air, and a microbe a bacterium 
 which has been carefully studied, and is of a kind which 
 can only flourish in the absence of free oxygen attacks 
 the dead weeds, producing by change of their substance 
 marsh-gas and black carbon, the black mud emitting 
 bubbles of gas which one may stir up with a pole in such 
 a pond. This chemical attack by anaerobic bacteria goes 
 on in the deeper layers of all marshes and stagnant pools, 
 remote from the oxygen of the air ; and it is fairly 
 certain that the black coal which we find in strata of 
 great geological age was so produced by the action of 
 special kinds of bacteria upon peat-like masses of vege- 
 table refuse. Indeed, by studying microscopic sections 
 of coal, numerous forms of bacteria have been recognized 
 which might be capable of effecting such chemical 
 changes. On the other hand, we must remember that 
 it is not possible to conclude by form alone as to what 
 subtle chemical work a bacterium or bacillus or micro- 
 coccus may be, or may have been, carrying on. The 
 peat-like deposits which became carbonized and so formed
 
 COAL 221 
 
 the " coal " were probably masses of algae, mosses and soft 
 aquatic plants, which were brought down and accumu- 
 lated in swampy, forest-covered ground about the mouths 
 of rivers, the deposit being covered in owing to rapid 
 oscillations of level by beds of sand or clay, followed by 
 new growth and deposit. 
 
 Our British coal and a good deal of foreign coal is 
 found in certain stratified rocks of the earth's crust 
 known as "the Carboniferous System," about 12,000 ft. 
 thick, consisting chiefly of very dense limestone. The 
 " seams," or stratified beds of coal, occur in sandy rock 
 known as the " Coal Measures," and vary in thickness 
 from a mere film to 40 ft. Above the Carboniferous 
 System are later deposits, some 14,000 ft in thickness 
 the Permian, Triassic, Jurassic, Cretaceous, and Tertiary 
 strata. Below them we find stratified deposits containing 
 fossilized remains of plants and animals, to a depth of 
 another 40,000 ft. : they are the Devonian, Silurian, and 
 Cambrian " systems " or series of strata. Coal of a work- 
 able nature is found in many parts of the world in the 
 beds or strata of later age than our Coal Measures 
 namely, those of Jurassic, Cretaceous, and Tertiary age. 
 
 Coal is so valuable and used in such vast quantities by 
 modern man that, though procured at first from beds 
 lying at or near the surface, it has been found remuner- 
 ative to mine far into the depths of the earth's surface, 
 where its existence is ascertained, in order to procure it. 
 A depth of 4000 ft. is apparently the limit set to such 
 mining by the increase of temperature in mines which 
 penetrate to that extent below the surface. In 1905 the 
 annual output of British coal-mines was in round numbers 
 230,000,000 tons. It is certain that there is a limit to 
 this production, but not possible to calculate what that 
 limit may be, owing to the uncertainty as to the future 
 working of coal-fields as yet unexplored.
 
 222 SECRETS OF EARTH AND SEA 
 
 Such questions have been, and are being, considered by 
 experts on behalf of the Government. A matter of interest 
 of another kind is that in and associated with the coal 
 seams of our Coal Measures, fossilized remains of peculiar 
 fern-like trees, ferns, and other strange plants, and of very 
 pecular, extinct newt-like animals (as large as crocodiles) 
 are found in great variety. The notion that the toads 
 occasionally found embedded in the black mud of a coal- 
 yard or even in a fractured lump of coal are survivals from 
 the time many millions of years past when the plants 
 and animals of the Coal Measure swamps were living, is 
 a baseless fancy. The toads so found are of the kind or 
 species now living on the earth totally different from 
 those whose bones occur in the Coal Measures, and the 
 presence of such modern toads embedded in black slime, 
 in coal-heaps in store-yards, or even in coal-scuttles, is 
 only what may be expected to occur and does occur in 
 damp quarries and other places where these familiar little 
 beasts love to hide.
 
 CHAPTER XXI 
 BORING FOR OIL 
 
 CLOSELY similar to coal in chemical matter that 
 is to say, consisting chiefly of definite chemical 
 compounds, called hydrocarbons, built up of only 
 two elements, carbon and hydrogen, and of no others is 
 a very remarkable class of mineral substances known to 
 the ancients as" bitumen." In its widest sense, it includes 
 " natural gas," the variously mixed liquids called 
 "petroleum" and the solid " asphalts." In ancient times 
 the more fluid kinds of petroleum issuing from the ground 
 in South Russia and Persia were called " naphtha," and 
 that name is still applied to the more volatile hydro- 
 carbons obtained by the distillation of such substances as 
 coal-tar (the residue of the extraction by heat of com- 
 mercial gas from coal), bituminous shale, petroleum, wood 
 and some other bodies which owe their existence to the 
 activity either of living or of long-extinct and " fossilized " 
 plants and animals. 
 
 The bitumens, together with coal, present in their 
 natural state a very large variety of inflammable con- 
 stituents gaseous, liquid, and solid hydrocarbons; but, 
 when " distilled " at various temperatures and under con- 
 ditions determined by the manufacturing chemist, they 
 yield a still larger series of pure separable bodies, which 
 have been minutely studied and classified according to 
 their chemical constitution. They are produced in great 
 chemical factories in large quantities for use in the most
 
 224 SECRETS OF EARTH AND SEA 
 
 diverse ways invented by human ingenuity. Thus 
 natural gas superseded by distilled coal-gas has served 
 for fuel and for illumination : refined petroleum serves not 
 only for those uses in general, but as the special source of 
 power in the engines of motor-cars and aeroplanes. A 
 wonderful solid crystalline wax-like substance, paraffin, 
 as white as snow, is distilled in enormous quantities 
 (nearly three million tons a year) from " bituminous shale " 
 or " oil-shale " in this country alone. It can be obtained 
 in soft (vaseline) and liquid forms, and in fact the " paraffin 
 series" recognized by chemists starts from the gas 
 " methane," or marsh-gas, and comprises some thirty kinds, 
 leading from gas to volatile liquids, thence to viscid liquids, 
 to butter-like solids, and up to hard crystalline substances 
 which melt only at the temperature of boiling water. 
 Endless chemical manufacturing industries e.g., those of 
 dye-stuffs and explosives depend upon the chemical 
 treatment of these paraffins and of various bodies obtained 
 as secondary products in their preparation. Benzine and 
 aniline are chiefly obtained from coal-tar. The oils and 
 waxes of quasi-mineral origin have a great advantage over 
 vegetable and animal oils in many uses, since they are not 
 liable to become " rancid " ; that is to say, to decompose 
 owing to the action on them of bacteria. A marked 
 difference between the paraffins (often distinguished, 
 together with the "olefines," as "mineral" oils) and the 
 oils and fats found in living plants and animals is that they 
 do not " saponify " ; that is to say, they do not form those 
 combinations with alkalis and other bases which are called 
 " soaps," nor can they serve as food to man or any other 
 animal. They are not acted on by the digestive juices. 
 
 From ancient times natural deposits or outpourings of 
 " bitumens " have been known and used by mankind. 
 The Assyrians and other early peoples of the East used 
 " asphalt " (translated by the word " slime " in the English
 
 BORING OR OIL 225 
 
 version of the Bible) in place of calcareous mortar in 
 building ; and to this day it is used largely in this country 
 as a " damp-course " in walls built of brick. Great deposits 
 of asphalt are found in Central America and some of the 
 West Indian islands, and " quarried " for commercial 
 purposes. The great pitch-lake of Trinidad yields an 
 abundant supply. In the Val de Travers, in the Canton 
 of Neuchatel (Switzerland), a rich deposit is worked which, 
 mixed with earthy material, forms a road-making con- 
 crete, largely used in London and other cities, and also for 
 main roads in country districts. The ancient Egyptians 
 used asphalt for embalming the dead. But the ancients 
 also knew natural springs of liquid bitumen that which 
 nowadays we call petroleum some of them freely flowing 
 like water, which would take fire and burn for long 
 periods, and were described as fountains of "burning 
 water." We find, as we pass from the Middle Ages to the 
 days of geographical exploration, records of such springs 
 of inflammable oil and of natural inflammable gas in all 
 parts of the world Japan, China, Burma, Persia, Galicia, 
 Italy (Salsomaggiore), Central and North America, and of 
 not a few in these islands for instance, in Shropshire, 
 Derbyshire, Sussex, Kimmeridge and various sites in the 
 southern counties. The oil was, until the middle of the 
 last century, valued chiefly as a medicinal application, and 
 " Seneca oil " and " American medicinal oil " were largely 
 sold and used as an embrocation in the United States. 
 
 We owe the introduction of the name " petroleum " to 
 Professor Silliman, who in 1855 reported upon the "rock 
 oil or petroleum " of Venango County, Pennsylvania. 
 The first attempt as a commercial enterprise to obtain 
 rock-oil or petroleum by boring into the strata in which 
 there was local evidence of its existence in greater or less 
 quantity, was made in 1854 by the Pennsylvania Rock Oil 
 Company. After some unsuccessful attempts, when the
 
 226 SECRETS OF EARTH AND SEA 
 
 drilling had been carried to a depth of 69 ft. the tools 
 suddenly dropped into a subterranean cavity, and on the 
 following day the well was found to have " struck oil," and 
 twenty-five barrels a day were yielded by that well for 
 some time. From here the industry spread over the 
 States and Canada, and in 1908 the year's yield was 
 45,000,000 barrels. 
 
 Since 1870 the industry has spread all over the globe 
 Russia, Galicia, Rumania, Java, Borneo and Burma being 
 prominent sources of the oil supply of the world. The 
 raw petroleum of different localities differs in each case in 
 the amount of solid paraffins and defines dissolved in the 
 liquid paraffins. Other substances also are dissolved in it 
 in variable amount such as benzene, acetylene, camphene 
 and naphthalene. The fact that the oil, when reached by 
 a boring, is often found to be under a considerable 
 pressure, so that it rises and flows from the surface of the 
 well, or even may shoot up as a great fountain, is an 
 important feature in the oil-seeking industry, though the 
 supply depends largely on pumping and not necessarily 
 on natural flow. The borings when made, act like Artesian 
 wells, and sometimes are carried to a great depth. Those 
 in Pennsylvania vary in depth from 300 ft. to 3700 ft., 
 according to the distance below the surface at which the 
 oil-bearing strata (usually a sandstone) is situate. As in 
 the case of an Artesian well, the boring is in the first 
 instance an exploration subject to uncertainty as to 
 " striking " the desired liquid, but the uncertainty is 
 greater in the case of the search for oil than in that for 
 water. The water-well is also far less likely to " give 
 out " when once flowing than is that bored for oil, 
 which, even if at first successful, may be soon exhausted 
 owing to the small area of the oil-bearing strata tapped. 
 A cause of the high pressure in many oil-wells is the gas 
 which accompanies the oil. The pressure may amount to
 
 BORING FOR OIL 227 
 
 as much as 1000 Ib. to the square inch. In the Northern 
 Caucasus spouting wells caused by the high pressure of 
 gas in the boring are frequent. A famous fountain-well in 
 that region, which began to flow in August 1895, threw 
 up 4^ million gallons a day, gradually diminishing during 
 fifteen months until it became exhausted. At first, when 
 boring was introduced, such outbursts led to an enormous 
 loss of the oil, for there was not sufficient means of storing 
 or transporting it. Ordinary cartage in barrels was the 
 earlier method ; then followed tanks on railway trains and 
 canal boats ; and this has been supplemented by the use 
 of pipes along which the oil is pumped from the well to 
 the refinery. In Pennsylvania there are said to be no less 
 than 25,000 miles of such pipes in use for the distribution 
 of petroleum. 
 
 It will be obvious from what is here stated that the 
 attempt to discover an oil-supply in Derbyshire must not 
 be regarded, at present, as more than a praiseworthy and 
 interesting enterprise. There is no room for doubt that 
 the best expert opinion has been brought to bear on the 
 matter. A small quantity of petroleum has already been 
 raised ; but whether the flow will be sufficient to cover the 
 expenses of the boring, and how long the flow may last, 
 or how much it may amount to, are matters quite im- 
 possible to foretell. In any case, it is in the highest 
 degree improbable that such an abundance of oil will be 
 obtained as to count much, if at all, in the world's pro- 
 duction of petroleum. It must also be remembered that 
 products similar to those yielded by petroleum are 
 already extracted in quantity as a remunerative industry 
 by the distillation of oil-shales in various parts of the 
 United Kingdom ; and that there are oil-shales in this 
 country still unworked. So that we need not be in despair 
 if we do not tap an oil-spring of any importance close to 
 hand. The world's supply is still open to British
 
 228 SECRETS OF EARTH AND SEA 
 
 enterprise. Another reflection of some importance is that 
 these world-wide sources of rock-oil or petroleum are 
 likely to be exhausted by exploitation much sooner than 
 are the coal-fields of the world. We cannot rely on their 
 long duration.
 
 CHAPTER XXII 
 THE STORY OF LIME-JUICE AND SCURVY 
 
 FROM mediaeval times onward a serious constitutional 
 disease a morbid condition of the blood and tissues 
 has been known by the name "scurvy," and the 
 word " scorbutic " has been coined from it. It is to-day 
 practically unknown in the ordinary conditions of civilized 
 life, but formerly was common, and the cause of disable- 
 ment and of frightful mortality in ships' crews, beleaguered 
 cities, armies on campaign, and war-stricken regions. It 
 begins with a certain failure of strength. Breathlessness, 
 exhaustion, and mental depression follow. The face looks 
 haggard, sallow, and dusky. After some weeks the ex- 
 haustion becomes extreme ; the gums are livid, ulcerated, 
 and bleeding; the teeth loosen and drop out; purple 
 spots appear on the skin ; ulcers break out on the limbs ; 
 effusions of blood-stained fluid take place in the great 
 cavities of the body; profound exhaustion and coma 
 follow; and death results from disorganization of the 
 lungs, kidneys, or digestive tract. It was recognized in 
 early times that the disease was dependent on the 
 character of the food of those attacked by it ; and not 
 the least of the horrors accompanying it was the terror 
 caused by the well-founded conviction that the appearance 
 of a single case in a ship's crew or other specially circum- 
 scribed community was an unfailing index, and meant 
 that all were likely within a few days owing to the 
 enforced identity of their food and conditions of life
 
 230 SECRETS OF EARTH AND SEA 
 
 to develop the disease. Often, in past centuries, a half 
 or two-thirds of a ship's company have been carried off 
 by it before a port could be reached and healthy food 
 and conditions of life obtained. At the present moment 
 in view of the actual condition of Europe, it is a fact 
 of very grave importance that scurvy is known to break 
 out and cause a terrible mortality among civil communities 
 in time of scarcity especially in prisons, workhouses, and 
 other public institutions, which are the first to suffer 
 deprivations when food is scarce. 
 
 Three hundred years ago it was held that fresh 
 vegetables and fruit-juices were both a cure for and a 
 preventive of scurvy, or " anti-scorbutic." But the fact 
 was not appreciated by Army and Admiralty officials 
 that dried vegetables, even of kinds which were held to 
 be especially "anti-scorbutic," would not serve in place 
 of fresh ones. In 1720, dried " anti-scorbutic " herbs were 
 supplied to the Austrian Army when suffering from 
 scurvy ; but they were of no avail, and thousands of the 
 soldiers perished from the disease. A few years later, 
 the British Lords of the Admiralty (actuated by a 
 spirit of blundering parsimony) proposed to supply the 
 Navy with dried spinach, although it was well known 
 that dried vegetables were useless against scurvy. In 
 the American Civil War, 1861-1865, in spite of this 
 knowledge, large rations of dried vegetables were supplied 
 to the armies, and failed to prevent outbreaks of scurvy. 
 Even at the present day so little attention has been 
 given of late years to the subject, that many ignorant 
 officials, upon whose action the life of thousands depends, 
 regard dried vegetables as equivalent in value to fresh ! 
 
 A great advance was made in the second half of the 
 eighteenth century, when the British Admiralty became 
 convinced by the repeated experience of its officers that 
 " lime-juice " is a specific remedy and preventive for
 
 THE STORY OF LIME-JUICE AND SCURVY 231 
 
 scurvy, and, in spite of the great expense and difficulties 
 entailed, adopted its use officially. In those days of 
 sailing-ships, long voyages (such as those of Captain Cook) 
 were safely carried through without serious outbreak of 
 scurvy so long as a" ration of so-called " lime-juice " (about 
 one ounce) was swallowed each day by each sailor. But 
 it was not until the beginning of the nineteenth century 
 that the disease was practically eliminated from the Navy 
 by the introduction (after many foolish delays) of a 
 general issue of what was called " lime-juice." 
 
 The complete control and elimination of scurvy by 
 the use of so-called "lime-juice" sufficed to carry us on 
 until the introduction of steam navigation, when it became 
 superfluous owing to the fact that long absence from land, 
 where fresh food could be obtained, ceased to be usual. 
 Moreover, after a mutiny on the part of our defrauded 
 sailors, better food and greater variety of it was secured 
 for them, and the profits of murderous contractors were 
 stopped. 
 
 The history of outbreaks of scurvy for the last 
 century is practically confined to the experiences of Arctic 
 Expeditions and the campaigning of troops in remote or 
 devastated regions. So little had scurvy been investigated, 
 or any serious study made of the nature of the remedial 
 and preventive action of lime-juice, that up to the year 
 1914 it was regarded as a matter of course that the acid, 
 the citric acid, of lime-juice was what gave to it its virtue, 
 and samples of lime-juice supplied by contractors were 
 tested solely as to the percentage of that acid present. 
 Eminent medical authorities proposed to use crystals 
 of citric acid in place of the juice; others declared that 
 vinegar would do just as well ; others, in spite of the 
 overwhelming record as to the value of lime-juice, held 
 that scurvy was due not to the absence of a food con- 
 stituent supplied by fresh vegetables and fruit-juice
 
 232 SECRETS OF EARTH AND SEA 
 
 but to a peculiar poison present in the salted and dried 
 meat served out as rations ; others again, without any 
 study of the disease, have expressed the opinion that it 
 is due to a bacterial micro-organism. 
 
 A blow to the easy-going belief of the Admiralty that 
 they had mastered and made an end of scurvy was struck 
 when scurvy broke out (60 cases among 122 men) in the 
 expedition to the North Pole which sailed in May 1875 in 
 the Alert and the Discovery, under the command of Sir 
 George Nares. The expedition had to return prematurely 
 after seventeen months' absence, and a committee was 
 appointed to inquire into the cause of the outbreak. The 
 stores of food and of lime-juice were shown to have been 
 ample; and the action of the leader in equipping his 
 sledging parties was in accordance with the judgment 
 and experience of successful explorers who gave evidence. 
 The cause of the outbreak remained a mystery. The 
 firm belief in the anti-scorbutic powers of "lime-juice" was 
 shaken, and this unfavourable opinion of its value has 
 been confirmed by medical officers who, during the recent 
 war, have been confronted by outbreaks of scurvy. These 
 outbreaks occurred among troops who, in military circum- 
 stances which rendered an adequate supply of fresh meat 
 and vegetables impossible, were supplied with lime-juice 
 prepared from the West Indian " sour-lime." 
 
 Under these circumstances, an experimental study of 
 scurvy has been carried out during the last four years 
 by a group of workers at the Lister Institute, together 
 with a historical inquiry as to the use of lime-juice. The 
 reports of these investigators have very great practical 
 value and far-reaching interest, as showing what disastrous 
 results may arise from inaccurate use of a word, and the 
 neglect to ascertain the exact nature of the material thing 
 upon which the issue between life and death may depend. 
 
 Here let me say that the staff of the Lister Institute
 
 THE STORY OF LIME-JUICE AND SCURVY 233 
 
 for medical research has done work in its laboratories in 
 Chelsea Gardens of the very greatest national importance 
 during the war. It was founded by public subscription, 
 and has now an endowment of some 10,000 a year. 
 Sir David Bruce, the chairman of its Council, gives in 
 the Report of the Governing Body for 1919 a very striking 
 summary of the work done in the laboratories and by the 
 staff of the Institute. The successful investigation of 
 trench fever and of tetanus, of the destruction of lice, and 
 of the effects of cold storage on food, besides the study 
 of scurvy and other diseases due to deficiency of what 
 are now called " accessory food factors" are, we learn, 
 the chief matters in which the Lister Institute was en- 
 gaged in the year 1918-19. Besides this, however, at its 
 farm at Elstree it has prepared and supplied to the War 
 Office, the Admiralty, the Overseas Forces, and the Local 
 Government Board more than a million doses of anti- 
 toxins (diphtheria and tetanus), bacterial vaccines (cholera, 
 plague, influenza), and other similar curative fluids 
 requiring for their safe production the highest skill and 
 most complete knowledge of recent discovery. And this 
 is only a sample of what the Lister Institute has been 
 doing for many consecutive years. 
 
 Now we return to the investigation of scurvy. Within 
 the last ten years the fact has been established (which 
 was more or less guessed and acted upon by medical men 
 of past days) that, in order to maintain health, the diet 
 of man and of many animals must contain not merely 
 the necessary quantities of meat or cheese-like bodies, 
 of fat and starch and sugar, but also minute quantities 
 of accessory food-factors which it is convenient to term 
 " vitamines." The name serves (though its etymology is 
 unsatisfactory) to indicate certain " proteids " or highly 
 complex nitrogenous compounds which are only to be 
 obtained from fresh and uncooked or slightly heated
 
 234 SECRETS OF EARTH AND SEA 
 
 vegetables and from some foods of animal origin. These 
 " vitamines " are destroyed by heat and by desiccation. 
 They have not yet been isolated though in some cases 
 extracted in a nearly pure state. Their presence or 
 absence is demonstrated by careful experiments in feeding 
 animals, such as guinea-pigs, with weighed quantities of 
 different foods. The "vitamine" is often found to be 
 present only in one part of a seed or fruit or special kind 
 of fat liable to i>e rejected in food preparation. An 
 important fact is that it may not amount to as much as 
 one-ten-thousandth of the weight of the food in which 
 it occurs ; and the part containing it may be overlooked 
 and rejected, or its value destroyed by heat or by desic- 
 cation. A committee on these " accessory food-factors " 
 is carrying on experiments at the Lister Institute. Dr. 
 F. G. Hopkins, F.R.S., who first discovered the importance 
 of one of these factors in feeding young rats, is the chair- 
 man, and Dr. Harriette Chick is the secretary. Three 
 kinds of these vitamines, or accessory food-factors, have 
 up to this date been recognized. The first is the anti- 
 neuritic or anti-beri-beri vitamine. Its principal sources 
 are the seeds of plants and the eggs of animals yeast- 
 cells are a rich source of it. Where " polished rice," as 
 in the Far East, is the staple article of diet, to the almost 
 entire exclusion of other food-stuffs, lassitude and severe 
 pains like those of rheumatism set in, and a whole colony 
 or shipload of Chinese " coolies " may be disabled. The 
 disease is called beri-beri, and it can be cured by ad- 
 ministering that part of the rice-grain (the skin and germ) 
 which is removed by " polishing," and unfortunately is 
 just that part which contains the needful vitamine. It 
 exists in very minute quantity, amounting to only one 
 part in ten thousand by weight of rice-grain. The second 
 " vitamine " recognized is the anti-rachitic factor (studied 
 by Hopkins), which tends to promote growth and prevent
 
 THE STORY OF LIME-JUICE AND SCURVY 235 
 
 " rickets " in young animals. Certain fats of animal origin 
 (milk) and green leaves contain it in minute quantity, and 
 are necessary for the life of young animals and for the 
 health of adults. 
 
 The third vitamine recognized is the anti-scorbutic, 
 the factor which prevents scurvy. It is found in fresh 
 vegetable tissues, and to a less extent in fresh animal 
 tissues. Its richest sources are cabbage, swedes, turnips, 
 lettuce, water-cress, and such fruits as lemons, oranges, 
 raspberries, and tomatoes; other vegetables have a less 
 value. Fresh milk and meat possess a definite but low 
 anti-scorbutic value. This vitamine (I am quoting the 
 report of the Committee, which has been issued to our 
 military, naval, and medical administrators and famine- 
 relief-workers throughout the world) suffers destruction 
 when the fresh food-stuffs containing it are subjected 
 to heat, or drying, as methods of preservation. It is 
 habitually destroyed and wasted by stewing fresh vegetables 
 with meat for two or three hours. All dry food-stuffs, 
 such as cereals, pulses, dried vegetables and dried milk, 
 are deficient in anti-scorbutic properties ; so also are 
 tinned vegetables and tinned meat hence the disgust to 
 which they soon give rise ! 
 
 The explanation of the mystery about lime-juice 
 (which a hundred years ago was used with absolute 
 success to prevent scurvy, and in 1875 was a dead failure) 
 is shown by the workers at the Lister Institute to be this 
 namely, " lime " and " lemon " are in origin the same 
 word, and have become applied in ways unrecognized by 
 the Admiralty and their medical advisers in various parts 
 of the world to which the citron, the lemon, the sweet- 
 lime and the sour-lime all varieties of one species, Citrus 
 medica of Linnaeus have been carried from their original 
 home of origin, the south-east of Asia. The original 
 effective and valuable "/*';*- juice" of the eighteenth
 
 236 SECRETS OF EARTH AND SEA 
 
 century was /emon-jmce, carefully prepared from lemons 
 in Sicily and Italy, and from 1804 to 1860 in Malta. 
 When the demand for it increased in the nineteenth 
 century, it was adulterated and made up from poor 
 fruit, as the commercial enterprise of contractors and 
 the fatuous incapacity of the naval authorities progressed 
 hand in hand. And then, in the early fifties, the West 
 Indian growers of the small sour-lime (Citrus medica 
 var. acida) in Montserrat got the naval contracts, the 
 honest intention of Sir William Burnett, the chief medical 
 officer of the Navy, being to establish a permanent and 
 first-rate supply. Strangely enough, the naval " lime-juice " 
 now really was /zV*-juice and no longer lemon- juice. By 
 a natural but fatal misconception, the medical value of 
 the juice, whether of lemon or of lime, was by all authori- 
 ties attributed to the citric acid present; and the only 
 tests applied to it were chemical ones, and not therapeutic. 
 The Lister Institute Committee have shown by therapeutic 
 experiment the feeding of guinea-pigs, in which scurvy 
 can be produced and cured at will that the anti-scorbutic 
 vitamine remains active and unimpaired in lemon-juice 
 from which all tJie citric acid has been extracted. And, 
 further, that the juice of the West Indian sour-lime 
 (Citrus medica acida\ although very rich in citric acid, 
 contains only one-fourth the anti-scorbutic vitamine which 
 the same quantity of the juice of the true lemon (Citrus 
 medica limonum) contains. This has been most carefully 
 established by prolonged series of feeding experiments. 
 It explains the failure of the /m^-juice in Sir George 
 Nares' Polar Expedition, and restores the confidence in 
 lemon-]u\c& based on the unanimous testimony of the 
 early records of its use. 
 
 Whilst lemon-juice is thus justified, Dr. Harriette 
 Chick has made a discovery which will go far to remove 
 it from supremacy. She finds that an anti-scorbutic food
 
 THE STORY OF LIME-JUICE AND SCURVY 237 
 
 can be prepared, when fresh vegetables or fruit are 
 scarce, by moistening any available seeds (wheat, barley, 
 rye, peas, beans, lentils) and allowing them to germinate. 
 This sprouted material possesses an anti-scorbutic value 
 equal to that of many fresh vegetables ; the unsprouted 
 seeds have none. Probably this explains the anti-scorbutic 
 value of sweet-wort and of beers made from lightly dried 
 malt ; and the total failure in this respect of our modern 
 beers made from kiln-dried malt. Dr. Chick, amongst 
 many other interesting and important results published 
 by members of the Lister Institute Committee, states 
 that the juice of raw swedes and of raw turnips is a 
 valuable anti-scorbutic (to be added to milk for the use 
 of artificially nourished infants) ; so, she states, is orange- 
 juice. But, contrary to the usual opinion, she finds that 
 beetroot has little or no anti-scorbutic value. The whole 
 subject is of extreme importance, and is necessarily in 
 a tentative stage of pioneer experiment.
 
 INDEX 
 
 Ages, successive, of stone, bronze, 
 
 and iron, 4 
 Aitken, Dr., F.R.S., on fog, cloud, 
 
 and odoriferous particles, 77 
 Alligator, simplification of, in the 
 
 decorative work of the Chiri- 
 
 qui Indians, 205 
 Altamira, cave of, discovery of pictures 
 
 in, 28 
 America (Central), stone slab from, 
 
 with carved swastika, 198 
 American Indians bead-work garter 
 
 with two swastikas, 197 
 Anglo-Saxon urn ornamented with 
 
 swastikas, 196 
 Aniline, 224 
 
 Animalcules, wheel, 157-172 
 Animation, suspended, 173-190 
 Anthracite, 217, 219 
 Anti-scorbutic value of germinating 
 
 wheat, barley, peas, beans, 
 
 lentils, discovered, 237 
 Anti-scorbutics, no use when dried, 
 
 230 
 or preservatives against scurvy 
 
 described, 235-236 
 studied at the Lister Institute, 
 
 233 
 Antler, engraved, from the cavern of 
 
 Lortet, 2 
 Arbelus, the, of ancient Greek 
 
 geometers, 215 
 Asphalt, 223, 225 
 Aurignacian negroid race, 8 
 
 Bacteria, suspended animation of, 
 177, 186, 187, 188 
 
 Bear engraved on stalagmite, 48 
 
 Beer, modern, not so effective an 
 anti-scorbutic (preserver from 
 scurvy) as older sorts, 237 
 
 Benzine, 224 
 
 Bison, pictures of, from walls of caves, 
 
 47 
 
 Bitumen, 223, 224 
 Bituminous coal, 219 
 Blue blood and pride of race, 154 
 colour of frogs, 78 
 
 of the Lake of Geneva, 83 
 of water, 74-85 
 Grotto of Capri, 82 
 Breeding and inter-breeding as a test, 
 
 102, 104, 131 
 Bridle seen in engravings of horse, 
 
 44,45 
 
 Brown, Horace, F.R.S., his experi- 
 ments with seeds at low 
 temperatures, 175 
 
 Bruce, Sir David, his report of the 
 work done by the Lister In- 
 stitute in 1919, 233 
 
 Buddha, footprint of the, picture 
 showing swastikas, 193 
 
 Bumpus, Prof., on variation in 
 sparrows, 118 
 
 Burnett, Sir William, by mistake 
 introduces in the Navy juice 
 of the sour-lime in place of 
 lemon-juice, 236 
 
 Burning water, fountains of, 225 
 
 Butterflies of the genus Vanessa, 
 
 97 
 several different species of white 
 
 and of blue, 97 
 several species united to form one 
 
 larger kind a genus, 95 
 species of, 94 
 the kinds of, 94 
 
 Caloric, an assumed entity, 186 
 Cannel (or candle) coal, 219 
 Carbon, weight of, annually dis- 
 charged over London, 218 
 Carboniferous system, the, 221
 
 2 4 
 
 SECRETS OP EARTH AND SEA 
 
 Cats, male, with blue eyes are deaf, 
 
 1 20 
 Cause of survival in the struggle for 
 
 life, 118, 119 
 Cave of Altamira, 28, 47 
 
 of Brassempouy, 51 
 
 of Combarelles, 32 
 
 of Font de Gaume, 29, 31 
 
 of Laugerie basse, 46 
 
 of Lortet, I 
 
 of Marsoulas (Haute Garonne), 
 
 44 
 
 of Mas d'Azil, 44 
 
 of Niaux (Ariege), 44 
 
 of St. Michel d'Arudy, 45 
 
 Caves, pictures on walls of, 7 
 
 Census of species of animals, 129 
 
 Chick, Dr. Harriette, secretary, and 
 Dr. Hopkins, F.R.S., chair- 
 man, of a committee investi- 
 gating accessory food-factors, 
 234 
 
 Chinese "great monad," 210 
 
 Circle, how to divide it so as to 
 describe a Totnoye, 214 
 
 Citrus medico, limonum, the lemon, 
 
 236 
 
 acida, the West Indian sour-lime, 
 236 
 
 Coal, 217-222 
 
 mines, annual output of, 221 
 
 Coal-tar, 224 
 
 Coffer-fish, 130 
 
 Cold, action of extreme, in preventing 
 chemical combination, 177 
 
 Copan, circular altar-stone from, 
 divided by an S-shaped trough 
 so as to resemble the Tomoye, 
 213 
 
 Correlated characters or structures, 
 119, 125 
 
 Crab, common shore, variations in, 
 118 
 
 Crag, the Red, of Suffolk, 38 
 the Norwich, 38 
 
 Crayfish, species of, 120 
 
 Cromagnard race, 8, 9 
 
 Cross-breeding of races, 140-156 
 
 Crystal Palace, the, sixty years ago, 
 84 
 
 Decorative design, 200-208 
 Deer, the picture of the Three, 13 
 
 Dewar, Sir James, his important 
 experiments on action of cold 
 and of light on phosphorescent 
 bacteria, 188 
 
 Diplodocus, a gigantic reptile, 85, 91 
 
 Discoveries falsely announced, and 
 others misrepresented or un- 
 noticed by newspapers, 173, 
 176 
 
 Dolphins (oceanic colour - changing 
 fish), 130 
 
 Equus the horse genus, the history of, 
 
 103 
 Exuberances of non - significant 
 
 growth, 127, 130 
 
 Fat boys of journalism, 173 
 Fertilization, resistance to hybrid, 
 
 136, 137, 138 
 
 Fish drawn between horse's legs, 23 
 Fishes, examples of strangely-shaped, 
 
 UO 
 
 Fleas, species of, 105 
 Flowers of tan survive desiccation, 
 
 179 
 
 Food, the accessory factors in, 233 
 Fylfot, the, 191 
 
 Gammadion, the, 191 
 
 Geometrical properties of the Tomoye, 
 
 216 
 Germ variation, a constant process, 
 
 112 
 
 Gigantic reptiles, 85, 87 
 Gigantosaurus, discovery of, in Africa, 
 
 87 
 upper-arm bone of, compared with 
 
 that of an elephant and of man, 
 
 89 
 Gills of crayfishes, 121 
 
 a new one discovered by a lady 
 
 student at Oxford, 123 
 Glacial period, 6 
 Goose engraved on reindeer antler, 
 
 49. 
 Grammatizing v. naturalizing in 
 
 decorative art, 202, 203 
 Grouse, the red and allied species, 
 
 116, 117 
 
 Harpoons of Azilian and Magdalenian 
 period, 3
 
 INDEX 
 
 741 
 
 Horses, cave-men's pictures of, 44, 45 
 Horses' heads drawn with bridle or 
 
 halter, 44, 45 
 Hybrids, 131-138 
 
 among allied species of fish, 133, 
 
 134 
 infertile and fertile, 134, 135 
 
 Inter-Glacial climate and animals, 9 
 
 Kaleidoscope, the living organism 
 
 compared to a, 112 
 Kelvin, Lord, on the origin of life, 
 
 186 
 Kipling, Mr. Rudyard, on primitive 
 
 man, 4 
 Koban necropolis, swastikas from, 196 
 
 Lake dwellings of Switzerland, 4 
 
 Lalanne, M., discovery by, of human 
 statuettes, 50 
 
 Laussel, rock-shelter of, human statu- 
 ettes from, 50 
 
 Life-saving qualities not alone sur- 
 vive in nature, 127 
 
 Lime-juice, action of, was not under- 
 stood, 231 
 
 and scurvy, 229-237 
 on long voyages, 231 
 shown to be effective when pre- 
 pared from the true lemon, 
 236 
 
 the original lime-juice was lemon- 
 juice, not the juice of the 
 sour-lime, 236 
 
 when prepared from West Indian 
 sour-lime not effective, 232 
 
 Linnseus, his method of naming and 
 classifying animals and plants, 
 99 
 
 Lion, wall engraving of, 48 
 
 Lister Institute, investigations carried 
 on there, 233 
 
 Lodge, Sir Oliver, on life, 185 
 
 Lortet, cavern of, I 
 
 Mammoth, engraving of, on ivory, 
 from the cave of La Madeleine, 
 27 
 
 Mammoths, engravings of, on walls 
 of caves, 31, 32, 33 
 
 Man, Isle of, and the Sicilian three- 
 legged emblem, 203 
 -' 16" 
 
 Mantell, Dr. Gideon, discoverer of 
 gigantic extinct reptiles, 84 
 
 Marsh-gas, 220 
 
 Milne- Ed wards, Alphonse, his pro- 
 posed experiment on cross- 
 breeding of races and species, 
 141 
 
 Miscegenation or cross-breeding of 
 human races, 148-156 
 
 Monaco, Prince of, his researches and 
 publications, 29 
 
 Mongrels denned as distinct from 
 
 hybrids, 138, 145 
 may exhibit fine qualities, 147 
 
 Monsters, 132 
 
 Mules between horse and ass, 103 
 
 Mykensean age, swastikas of, illus- 
 trated, 194, 195 
 
 Neander men, 8 
 
 Negro with European features dis- 
 liked by other negroes, 155 
 Neolithic people, 10 
 
 Ogee, a vague term, 215 
 
 swastika, so-called, 210, 213 
 Oil, boring for, 223 
 Oil-boring industry, 226 
 Oil-shales, 227 
 Okapi of the Congo Forest, not a 
 
 hybrid, 133 
 Olefines, 224 
 Osborn, Rev. Lord Sydney Godol- 
 
 phin, 179 
 
 Pairing as a test of species, 101, 
 
 I3J 
 
 Palaeolithic or ancient Stone Age, 5 
 
 Papilio, the genus of swallow- tailed 
 butterflies, 97 
 
 Paraffin series, 224 
 
 Peat, 219 
 
 Pedalion, the leg-bearing wheel ani- 
 malcule, 161, 163 
 
 to be compared with young of 
 certain prawns, 164 
 
 Petroleum, the name invented in 1855 
 by Prof. Silliman, 325 
 
 Pictet and de Candolle on suspended 
 animation, 175 
 
 Picture, the earliest, in the world, 
 
 1-25 
 of the Three Red Deer, 12, 13
 
 242 
 
 SECRETS OF EARTH AND SEA 
 
 Piette, Edouard, his excavations of 
 
 caves, I 
 
 Pigs and the paint-root, 119, 145 
 Pimpernel, red and blue, will not 
 
 inter-breed, 145 
 
 Indi 
 
 2IO 
 
 Pine ornament of 
 
 an shawls, 
 
 Pleistocene, a small fraction of earth's 
 
 crust, 42 
 
 series or system, 38, 39 
 Pliny the elder at Vesuvius, 58 
 Pocahontes, the Algonkian princess, 
 
 'S3 
 
 Prehistoric men, art of, 35-54 
 successive ages of, 36-39 
 Printings from engraved cylinders, 
 II, 16, 17 
 
 Race, pride of, 150, 152, 153 
 
 Racehorse, English thoroughbred, 
 history of, 147 
 
 Races, nature of, 143 
 
 produce mongrels by cross-breeding, 
 140 
 
 Reindeer, cave-man's engraving of, 46 
 period, 7 
 
 Restoration of the Lortet picture of 
 the Three Deer, 13 
 
 Rhinoceros drawn on wall of a cavern, 
 46 
 
 Rice, polished, the story of, and the 
 disease beri-beri, 234 
 
 Rock-oil, 225 
 
 Romanes, Dr. George, his experi- 
 ments on the suspended anima- 
 tion of seeds, 184 
 
 Rotifer, the common, or wheel ani- 
 malcule, 159 
 
 Scandinavian silver work showing 
 
 swastikas, 196 
 Schliemann, fragment of pottery 
 
 found by, in Tiryns, 23 
 swastikas discovered by, at His 
 
 sarlik, 193 
 
 Scurvy, description of, 229 
 Seeds, frozen, survive, 177 
 Simplification of decorative designs 
 
 (figures of), 206 
 Smoke nuisance, London citizen exe 
 
 cuted for producing it in 1306 
 
 217 
 Sparrows, variations in, 1 18 
 
 Species, an attempt to estimate their 
 
 number, 129 
 in the making, 108 
 Latin names for, why used, 96 
 not a convention, but a naturally 
 limited group of individuals, 
 100 
 not the same as a variety or a race, 
 
 101 
 
 of common English plants, 98 
 of cray fish, 120 
 types or type-specimens of, 96 
 what the word means, 91-99 
 Specific characters, 118-130 
 Spencer, Herbert, on life, 183 
 Spirals carved on mammoth ivory, 54 
 Statuette of a man, 53 
 St. Germain, museum of, I, n, 45 
 Stork theory of the swastika, 207 
 Strata of the earth's crust, thickness 
 
 of, 40, 41 
 
 Streptocone, the bent cone or comma- 
 like figure forming half a 
 Tomoye, 215, 216 
 
 Sulphuric acid, weight of poisonous, 
 annually discharged over 
 London, 218 
 Sun-fish, 130 
 Survival value, 124, 125 
 Suspended animation, 173-190 
 Swastika, mode of forming a, in India, 
 
 199 
 
 on a piece of painted pottery from 
 Tiryns, figure of, associated 
 with horse and fish, 23 
 possible derivation from a doubled 
 
 Tomoye, 210 
 
 related to the tetraskelion, with 
 four curved arms, shown in 
 Fig. 58, 212 
 the, 191-208 
 
 Tapirs, the two living species of, 109 
 Temperature, measurement of, 174 
 Thoroughbred English racehorse a 
 
 mongrel, 147 
 Tiger, sabre-toothed, 9 
 Time, estimate of, in geology, 43 
 Tinning of vegetables destroys their 
 
 anti-scorbutic value, 235 
 Tiryns, fragment of pottery from 
 
 (date 800 B.C.), and having 
 
 swastika and horse and fish, 23
 
 INDEX 
 
 243 
 
 Toads in coal, 221 
 
 Toleration in nature, 128 
 
 Tomoye, the, and its relation to the 
 
 swastika, 208-216 
 Triskelion of Sicily and the Isle of 
 
 Man, history of, 203 
 
 Variation in nature, 1 10 
 
 made use of by gardeners and 
 
 breeders, III 
 Varieties and gradational series in 
 
 nature, 114, 115 
 
 Veliger, young stage of marine snail, 
 drawing of, to compare with a 
 wheel animalcule, 181 
 Vesuvius, 55-73 
 
 as it appeared in A.D. 70, 57 
 ascent of, during eruption, 66 
 eruption of 1872 witnessed, 68-70 
 history of eruptions, 61-64 
 Vitamines or accessory food factors, 
 
 233 
 Volcanoes and eruptions, 72, 73 
 
 Water, blue colour of, 74-85 
 Weldon, Prof., on variation in the 
 shore-crab, 118 
 
 Wells, spouting and fountain, of 
 
 rock-oil, 227 
 Whales, their size and its limit, 
 
 86 
 Wheel animalcule, parasitic, on the 
 
 sea-worm Synapta, 172 
 animalcules, 157-172 
 
 book on, by Mr. Gosse and Dr. 
 
 Hudson, 158 
 
 compared with the young stages 
 of growth of marine snails, 171, 
 181 
 
 minute males of some, 166 
 pictures of, 159, 161, 162, 163, 
 
 169 
 
 some survive drying up of the 
 water in which they live, 166, 
 167, 178, 179 
 Willendorf, female statuette from, 
 
 5 
 Winans, Mr. Walter, on the picture 
 
 of the Three Deer, 19-22 
 Wolf, engraving of head of, 48 
 Women, carvings representing, 5> 
 
 51,52 
 
 Zebras, 103
 
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 MORRISON AND GIBB LTD. 
 EDINBURGH
 
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