Delineations Of The Ox Tribe The Natural History Of Bulls Bison
Chapter 1
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DELINEATIONS
OF
THE OX TRIBE.
DELINEATIONS
OF
THE OX TRIBE;
OR,
THE NATURAL HISTORY OF
BULLS, BISONS, AND BUFFALOES.
EXHIBITING
ALL THE KNOWN SPECIES
AND THE MORE REMARKABLE VARIETIES
OF
THE GENUS BOS.
BY GEORGE VASEY.
ILLUSTRATED BY 72 ENGRAVINGS ON WOOD, BY THE AUTHOR.
LONDON: PUBLISHED BY G. BIGGS, 421, STRAND. 1851.
C. AND J. ADLARD, PRINTERS, BARTHOLOMEW CLOSE.
* * * * * TO
WILLIAM YARRELL, Esq., F.L.S., F.Z.S.,
WHOSE SCIENTIFIC WORKS ON ZOOLOGY
PLACE HIM IN THE FIRST RANK OF NATURALISTS;
AND, MOREOVER,
WHOSE UNOSTENTATIOUS KINDNESS IN CONSULTING THE FEELINGS
AND ADVANCING THE INTERESTS OF OTHERS
IS RARELY EQUALLED,
This Volume is inscribed,
BY HIS SINCERE FRIEND AND ADMIRER,
THE AUTHOR.
PREFACE.
The primary object of the present work, is to give as correct and comprehensive a view of the animals composing the Ox Tribe, as the present state of our knowledge will admit, accompanied by authentic figures of all the known species and the more remarkable varieties.
Although this genus (comprising all those Ruminants called Buffaloes, Bisons, and Oxen generally,) is as distinct and well characterised as any other genus in the animal kingdom, yet the facts which are at present known respecting the various species which compose it, are not sufficiently numerous to enable the naturalist to divide them into sub-genera. This is abundantly proved by the unsuccessful result of those attempts which have already been made to arrange them into minor groups. Nor can we wonder at this want of success, when we consider that even many of the species usually regarded as distinct are by no means clearly defined.
The second object, therefore, of this treatise, is (by bringing into juxta-position all the most important facts concerning the various individual specimens which have been described, and by adding several other facts of importance which have not hitherto been noticed,) to enable the naturalist to define, more correctly than has yet been done, the peculiarities of each species.
A third object is to direct the attention of travellers more particularly to this subject; in order that, by their exertions, our information upon this class of animals may be rendered more complete.
A new and important feature in the present Monograph, is the introduction of a Table of the Number of Vertebrae, carefully constructed from an examination of the actual skeletons, by which will be seen at a glance the principal osteological differences of species which have hitherto been confounded with each other. A Table of the Periods of Gestation is likewise added, which presents some equally interesting results.
Several of the descriptions have been verified by a reference to the living animals, seven specimens of which are at present (1847) in the Gardens of the Zoological Society, Regent's Park. The several Museums in the Metropolis have likewise been consulted with advantage.
I am indebted to Judge FURNAM, of the United States, for some original information respecting the American Bison; and also to the late Mr. COLE, who was forty years park-keeper at Chillingham, for answers to several questions which I proposed to him on the subject of the Chillingham Cattle.
I beg to acknowledge my obligation to Mr. CATLIN for kindly allowing me, not only to make extracts, but also to copy some of the outlines from his 'Letters and Notes on the North American Indians,' a work which I do not hesitate to pronounce one of the most curious and interesting which the present century has produced,--whether we regard the graphic merits of its literary or pictorial department.
To Professor OWEN and the Officers of the Royal College of Surgeons, to the Officers of the Zoological Society, and to the Officers of the Zoological Department of the British Museum, my sincere thanks are due for the kindness and promptness with which every information has been given, and every facility afforded to my inquiries and investigations.
With respect to the engraved figures, I have striven to produce correct delineations of form and texture, rather than to make pretty pictures by sacrificing truth and nature for the sake of ideal beauty and artistic effect.
I cannot conclude this Preface without expressing my thanks to Messrs. ADLARD for the first-rate style in which this volume has been printed; particularly for the successful manner in which the impressions of the engravings have been produced, superior, in general, to India-proof impressions.
_King Street, Camden Town;_ _May, 1851._
ADDENDUM.
PENNANT--BUFFON--GOLDSMITH--BEWICK--BINGLEY.
In addition to the critical remarks on the writings of others, on this subject, which the reader will find in the following pages, I have further to observe that, although Pennant and Buffon have held a very high character, for many years, as scientific naturalists, the portion of their works which treats of the _Genus Bos_, appears to have been the result of the most careless and superficial observation. With the exception of the facts and observations furnished by such men as Daubenton and Pallas, Buffon's works are little more than flimsy speculations. As to Pennant's history of the Ox Tribe, it is calculated rather to bewilder than to inform; it is, in fact, an incoherent mass of dubious statements, huddled together in a most inextricable confusion: as a piece of Natural History it is absolutely worse than nothing.
Goldsmith, Bewick, and Bingley, three of our most popular writers on Natural History, appear to have done little more than compile from Pennant and Buffon, and consequently are but little deserving of credit. These strictures apply exclusively to such portions of their works as relate to the Ox Tribe.
TABLE OF CONTENTS.
Page
Introduction 1
American Bison 21
Aurochs 40
Yak 45
Gyall 51
Gayal 57
Domestic Gayal 68
Jungly Gau 71
Buffalo 75
Italian Buffalo 76
Manilla Buffalo 81
Condore Buffalo 84
Cape Buffalo 86
Pegasse 95
Gaur 97
Arnee 105
Zamouse 112
Musk Ox 115
Galla Ox 120
Zebu, or Brahmin Bull 125
Backeley Ox 133
African Bull 137
Chillingham Cattle 140
Kyloe, or Highland Ox 150
Table of the Number of Vertebrae 152
Table of the Periods of Gestation 153
Note on the Skeleton of the American Bison 154
APPENDIX. Page
Free Martin 155
Short-nosed Ox 159
On the utility of the Ox Tribe to Mankind 160
Account of Alpine Cowherds --Notice of Ranz des Vaches 164
Table of Habitat 168
---- Mode of Life 169
Indefinite Definitions of Col. H. Smith 170
Mr. Swainson's Transcendental Attempt at Classification 176
On Species and Variety 181
Banteng (_Bos Bantiger_) 185
British Domestic Cattle 186
Influence of Colour in Breeding ib.
Influence of Male in Breeding 187
Generative Precocity ib.
Milk 188
Butter 189
Mr. Youatt's Philosophy of Rabies 190
Statistics 192
LIST OF ENGRAVINGS.
(_The Engravings not otherwise acknowledged are from original Drawings._)
Page
1. Frontispiece.--The Sangu, or Abyssinian Ox i
2. Stomach of Manilla Buffalo 4
3. Gastro-duct (Oesophagean Canal), after Flourens 6
4. Stomach of a young Calf 12
5. Stomach of a full-grown Cow 13
6. Skull of Domestic Ox 17
7. Skeleton of Domestic Ox 20
8. American Bison 21
9. Young Female Bison 23
10. Wounded Bison 24
11. Indian shooting a Bison 29
12. Bison surrounded by Wolves 32
13. Bison Calf, after Cuvier 33
14. Skin Canoes of the Mandan Indians 36
15. Head of young Male Bison 39
16. Aurochs, or European Bison 40
17. Yak, from Asiatic Transactions 45
18. Yak, from Oriental Annual 49
19. Gyall (_Bos Frontalis_) 51
20. Head of Gyall 53
21. Gayal, from Asiatic Transactions 58
22. Head of Asseel Gayal 67
23. Domestic Gayal 68
24. Skull of Domestic Gayal 69
25. Occipital View of the same Skull ib.
26. Head of Domestic Gayal ib.
27. Jungly Gau, after Cuvier 71
28. Syrian Ox, anon. 74
29. Italian Buffalo--Brandt and Ratzeburg 76
30. Herefordshire Cow, after Howitt 80
31. Manilla Buffalo 81
32. Outlines of Buffaloes Backs 82
33. Head of Manilla Buffalo 83
34. Pulo Condore Buffalo 84
35. Short-horned Bull, after Howitt 85
36. Cape Buffalo 86
37. Young Cape Buffalo, after Col. Smith 90
38. Head of Cape Buffalo 94
39. Pegasse, from a Drawing in the Berlin Library 95
40. Horns of Cape Buffalo 96
41. Gaur, from Specimen in British Museum 97
42. Horns of Gaur, Edin. Phil. Trans. 103
43. Head of Gaur 104
44. Arnee, from Shaw's Zoology 105
45. Horns of Young Arnee, from 'The Bee' 107
46. Horns of Arnee, from Mus. Coll. Surg. 108
47. Horns of Arnee, from British Museum ib.
48. Arnee from Indian Painting 111
49. Zamouse, or Bush Cow 112
50. Head of Zamouse 114
51. Musk Ox 115
52. Foot of Musk Ox, Griff., Cuv. 117
53. Head of Musk Ox 119
54. Horns of Galla Ox, Mus. Coll. Surg. 123
55. Horns of Hungarian Ox, Brit. Mus. 124
56. Brahmin Bull, Harvey, Zool. Gar. 125
57. Zebu (var. beta), after Cuvier 128
58. Zebus (var. gamma) and Car, anon. 129
59. Zebu (var. delta), anon. 132
60. African Bull, Harvey 137
61. Eyes of African Bull, Harvey 139
62. Lateral Hoofs of African Bull, Harvey ib.
63. Dewlap of African Bull, Harvey 139
64. Chillingham Bull 140
65. Heads of Chillingham Cattle 148
66. Kyloe, or Highland Ox, Howitt 150
67. Free Martin, Hunter's Animal Economy 156
Skull of Domestic Ox, (repetition of fig. 6) 158
68. Skull of Short-nosed Ox of the Pampas 159
69. Outlines of Manilla Buffalo 174
70. Hungarian Ox, from British Museum 175
71. Banteng, from a Specimen in Brit. Mus. 185
72. Alderney Cow, after Howitt 189
INTRODUCTION.
Ruminantia is the term used by naturalists to designate those mammiferous quadrupeds which chew the cud; or, in other words, which swallow their food, in the first instance, with a very slight mastication, and afterwards regurgitate it, in order that it may undergo a second and more complete mastication: this second operation is called ruminating, or chewing the cud. The order of animals which possess this peculiarity, is divided into nine groups or genera, namely:--
CAMELS. LLAMAS. MUSKS. DEER. GIRAFFES. ANTELOPES. GOATS. SHEEP. OXEN.
The last named forms the subject of the following pages, and is called, in zoological language, the _Genus Bos_, in popular language, the OX TRIBE.
One of the most interesting occupations which the wide field of Zoology offers to the naturalist, is the investigation of those remarkable adaptations of organs to functions, and of these again to the necessities and well-being of the entire animal. Nor does it in the least diminish our interest in the investigation of individual adaptations, or our admiration on becoming acquainted with them, that we know, _a priori_, this universal truth, that all the constituents of every organised body, be that organisation what it may, are invariably adapted, in the most perfect manner, to each other, and to the whole.
It is by a knowledge of this exact harmony in the animal economy, that the comparative anatomist can determine, with almost unerring precision, the genus, or even species of an animal, by an examination of any important part of its organisation, as the teeth, stomach, bones, or extremities. In some cases, a single bone, or even the fragment of a bone, is sufficient to convey an idea of the entire animal to which it belonged.
In illustration of this:--if the viscera of an animal are so organised as only to be fitted for the digestion of recent flesh, we find that the jaws are so contracted as to fit them for devouring prey; the claws for seizing and tearing it to pieces; the teeth for cutting and dividing its flesh; the entire system of the limbs, or organs of motion, for pursuing and overtaking it; and the organs of sense for discovering it at a distance. Moreover, the brain of the animal is also endowed with instincts sufficient for concealing itself, and for laying plans to catch its necessary prey.
Again, we are well aware that all _hoofed_ animals must necessarily be herbivorous, or vegetable feeders, because they are possessed of no means of seizing prey. It is also evident, having no other use for their fore-legs than to support their bodies, that they have no occasion for a shoulder so vigorously organised as that of carnivorous animals; owing to which they have no clavicles, and their shoulder-blades are proportionally narrow. Having also no occasion to turn their forearms, their radius is joined by ossification to the ulna, or is at least articulated by gynglymus with the humerus. Their food being entirely herbaceous, requires teeth with flat surfaces, on purpose to bruise the seeds and plants on which they feed. For this purpose, also, these surfaces require to be unequal, and are, consequently, composed of alternate perpendicular layers of enamel and softer bone. Teeth of this structure necessarily require horizontal motions to enable them to triturate, or grind down the herbaceous food; and accordingly the condyles of the jaw could not be formed into such confined joints as in the carnivorous animals, but must have a flattened form, correspondent to sockets in the temporal bones. The depressions, also, of the temporal bones, having smaller muscles to contain, are narrower and not so deep; and so on, throughout the whole organisation.
The digestive system of the ruminantia is more complicated in structure than that of any other class of animals; and, owing to this complexity, and the consequent difficulty of investigating it, its nature and functions have been less perfectly understood.
The stomach of the Manilla Buffalo, which will serve as an example of all the other species, is divided into four cavities or ventricles, which are usually (but improperly) considered as four distinct stomachs.
The following figure represents the form, relative size, and position of these four cavities when detached from the animal, and fully inflated.
The interior of those cavities present some remarkable differences in point of structure, which, in the present work, can only be alluded to in a very general manner. For a particular account of the internal anatomy of these complicated organs, the reader is referred to the interesting work on 'Cattle,' by W. Youatt.
The paunch is lined with a thick membrane, presenting numerous prominent and hard papillae. The inner surface of the second cavity is very artificially divided into angular cells, giving it somewhat the appearance of honeycomb, whence its name "honeycomb-bag." The lining membrane of the third cavity forms numerous deep folds, lying upon each other like the leaves of a book, and beset with small hard tubercles. These folds vary in breadth in a regular alternate order, a narrow fold being placed between each of the broader ones. The fourth cavity is lined with a velvety mucous membrane disposed in longitudinal folds. It is this part of the stomach that furnishes the gastric juice, and, consequently, it is in this cavity that the proper digestion of the food takes place; it is here, also, that the milk taken by the calf is coagulated. The reed or fourth cavity of the calf's stomach retains its power of coagulating milk even after it has been taken from the animal. We have a familiar instance of its operation in the formation of curds and whey.
The first and second cavities (_a_ and _b_) are placed parallel (or on a level) with each other; and the oesophagus (_e_) opens, almost equally, into them both. On each side of the termination of the oesophagus there is a muscular ridge projecting, so that the two together form a sort of groove or channel, which opens almost equally into the second and third cavities (_b_ and _c_).
[As there has not been, as far as I am aware, any appropriate name given to this very remarkable part of the stomach of ruminants, I here take the liberty of suggesting the term _Gastro-duct_, by which epithet this muscular channel will be designated in the following pages.]
All these parts, namely, the oesophagus, the gastro-duct, and the first three cavities, not only communicate with each other, but they communicate by one common point, and that point is the gastro-duct. At the extremity of the third cavity, opposite to that at which the gastro-duct enters it, is an aperture which communicates immediately with the fourth cavity (_d_).
Such is a very brief description of the complicated stomach of the Ox Tribe. In what manner the food passes through this curious arrangement of cavities is a problem which has engaged the attention of naturalists from a very early period. A host of great men might be cited who have failed to solve it. The French physiologist, M. Flourens, by his recent experiments, has done more than any or all of his predecessors to give clearness and precision to this intricate subject.
The following is an abstract of the most important of his experiments:--
A sheep having been fed on fresh trefoil, was killed and opened immediately,--that is, before the process of rumination had commenced. He (M. Flourens) found the greatest part of this herb (easily recognised by its leaves, which were still almost entire,) in the paunch; but he also found a certain portion (_une partie notable_) of those leaves (in the same unmasticated state) in the honeycomb. In the other two cavities, (the many-plies and the reed,) there was absolutely none.
M. Flourens repeated this experiment a great many times, with herbs of various kinds, and the result was constantly the same: from which it appears, that herbaceous food, on its first deglutition, enters into the honeycomb, as well as into the paunch; the proportion, however, being considerably greater into the paunch than into the honeycomb. It appears equally certain that, in the first swallowing, this kind of food _only_ enters into the first two cavities, and never passes into the many-plies or the reed.
Having ascertained this fact with respect to _herbs_, he instituted a similar series of experiments, in which the animals were fed upon various kinds of _grain_,--rye, barley, wheat, oats, &c. The animals were killed and examined, as in the former experiments, immediately after being fed. He found the greater part of the grain unmasticated (_tout entier_) in the paunch; but, as in the case of the herbs, he also found a certain portion, in the same unmasticated state, in the honeycomb. Neither the many-plies nor the reed contained a single grain. He repeated these experiments many times, and always with the same result.
He then tried the effect of carrots cut into pieces, from half an inch to an inch in length; and in order that the animals might not chew them, he passed them into the pharynx by means of a tube. In one of these sheep he found all the morsels in the paunch; but, in the other two, some of the morsels were in the honeycomb, and some in the paunch. In all the three cases, there was none either in the many-plies or in the reed.