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38

I cordially subscribe to the remark of one of the greatest thinkers of our time, who says of the supposed differences of race, ‘of all vulgar modes of escaping from the consideration of the effect of social and moral influences on the human mind, the most vulgar is that of attributing the diversities of conduct and character to inherent natural differences.’ Mill's Principles of Political Economy, vol. i. p. 390. Ordinary writers are constantly falling into the error of assuming the existence of this difference, which may or may not exist but which most assuredly has never been proved. Some singular instances of this will be found in Alison's History of Europe, vol. ii. p. 336, vol. vi. p. 136, vol. viii. pp. 525, 526, vol. xiii. p. 347; where the historian thinks that by a few strokes of his pen he can settle a question of the greatest difficulty, connected with some of the most intricate problems in physiology. On the supposed relation between race and temperament, see Comte, Philosophie Positive, vol. iii. p. 355.

39

As to the proper limits of physical geography, see Prichard on Ethnology, in Report of the British Association for 1847, p. 235. The word ‘climate’ I always use in the narrow and popular sense. Dr. Forry and many previous writers make it nearly coincide with ‘physical geography:’ ‘Climate constitutes the aggregate of all the external physical circumstances appertaining to each locality in its relation to organic nature.’ Forry's Climate of the United States and its Endemic Influences, New York, 1842, p. 127.

40

By unemployed classes, I mean what Adam Smith calls the unproductive classes; and though both expressions are strictly speaking inaccurate, the word ‘unemployed’ seems to convey more clearly than any other the idea in the text.

41

This has been entirely neglected by the three most philosophical writers on climate: Montesquieu, Hume, and M. Charles Comte in his Traité de Législation. It is also omitted in the remarks of M. Guizot on the influence of climate, Civilisation en Europe, p. 97.

42

See the admirable remarks in Laing's Denmark, 1852, pp. 204, 366, 367; though Norway appears to be a better illustration than Denmark. In Rey's Science Sociale, vol. i. pp. 195, 196, there are some calculations respecting the average loss to agricultural industry caused by changes in the weather; but no notice is taken of the connexion between these changes, when abrupt, and the tone of the national character.

43

This expression has been used by different geographers in different senses; but I take it in its common acceptation, without reference to the more strictly physical view of Ritter and his followers in regard to Central Asia. See Prichard's Physical History of Mankind, vol. iv. p. 278, edit. 1844. At p. 92, Prichard makes the Himalaya the southern boundary of Central Asia.

44

There is reason to believe that the Tartars of Thibet received even their alphabet from India. See the interesting Essay on Tartarian Coins in Journal of Asiatic Society, vol. iv. pp. 276, 277; and on the Scythian Alphabet, see vol. xii. p. 336.

45

In Somerville's Physical Geography, vol. i. p. 132, it is said that in Arabia there are ‘no rivers;’ but Mr. Wellsted (Travels in Arabia, vol. ii. p. 409) mentions one which empties itself into the sea five miles west of Aden. On the streams in Arabia, see Meiners über die Fruchtbarkeit der Länder, vol. i. pp. 149, 150. That the sole deficiency is want of irrigation appears from Burckhardt, who says (Travels in Arabia, vol. i. p. 240), ‘In Arabia, wherever the ground can be irrigated by wells, the sands may be soon made productive.’ And for a striking description of one of the oases of Oman, which shows what Arabia might have been with a good river system, see Journal of Geographical Society, vol. vii. pp. 106, 107.

46

Mr. Morier (Journal of Geog. Soc. vol. vii. p. 230) says, ‘the conquest of Persia by the Saracens a. d. 651.’ However, the fate of Persia was decided by the battles of Kudseah and Nahavund, which were fought in 638 and 641: see Malcolm's History of Persia, vol. i. pp. xvi. 139, 142.

47

In 712. Hallam's Middle Ages, vol. i. p. 369.

48

They were established in the Punjaub early in the ninth century, but did not conquer Guzerat and Malwa until five hundred years later. Compare Wilson's note in the Vishnu Purana, pp. 481, 482, with Asiatic Researches, vol. ix. pp. 187, 188, 203. On their progress in the more southern part of the Peninsula, see Journal of Asiatic Society, vol. iii. pp. 222, 223, vol. iv. pp. 28–30.

49

‘A race of pastoral barbarians.’ Dickinson on the Arabic Language, in Journal of Asiat. Society, vol. v. p. 323. Compare Reynier, Economie des Arabes, pp. 27, 28; where, however, a very simple question is needlessly complicated. The old Persian writers bestowed on them the courteous appellation of ‘a band of naked lizard-eaters.’ Malcolm's Hist. of Persia, vol. i. p. 133. Indeed, there are few things in history better proved than the barbarism of a people whom some writers wish to invest with a romantic interest. The eulogy passed on them by Meiners is rather suspicious, for he concludes by saying, ‘die Eroberungen der Araber waren höchst selten so blutig und zerstörend, als die Eroberungen der Tataren, Persen, Türken, u.s.w. in ältern und neuern Zeiten waren.’ Fruchtbarkeit der Länder, vol. i. p. 153. If this is the best that can be said, the comparison with Tartars and Turks does not prove much; but it is singular that this learned author should have forgotten a passage in Diodorus Siculus which gives a pleasant description of them nineteen centuries ago on the eastern side: Bibliothec. Hist. lib. ii. vol. ii. p. 137. ἕχουσι δὲ βίον λῃςτρικὸν, καὶ πολλὴν τῆς ὁμόρον χώρας κατατρέχοντες λῃστεύουσιν, &c.

50

The only branch of knowledge which the Arabians ever raised to a science was astronomy, which began to be cultivated under the caliphs about the middle of the eighth century, and went on improving until ‘la ville de Bagdad fut, pendant le dixième siècle, le théâtre principal de l'astronomie chez les orientaux.’ Montucla, Histoire des Mathématiques, vol. i. pp. 355, 364. The old Pagan Arabs, like most barbarous people living in a clear atmosphere, had such an empirical acquaintance with the celestial phenomena as was used for practical purposes; but there is no evidence to justify the common opinion that they studied this subject as a science. Dr. Dorn (Transactions of the Asiatic Society, vol. ii. p. 371) says, ‘of a scientific knowledge of astronomy among them no traces can be discovered.’ Beausobre (Histoire de Manichée, vol. i. p. 20) is quite enthusiastic about the philosophy of the Arabs in the time of Pythagoras! and he tells us, that ‘ces peuples out toujours cultivé les sciences.’ To establish this fact, he quotes a long passage from a life of Mohammed written early in the eighteenth century by Boulainvilliers, whom he calls, ‘un des plus beaux génies de France.’ If this is an accurate description, those who have read the works of Boulainvilliers will think that France was badly off for men of genius; and as to his life of Mohammed, it is little better than a romance: the author was ignorant of Arabic, and knew nothing which had not been already communicated by Maracci and Pococke. See Biographie Universelle, vol. v. p. 321.

In regard to the later Arabian astronomers, one of their great merits was to approximate to the value of the annual precession much closer than Ptolemy had done. See Grant's History of Physical Astronomy, 1852, p. 319.

51

Indeed it goes beyond it: ‘the trackless sands of the Sahara desert, which is even prolonged for miles into the Atlantic Ocean in the form of sandbanks.’ Somerville's Physical Geography, vol. i. p. 149. For a singular instance of one of these sandbanks being formed into an island, see Journal of Geograph. Society, vol. ii. p. 284. The Sahara desert, exclusive of Bornou and Darfour, covers an area of 194,000 square leagues; that is, nearly three times the size of France, or twice the size of the Mediterranean. Compare Lyell's Geology, p. 694, with Somerville's Connexion of the Sciences, p. 294. As to the probable southern limits of the plateau of the Sahara, see Richardson's Mission to Central Africa, 1853, vol. ii. pp. 146, 156; and as to the part of it adjoining the Mandingo country, see Mungo Park's Travels, vol. i. pp. 237, 238. Respecting the country south of Mandara, some scanty information was collected by Denham in the neighbourhood of Lake Tchad. Denham's Northern and Central Africa, pp. 121, 122, 144–146.

52

Richardson, who travelled through it south of Tripoli, notices its ‘features of sterility, of unconquerable barrenness.’ Richardson's Sahara, 1848, vol. i. p. 86; and see the striking picture at p. 409. The long and dreary route from Mourzouk to Yeou, on Lake Tchad, is described by Denham, one of the extremely few Europeans who have performed that hazardous journey. Denham's Central Africa, pp. 2–60. Even on the shore of the Tchad there is hardly any vegetation, ‘a coarse grass and a small bell-flower being the only plants that I could discover,’ p. 90. Compare his remark on Bornou, p. 317. The condition of part of the desert in the fourteenth century is described in the Travels of Ibn Batuta, p. 233, which should be compared with the account given by Diodorus Siculus of the journey of Alexander to the temple of Ammon. Bibliothec. Historic. lib. xvii. vol. vii. p. 348.

53

Richardson, who travelled in 1850 from Tripoli to within a few days of Lake Tchad, was struck by the stationary character of the people. He says, ‘neither in the desert nor in the kingdoms of Central Africa is there any march of civilization. All goes on according to a certain routine established for ages past.’ Mission to Central Africa, vol. i. pp. 304, 305. See similar remarks in Pallme's Travels in Kordofan, pp. 108, 109.

54

Abd-Allatif, who was in Egypt early in the thirteenth century, gives an interesting account of the rising of the Nile, to which Egypt owes its fertility. Abd-Allatif, Relation de l'Egypte, pp. 329–340, 374–376, and Appendix, p. 504. See also on these periodical inundations. Wilkinson's Ancient Egyptians, vol. iv. pp. 101–104; and on the half-astronomical half theological notions connected with them, pp. 372–377, vol. v. pp. 291, 292. Compare on the religious importance of the Nile Bunsen's Egypt, vol. i. p. 409. The expression, therefore, of Herodotus (book ii. chap. v. vol. i. p. 484), δῶρον τοῦ ποταμοῦ is true in a much larger sense than he intended; since to the Nile Egypt owes all the physical peculiarities which distinguish it from Arabia and the great African desert. Compare Heeren's African Nations, vol. ii. p. 58; Reynier, Economie des Arabes, p. 3; Postan's on the Nile and Indus, in Journal of Asiatic Society, vol. vii. p. 275; and on the difference between the soil of the Nile and that of the surrounding desert, see Volney, Voyage en Syrie et en Egypte, vol. i. p. 14.

55

‘The average breadth of the valley from one mountain-range to the other, between Cairo in Lower, and Edfoo in Upper Egypt, is only about seven miles; and that of the cultivable land, whose limits depend on the inundation, scarcely exceeds five and a half.’ Wilkinson's Ancient Egyptians, vol. i. p. 216. According to Gerard, ‘the mean width of the valley between Syene and Cairo is about nine miles.’ Note in Heeren's African Nations, vol. ii. p. 62.

56

I will give one instance of this from an otherwise sensible writer, and a man too of considerable learning: ‘As to the physical knowledge of the Egyptians, their cotemporaries gave them credit for the astonishing power of their magic; and as we cannot suppose that the instances recorded in Scripture were to be attributed to the exertion of supernatural powers, we must conclude that they were in possession of a more intimate knowledge of the laws and combinations of nature than what is professed by the most learned men of the present age.’ Hamilton's Ægyptiaca, pp. 61, 62. It is a shame that such nonsense should be written in the nineteenth century: and yet a still more recent author (Vyse on the Pyramids, vol. i. p. 28) assures us that ‘the Egyptians, for especial purposes, were endowed with great wisdom and science.’ Science properly so called, the Egyptians had none; and as to their wisdom, it was considerable enough to distinguish them from barbarous nations like the old Hebrews, but it was inferior to that of the Greeks, and it was of course immeasurably below that of modern Europe.

57

Indeed many of them are still unknown; for, as M. Rey justly observes, most writers pay too exclusive an attention to the production of wealth, and neglect the laws of its distribution. Rey, Science Sociale, vol. iii. p. 271. In confirmation of this, I may mention the theory of rent, which was only discovered about half a century ago, and which is connected with so many subtle arguments that it is not yet generally adopted; and even some of its advocates have shown themselves unequal to defending their own cause. The great law of the ratio between the cost of labour and the profits of stock, is the highest generalization we have reached respecting the distribution of wealth; but it cannot be consistently admitted by anyone who holds that rent enters into price.

58

In a still more advanced stage, there is a fourth division of wealth, and part of the produce of labour is absorbed by rent. This, however, is not an element of price, but a consequence of it; and in the ordinary march of affairs, considerable time must elapse before it can begin. Rent, in the proper sense of the word, is the price paid for using the natural and indestructible powers of the soil, and must not be confused with rent commonly so called; for this last also includes the profits of stock. I notice this, because several of the opponents of Ricardo have placed the beginning of rent too early, by overlooking the fact that apparent rent is very often profits disguised.

59

‘Wages depend, then, on the proportion between the number of the labouring population, and the capital or other funds devoted to the purchase of labour; we will say, for shortness, the capital. If wages are higher at one time or place than at another, if the subsistence and comfort of the class of hired labourers are more ample, it is, and can be, for no other reason than because capital bears a greater proportion to population. It is not the absolute amount of accumulation or of production that is of importance to the labouring class; it is not the amount even of the funds destined for distribution among the labourers; it is the proportion between those funds and the numbers among whom they are shared. The condition of the class can be bettered in no other way than by altering that proportion to their advantage; and every scheme for their benefit which does not proceed on this as its foundation, is, for all permanent purposes, a delusion.’ Mill's Principles of Political Economy, 1849, vol. i. p. 425. See also vol. ii. pp. 264, 265, and M'Culloch's Political Economy, pp. 379, 380. Ricardo, in his Essay on the Influence of a Low Price of Corn, has stated, with his usual terseness, the three possible forms of this question: ‘The rise or fall of wages is common to all states of society, whether it be the stationary, the advancing, or the retrograde state. In the stationary state, it is regulated wholly by the increase or falling-off of the population. In the advancing state, it depends on whether the capital or the population advance at the more rapid course. In the retrograde state, it depends on whether population or capital decrease with the greater rapidity.’ Ricardo's Works, p. 379.

60

The standard of comfort being of course supposed the same.

61

‘No point is better established, than that the supply of labourers will always ultimately be in proportion to the means of supporting them.’ Principles of Political Economy, chap. xxi. in Ricardo's Works, p. 176. Compare Smith's Wealth of Nations, book i. chap. xi. p. 86, and M'Culloch's Political Economy, p. 222.

62

The division of food into azotized and non-azotized is said to have been first pointed out by Magendie. See Müller's Physiology, vol. i. p. 525. It is now recognised by most of the best authorities. See, for instance, Liebig's Animal Chemistry, p. 134; Carpenter's Human Physiology, p. 685; Brande's Chemistry, vol. ii. pp. 1218, 1870. The first tables of food constructed according to it were by Boussingault; see an elaborate essay by Messrs. Lawes and Gilbert on The Composition of Foods, in Report of British Association for 1852, p. 323: but the experiments made by these gentlemen are neither numerous nor diversified enough to establish a general law; still less can we accept their singular assertion, p. 346, that the comparative prices of different foods are a test of the nutriment they comparatively contain.

63

‘Of all the elements of the animal body, nitrogen has the feeblest attraction for oxygen; and, what is still more remarkable, it deprives all combustible elements with which it combines, to a greater or less extent, of the power of combining with oxygen, that is, of undergoing combustion.’ Liebig's Letters on Chemistry, p. 372.

64

The doctrine of what may be called the protecting power of some substances is still imperfectly understood, and until late in the eighteenth century, its existence was hardly suspected. It is now known to be connected with the general theory of poisons. See Turner's Chemistry, vol. i. p. 516. To this we must probably ascribe the fact that several poisons which are fatal when applied to a wounded surface, may be taken into the stomach with impunity. Brodie's Physiological Researches, 1851, pp. 137, 138. It seems more reasonable to refer this to chemical laws than to hold, with Sir Benjamin Brodie, that some poisons ‘destroy life by paralysing the muscles of respiration without immediately affecting the action of the heart.’

65

Prout's well-known division into saccharine, oily, and albuminous, appears to me of much inferior value, though I observe that it is adopted in the last edition of Elliotson's Human Physiology, pp. 65, 160. The division by M. Lepelletier into ‘les alimens solides et les boissons’ is of course purely empirical. Lepelletier, Physiologie Médicale, vol. ii. p. 100, Paris, 1832. In regard to Prout's classification, compare Burdach's Traité de Physiologie, vol. ix. p. 240, with Wagner's Physiology, p. 452.

66

The evidence of an universal connexion in the animal frame between exertion and decay, is now almost complete. In regard to the muscular system, see Carpenter's Human Physiology, pp. 440, 441, 581, edit. 1846: ‘there is strong reason to believe the waste or decomposition of the muscular tissue to be in exact proportion to the degree in which it is exerted.’ This perhaps would be generally anticipated even in the absence of direct proof; but what is more interesting, is that the same principle holds good of the nervous system. The human brain of an adult contains about one and a half per cent of phosphorus; and it has been ascertained, that after the mind has been much exercised, phosphates are excreted, and that in the case of inflammation of the brain their excretion (by the kidneys) is very considerable. See Paget's Lectures on Surgical Pathology, 1853, vol. i. pp. 6, 7, 434; Carpenter's Human Physiology, pp. 192, 193, 222; Simon's Animal Chemistry, vol. ii. p. 426; Henle, Anatomie Générale, vol. ii. p. 172. The reader may also consult respecting the phosphorus of the brain the recent very able work of MM. Robin et Verdeil, Chimie Anatomique, vol. i. p. 215, vol. ii. p. 348, Paris, 1853. According to these writers (vol. iii. p. 445), its existence in the brain was first announced by Hensing, in 1779.

67

Though both objects are equally essential, the former is usually the more pressing; and it has been ascertained by experiment, what we should expect from theory, that when animals are starved to death, there is a progressive decline in the temperature of their bodies; so that the proximate cause of death by starvation is not weakness, but cold. See Williams's Principles of Medicine, p. 36; and on the connexion between the loss of animal heat and the appearance of rigor mortis in the contractile parts of the body, see Vogel's Pathological Anatomy of the Human Body, p. 532. Compare the important and thoughtful work of Burdach, Physiologie comme Science d'Observation, vol. v. pp. 144, 436, vol. ix. p. 231.

68

Until the last twenty or five-and-twenty years, it used to be supposed that this combination took place in the lungs; but more careful experiments have made it probable that the oxygen unites with the carbon in the circulation, and that the blood-corpuscules are the carriers of the oxygen. Compare Liebig's Animal Chemistry, p. 78; Letters on Chemistry, pp. 335, 336; Turner's Chemistry, vol. ii. p. 1319; Müller's Physiology, vol. i. pp. 92, 159. That the combination does not take place in the air-cells is moreover proved by the fact that the lungs are not hotter than other parts of the body. See Müller, vol. i. p. 348; Thomson's Animal Chemistry, p. 633; and Brodie's Physiol. Researches, p. 33. Another argument in favour of the red corpuscules being the carriers of oxygen, is that they are most abundant in those classes of the vertebrata which maintain the highest temperature; while the blood of invertebrata contains very few of them; and it has been doubted if they even exist in the lower articulata and mollusca. See Carpenter's Human Physiol. pp. 109, 532; Grant's Comparative Anatomy, p. 472; Elliotson's Human Physiol. p. 159. In regard to the different dimensions of corpuscules, see Henle, Anatomie Générale, vol. i. pp. 457–467, 494, 495; Blainville, Physiologie Comparée, vol. i. pp. 298, 299, 301–304; Milne Edwards, Zoologie, part i. pp. 54–56; Fourth Report of British Association, pp. 117, 118; Simon's Animal Chemistry, vol. i. pp. 103, 104; and, above all, the important observations of Mr. Gulliver (Carpenter, pp. 105, 106). These additions to our knowledge, besides being connected with the laws of animal heat and of nutrition, will, when generalized, assist speculative minds in raising pathology to a science. In the mean time I may mention the relation between an examination of the corpuscules and the theory of inflammation which Hunter and Broussais were unable to settle: this is, that the proximate cause of inflammation is the obstruction of the vessels by the adhesion of the pale corpuscules. Respecting this striking generalization, which is still on its trial, compare Williams's Principles of Medicine, 1848, pp. 258–265, with Paget's Surgical Pathology, 1853, vol. i. pp. 313–317; Jones and Sieveking's Pathological Anatomy, 1854, pp. 28, 105, 106. The difficulties connected with the scientific study of inflammation are evaded in Vogel's Pathological Anatomy, p. 418; a work which appears to me to have been greatly overrated.

69

On the amount of heat disengaged by the union of carbon and oxygen, see the experiments of Dulong, in Liebig's Animal Chemistry, p. 44; and those of Despretz, in Thomson's Animal Chemistry, p. 634. Just in the same way, we find that the temperature of plants is maintained by the combination of oxygen with carbon: see Balfour's Botany, pp. 231, 232, 322, 323. As to the amount of heat caused generally by chemical combination, there is an essay well worth reading by Dr. Thomas Andrews in Report of British Association for 1849, pp. 63–78. See also Report for 1852, Transac. of Sec. p. 40, and Liebig and Kopp's Reports on the Progress of Chemistry, vol. i. p. 34, vol. iii. p. 16, vol. iv. p. 20; also Pouillet, Elémens de Physique, Paris, 1832, vol. i. part i. p. 411.

70

The law of definite proportions, which, since the brilliant discoveries by Dalton, is the corner-stone of chemical knowledge, is laid down with admirable clearness in Turner's Elements of Chemistry, vol. i. pp. 146–151. Compare Brande's Chemistry, vol. i. pp. 139–144; Cuvier, Progrès des Sciences, vol. ii. p. 255; Somerville's Connexion of the Sciences, pp. 120, 121. But none of these writers have considered the law so philosophically as M. A. Comte, Philosophie Positive, vol. iii. pp. 133–176, one of the best chapters in his very profound, but ill-understood work.

71

‘Ainsi, dans des temps égaux, la quantité d'oxygène consommée par le même animal est d'autant plus grande que la température ambiante est moins élevée.’ Robin et Verdeil, Chimie Anatomique, vol. ii. p. 44. Compare Simon's Lectures on Pathology, 1850, p. 188, for the diminished quantity of respiration in a high temperature; though one may question Mr. Simon's inference that therefore the blood is more venous in hot countries than in cold ones. This is not making allowance for the difference of diet, which corrects the difference of temperature.

72

‘The consumption of oxygen in a given time may be expressed by the number of respirations.’ Liebig's Letters on Chemistry, p. 314; and see Thomson's Animal Chemistry, p. 611. It is also certain that exercise increases the number of respirations; and birds, which are the most active of all animals, consume more oxygen than any others. Milne Edwards, Zoologie, part i. p. 88, part ii. p. 371; Flourens, Travaux de Cuvier, pp. 153, 154, 265, 266. Compare, on the connexion between respiration and the locomotive organs, Beclard, Anatomie Générale, pp. 39, 44; Burdach, Traité de Physiologie, vol. ix. pp. 485, 556–559; Carus's Comparative Anatomy, vol. i. pp. 99, 164, 358, vol. ii. pp. 142, 160; Grant's Comparative Anatomy, pp. 455, 495, 522, 529, 537; Rymer Jones's Animal Kingdom, pp. 369, 440, 692, 714, 720; Owen's Invertebrata, pp. 322, 345, 386, 505. Thus too it has been experimentally ascertained, that in human beings exercise increases the amount of carbonic-acid gas. Mayo's Human Physiology, p. 64; Liebig and Kopp's Reports, vol. iii. p. 359.

If we now put these facts together, their bearing on the propositions in the text will become evident; because, on the whole, there is more exercise taken in cold climates than in hot ones, and there must therefore be an increased respiratory action. For proof that greater exercise is both taken and required, compare Wrangel's Polar Expedition, pp. 79, 102; Richardson's Arctic Expedition, vol. i. p. 385; Simpson's North Coast of America, pp. 49,88, which should be contrasted with the contempt for such amusements in hot countries. Indeed, in polar regions all this is so essential to preserve a normal state, that scurvy can only be kept off in the northern part of the American continent by taking considerable exercise: see Crantz, History of Greenland, vol. i. pp. 46, 62, 338.

73

See the note at the end of this chapter.

74

‘The fruits used by the inhabitants of southern climes do not contain, in a fresh state, more than 12 per cent. of carbon; while the blubber and train-oil which feed the inhabitants of polar regions contain 66 to 80 per cent. of that element.’ Liebig's Letters on Chemistry, p. 320; see also p. 375, and Turner's Chemistry, vol. ii. p. 1315. According to Prout (Mayo's Human Physiol. p. 136), ‘the proportion of carbon in oily bodies varies from about 60 to 80 per cent.’ The quantity of oil and fat habitually consumed in cold countries is remarkable. Wrangel (Polar Expedition, p. 21) says of the tribes in the north-east of Siberia, ‘fat is their greatest delicacy. They eat it in every possible shape; raw, melted, fresh, or spoilt.’ See also Simpson's Discoveries on the North Coast of America, pp. 147, 404.

75

‘So common, that no plant is destitute of it.’ Lindley's Botany, vol. i. p. 111; and at p. 121, ‘starch is the most common of all vegetable productions.’ Dr. Lindley adds (vol. i. p. 292), that it is difficult to distinguish the grains of starch secreted by plants from cytoblasts. See also on the starch-granules, first noticed by M. Link, Reports on Botany by the Ray Society, pp. 223, 370; and respecting its predominance in the vegetable world, compare Thomson's Chemistry of Vegetables, pp. 650–652, 875; Brande's Chemistry, vol. ii. p. 1160; Turner's Chemistry, vol. ii. p. 1236; Liebig and Kopp's Reports, vol. ii. pp. 97, 98, 122.

76

The oxygen is 49.39 out of 100. See the table in Liebig's Letters on Chemistry, p. 379. Amidin, which is the soluble part of starch, contains 53.33 per cent. of oxygen. See Thomson's Chemistry of Vegetables, p. 654, on the authority of Prout, who has the reputation of being an accurate experimenter.

77

Of which a single whale will yield ‘cent vingt tonneaux.’ Cuvier, Règne Animal, vol. i. p. 297. In regard to the solid food, Sir J. Richardson (Arctic Expedition, 1851, vol. i. p. 243) says that the inhabitants of the Arctic regions only maintain themselves by chasing whales and ‘consuming blubber.’

78

It is said, that to keep a person in health, his food, even in the temperate parts of Europe, should contain ‘a full eighth more carbon in winter than in summer.’ Liebig's Animal Chemistry, p. 16.

79

The most highly carbonized of all foods are undoubtedly yielded by animals; the most highly oxidized by vegetables. In the vegetable kingdom there is, however, so much carbon, that its predominance, accompanied with the rarity of nitrogen, has induced chemical botanists to characterize plants as carbonized, and animals as azotized. But we have here to attend to a double antithesis. Vegetables are carbonized in so far as they are non-azotized; but they are oxidized in opposition to the highly carbonized animal food of cold countries. Besides this, it is important to observe that the carbon of vegetables is most abundant in the woody and unnutritious part, which is not eaten; while the carbon of animals is found in the fatty and oily parts, which are not only eaten, but are, in cold countries, greedily devoured.

80

Sir J. Malcolm (History of Persia, vol. ii. p. 380), speaking of the cheapness of vegetables in the East, says, ‘in some parts of Persia fruit has hardly any value.’ Cuvier, in a striking passage (Règne Animal, vol. i. pp. 73, 74), has contrasted vegetable with animal food, and thinks that the former, being so easily obtained, is the more natural. But the truth is that both are equally natural: though when Cuvier wrote scarcely anything was known of the laws which govern the relation between climate and food. On the skill and energy required to obtain food in cold countries, see Wrangel's Polar Expedition, pp. 70, 71, 191, 192; Simpson's Discoveries on the North Coast of America, p. 249; Crantz, History of Greenland, vol. i. pp. 22, 32, 105, 131, 154, 155, vol. ii. pp. 203, 265, 324.

81

‘Cabanis’ (Rapports du Physique et du Moral, p. 313) says, ‘Dans les temps et dans les pays froids on mange et l'on agit davantage.’ That much food is eaten in cold countries, and little in hot ones, is mentioned by numerous travellers, none of whom are aware of the cause. See Simpson's Discov. on North Coast of America, p. 218; Custine's Russie, vol. iv. p. 66; Wrangel's Expedition, pp. 21, 327; Crantz, History of Greenland, vol. i. pp. 145, 360; Richardson's Central Africa, vol. ii. p. 46; Richardson's Sahara, vol. i. p. 137; Denham's Africa, p. 37; Journal of Asiatic Society, vol. v. p. 144, vol. viii. p. 188; Burckhardt's Travels in Arabia, vol. ii. p. 265; Niebuhr, Description de l'Arabie, p. 45; Ulloa's Voyage to South America, vol. i. pp. 403, 408; Journal of Geograph. Society, vol. iii. p. 283, vol. vi. p. 85, vol. xix. p. 121; Spix and Martius's Travels in Brazil, vol. i. p. 164; Southey's History of Brazil, vol. iii. p. 848; Volney, Voyage en Syrie et en Egypte, vol. i. pp. 379, 380, 460; Low's Sarawak, p. 140.

82

Meyen (Geography of Plants, 1846, p. 313) says that the potato was introduced into Ireland in 1586; but according to Mr. M'Culloch (Dictionary of Commerce, 1849, p. 1048), ‘potatoes, it is commonly thought, were not introduced into Ireland till 1610, when a small quantity was sent by Sir Walter Raleigh to be planted in a garden on his estate in the vicinity of Youghall.’ Compare Loudon's Encyclop. of Agriculture, p. 845: ‘first planted by Sir Walter Raleigh on his estate of Youghall, near Cork.’

83

Adam Smith (Wealth of Nations, book i. chap. xi. p. 67) supposes that it will support three times as many; but the statistics of this great writer are the weakest part of his work, and the more careful calculations made since he wrote bear out the statement in the text. ‘It admits of demonstration that an acre of potatoes will feed double the number of people that can be fed from an acre of wheat.’ Loudon's Encyclop. of Agriculture, 5th edit. 1844, p. 845. So, too, in M'Culloch's Dict. p. 1048, ‘an acre of potatoes will feed double the number of individuals that can be fed from an acre of wheat.’ The daily average consumption of an able-bodied labourer in Ireland is estimated at nine and a half pounds of potatoes for men, and seven and a half for women. See Phillips on Scrofula, 1846, p. 177.

84

Malthus, Essay on Population, vol. i. pp. 424, 425, 431, 435, 441, 442; M'Culloch's Political Economy, pp. 381, 382.

85

The lowest agricultural wages in our time have been in England about 1s. a day; while from the evidence collected by Mr. Thornton in 1845, the highest wages then paid were in Lincolnshire, and were rather more than 13s. a week; those in Yorkshire and Northumberland being nearly as high. Thornton on Over-Population, pp. 12–15, 24, 25. Godwin, writing in 1820, estimates the average at 1s. 6d. a day. Godwin on Population, p. 574. Mr. Phillips, in his work On Scrofula, 1846, p. 345, says, ‘at present the ratio of wages is from 9s. to 10s.’

86

The most miserable part, namely Connaught, in 1733, contained 242,160 inhabitants; and in 1821, 1,110,229. See Sadler's Law of Population, vol. ii. p. 490.

87

Mr. Inglis, who in 1834 travelled through Ireland with a particular view to its economical state, says, as the result of very careful inquiries, ‘I am quite confident, that if the whole yearly earnings of the labourers of Ireland were divided by the whole number of labourers, the result would be under this sum —Fourpence a day for the labourers of Ireland.’ Inglis, Journey throughout Ireland in 1834, Lond. 1835, 2nd edit. vol. ii. p. 300. At Balinasloe, in the county of Galway, ‘A gentleman with whom I was accidentally in company offered to procure, on an hour's warning, a couple of hundred labourers at fourpence even for temporary employment.’ Inglis, vol. ii. p. 17. The same writer says (vol. i. p. 263), that at Tralee ‘it often happens that the labourers, after working in the canal from five in the morning until eleven in the forenoon, are discharged for the day with the pittance of twopence.’ Compare, in Cloncurry's Recollections, Dublin, 1849, p. 310, a letter from Dr. Doyle written in 1829, describing Ireland as ‘a country where the market is always overstocked with labour, and in which a man's labour is not worth, at an average, more than threepence a day.’

88

It is singular that so acute a thinker as Mr. Kay should, in his otherwise just remarks on the Irish, entirely overlook the effect produced on their wages by the increase of population. Kay's Social Condition of the People, vol. i. pp. 8, 9, 92, 223, 306–324. This is the more observable, because the disadvantages of cheap food have been noticed not only by several common writers, but by the highest of all authorities on population, Mr. Malthus: see the sixth edition of his Essay on Population, vol. i. p. 469, vol. ii. pp. 123, 124, 383, 384. If these things were oftener considered, we should not hear so much about the idleness and levity of the Celtic race; the simple fact being, that the Irish are unwilling to work, not because they are Celts, but because their work is badly paid. When they go abroad, they get good wages, and therefore they become as industrious as any other people. Compare Journal of Statistical Society, vol. vii. p. 24, with Thornton on Over-Population, p. 425; a very valuable work. Even in 1799, it was observed that the Irish as soon as they left their own country became industrious and energetic. See Parliamentary History, vol. xxxiv. p. 222. So, too, in North America, ‘they are most willing to work hard.’ Lyell's Second Visit to the United States, 1849, vol. i. p. 187.

89

By low wages, I mean low reward of labour, which is of course independent both of the cost of labour and of the money-rate of wages.

90

In a recent work of considerable ingenuity (Doubleday's True Law of Population, 1847, pp. 25–29, 69, 78, 123, 124, &c.) it is noticed that countries are more populous when the ordinary food is vegetable than when it is animal; and an attempt is made to explain this on the ground that a poor diet is more favourable to fecundity than a rich one. But though the fact of the greater increase of population is indisputable, there are several reasons for being dissatisfied with Mr. Doubleday's explanation.

1st. That the power of propagation is heightened by poor living, is a proposition which has never been established physiologically; while the observations of travellers and of governments are not sufficiently numerous to establish it statistically.

2nd. Vegetable diet is as generous for a hot country as animal diet is for a cold country; and since we know that, notwithstanding the difference of food and climate, the temperature of the body varies little between the equator and the poles (compare Liebig's Animal Chemistry, p. 19; Holland's Medical Notes, p. 473; Pouillet, Elémens de Physique, vol. i. part i. p. 414; Burdach's Traité de Physiologie, vol. ix. p. 663), we have no reason to believe that there is any other normal variation, but should rather suppose that, in regard to all essential functions, vegetable diet and external heat are equivalent to animal diet and external cold.

3rd. Even conceding, for the sake of argument, that vegetable food increases the procreative power, this would only affect the number of births, and not the density of population; for a greater number of births may be, and often are, remedied by a greater mortality; a point in regard to which Godwin, in trying to refute Malthus, falls into serious error. Godwin on Population, p. 317.

Since writing the above, I have found that these views of Mr. Doubleday's were in a great measure anticipated by Fourier. See Rey, Science Sociale; vol. i. p. 185.

91

I use the word ‘Hindostan’ in the popular sense, as extending south to Cape Comorin; though, properly speaking, it only includes the country north of the Nerbudda. Compare Mill's History of India, vol. ii. p. 178; Bohlen, das alte Indien, vol. i. p. 11; Meiners über die Länder in Asien, vol. i. p. 224. The word itself is not found in the old Sanscrit, and is of Persian origin. Halhed's Preface to the Gentoo Laws, pp. xx. xxi.; Asiatic Researches, vol. iii. pp. 368, 369.

92

So that, in addition to works published on their philosophy, religion, and jurisprudence, a learned geographer stated several years ago, that ‘kein anderes Asiatisches Reich ist in den letzten drey Jahrhunderten von so vielen und so einsichtsvollen Europäern durchreist und beschrieben worden, als Hindostan.’ Meiners, Länder in Asien, vol. i. p. 225. Since the time of Meiners, such evidence has become still more precise and extensive; and is, I think, too much neglected by M. Rhode in his valuable work on India: ‘Dem Zwecke dieser Arbeit gemäss, betrachten wir hier nur Werke der Hindus selbst, oder Auszüge aus denselben als Quellen.’ Rhode, Religiöse Bildung der Hindus, vol. i. p. 43.

93

This is evident from the frequent and familiar mention of it in that remarkable relic of antiquity, the Institutes of Menu. See the Institutes, in Works of Sir W. Jones, vol. iii. pp. 87, 132, 156, 200, 215, 366, 400, 403, 434. Thus too, in the enumeration of Foods in Vishnu Purana, pp. 46, 47, rice is the first mentioned. See further evidence in Bohlen, das alte Indien, vol. i. p. 22, vol. ii. pp. 159, 160; Wilson's Theatre of the Hindus, vol. i. part ii. pp. 15, 16, 37, 92, 95, vol. ii. part ii. p. 35, part iii. p. 64; Notes on the Ma-habharata, in Journal of Asiatic Society, vol. vii. p. 141; Travels of Ibn Batuta in Fourteenth Century, p. 164; Colebrooke's Digest of Hindu Law, vol. i. p. 499, vol. ii. pp. 44, 48, 436, 569, vol. iii. pp. 11, 148, 205, 206, 207, 266, 364, 530; Asiatic Researches, vol. vii. pp. 299, 302; Ward on the Hindoos, vol. i. p. 209, vol. iii. p. 105.

94

‘It contains a greater proportion of nutritious matter than any of the cerealia.’ Somerville's Physical Geography, vol. ii. p. 220.

95

It contains from 83.8 to 85.07 percent of starch. Brande's Chemistry, vol. ii. p. 1624; Thomson's Chemistry of Organic Bodies, p. 883.

96

It is difficult to collect sufficient evidence to strike an average; but in Egypt, according to Savary, rice ‘produces eighty bushels for one.’ Loudon's Encyclop. of Agriculture, p. 173. In Tennasserim, the yield is from 80 to 100. Low's History of Tennasserim, in Journal of Asiatic Society, vol. iii. p. 29. In South America, 250 fold, according to Spix and Martius (Travels in Brazil, vol. ii. p. 79); or from 200 to 300, according to Southey (History of Brazil, vol. iii. pp. 658, 806). The lowest estimate given by M. Meyen is forty fold; the highest, which is marsh rice in the Philippine Islands, 400 fold. Meyen's Geography of Plants, 1846, p. 301.

97

Elphinstone's History of India, p. 7. Ragi is the Cynosurus Corocanus of Linnæus; and, considering its importance, it has been strangely neglected by botanical writers. The best account I have seen of it is in Buchanan's Journey through the Countries of Mysore, Canara, and Malabar, vol. i. pp. 100–104, 285, 286, 375, 376, 403, vol. ii. pp. 103, 104, vol. iii. pp. 239, 240, 296, 297. In the large cities, millet is generally used; of which ‘a quantity sufficient for two meals may be purchased for about a halfpenny.’ Gibson on Indian Agriculture, in Journal of Asiatic Society, vol. viii. p. 100.

98

Marsden's History of Sumatra, pp. 56, 59; Raffles' History of Java, vol. i. pp. 39, 106, 119, 129, 240; Percival's Ceylon, pp. 337, 364; Transac. of Society of Bombay, vol. ii. p. 155; Transac. of Asiatic Society, vol. i. p. 510; Journal of Asiatic Society, vol. i. pp. 228, 247, vol. ii. pp. 44, 64, 251, 257, 262, 336, 344, vol. iii. pp. 8, 25, 300, 340, vol. iv. pp. 82, 83, 104, vol. v. pp. 241, 246; Asiatic Researches, vol. v. pp. 124, 229, vol. xii. p. 148, vol. xvi. pp. 171, 172; Journal of Geograph. Society, vol. ii. p. 86, vol. iii. pp. 124, 295, 300, vol. v. p. 263, vol. viii. pp. 341, 359, vol. xix. pp. 132, 137.

99

Rice, so far as I have been able to trace it, has travelled westward. Besides the historical evidence, there are philological probabilities in favour of its being indigenous to Asia, and the Sanscrit name for it has been very widely diffused. Compare Humboldt's Cosmos, vol. ii. p. 472, with Crawfurd's History of the Indian Archipelago, vol. i. p. 358. In the fourteenth century, it was the common food on the Zanguebar Coast; and is now universal in Madagascar. Travels of Ibn Batuta in Fourteenth Century, p. 56; Ellis's History of Madagascar, vol. i. pp. 39, 297–304, vol. ii. p. 292; Journal of Geograph. Society, vol. iii. p. 212. From Madagascar its seeds were, according to M'Culloch's Dictionary of Commerce, p. 1105, carried to Carolina late in the seventeenth century. It is now cultivated in Nicaragua (Squier's Central America, vol. i. p. 38) and in South America (Henderson's Hist. of Brazil, pp. 292, 307, 395, 440, 488), where it is said to grow wild. Compare Meyen's Geography of Plants, pp. 291, 297, with Azara, Voyages dans l'Amérique Méridionale, vol. i. p. 100, vol. ii. p. 80. The ancient Greeks, though acquainted with rice, did not cultivate it; and its cultivation was first introduced into Europe by the Arabs. See Humboldt, Nouvelle Espagne, vol. ii. pp. 409, 410.

100

So far as food is concerned, Diodorus Siculus notices the remarkable fertility of India, and the consequent accumulation of wealth. See two interesting passages in Bibliothec. Hist. lib. ii. vol. ii. pp. 49, 50, 108, 109. But of the economical laws of distribution he, like all the ancient writers, was perfectly ignorant.

101

An able and very learned apologist for this miserable people says, ‘The servility so generally ascribed to the Hindu is never more conspicuous than when he is examined as an evidence. But if it be admitted that he acts as a slave, why blame him for not possessing the virtues of a free man? The oppression of ages has taught him implicit submission.’ Vans Kennedy, in Transactions of the Society of Bombay, vol. iii. p. 144. Compare the observations of Charles Hamilton in Asiatic Researches, vol. i. p. 305.

102

The impossibility of having a standard of value, is clearly pointed out in Turgot's Réflexions sur la Formation et la Distribution des Richesses, in Œuvres, vol. v. pp. 51, 52. Compare Ricardo's Works, pp. 11, 28–30, 46, 166, 253, 270, 401, with M'Culloch's Principles of Political Economy, pp. 298, 299, 307.

103

Smith's Wealth of Nations, book i. chap. ix. p. 37; where, however, the proposition is stated rather too absolutely, since the risks arising from an insecure state of society must be taken into consideration. But that there is an average ratio between interest and profits is obvious, and is distinctly laid down by the Sanscrit jurists. See Colebrooke's Digest of Hindu Law, vol. i. pp. 72, 81.

104

Ricardo (Principles of Political Economy, chap. vi. in Works, p. 65) says, ‘whatever increases wages, necessarily reduces profits.’ And in chap. xv. p. 122, ‘whatever raises the wages of labour, lowers the profits of stock.’ In several other places he makes the same assertion, very much to the discomfort of the ordinary reader, who knows that in the United States, for instance, wages and profits are both high. But the ambiguity is in the language, not in the thought; and in these and similar passages Ricardo by wages meant cost of labour, in which sense the proposition is quite accurate. If by wages we mean the reward of labour, then there is no relation between wages and profits; for when rent is low, both of them may be high, as is the case in the United States. That this was the view of Ricardo is evident from the following passage: ‘Profits, it cannot be too often repeated, depend on wages; not on nominal but real wages; not on the number of pounds that may be annually paid to the labourer, but on the number of days' work necessary to obtain those pounds.’ Political Economy, chap. vii., Ricardo's Works, p. 82. Compare Mill's Principles of Political Economy, vol. i. p. 509, vol. ii. p. 225.

105

I take the estimate of Mr. Elphinstone (History of India, pp. 225–228) as midway between Sir William Jones (Works, vol. iii. p. 56) and Mr. Wilson (Rig Veda Sanhita, vol. i. p. xlvii.).

106

Institutes of Menu, chap. viii. sec. 140–142, in Works of Sir W. Jones, vol. iii. p. 295. The subsequent Sanscrit commentators recognize nearly the same rate of interest, the minimum being fifteen per cent. See Colebrooke's Digest of Hindu Law, vol. i. pp. 29, 36, 43, 98, 99, 237, vol. ii. p. 70.

107

In Colebrooke's Digest, vol. i. p. 454, and vol. iii. p. 229, Menu is called ‘the highest authority of memorial law,’ and ‘the founder of memorial law.’ The most recent historian of India, Mr. Elphinstone, says (Hist. of India, p. 83) ‘the code of Menu is still the basis of the Hindu jurisprudence; and the principal features remain unaltered to the present day.’ This remarkable code is also the basis of the laws of the Burmese, and even of those of the Laos. Journal of the Asiatic Society, vol. ii. p. 271, vol. iii. pp. 28, 296, 332, vol. v. p. 252.

108

See, in Mill's History of India, vol. i. p. 317, the report of a committee of the House of Commons in 1810, in which it is stated that the ryots paid ‘the heavy interest of three, four, and five per cent. per month.’ Ward, writing about the same time, mentions as much as seventy-five per cent. being given, and this apparently without the lender incurring any extraordinary risk. Ward on the Hindoos, vol. ii. p. 190.

109

Compare the table in Loudon's Encyclopædia of Agriculture, p. 778, with Mavor's note in Tusser's Five Hundred Points of Husbandry, p. 195, Lond. 1812, and M'Culloch's Statistical Account of the British Empire, 1847, vol. i. p. 560.

110

This is the estimate I have received from persons well acquainted with French agriculture. The rent, of course, varies in each separate instance, according to the natural powers of the soil, according to the extent to which those powers have been improved, and according to the facilities for bringing the produce to market. But, notwithstanding these variations, there must be in every country an average rent, depending upon the operation of general causes.

111

Owing to the immense supply of land preventing the necessity of cultivating those inferior soils which older countries are glad to use, and are therefore willing to pay a rent for the right of using. In the United States, profits and wages (i.e. the reward of the labourer, not the cost of labour) are both high, which would be impossible if rent were also high.

112

See Rammohun Roy on the Judicial and Revenue Systems of India, 1832, pp. 59–61, 63, 69, 92, 94. At p. 69, this high authority says of the agricultural peasantry of Bengal: ‘In an abundant season, when the price of corn is low, the sale of their whole crops is required to meet the demands of the landholder, leaving little or nothing for seed or subsistence to the labourer or his family.’ In Cashmere, the sovereign received half the produce of the rice-crop, leaving the other half to the cultivator. Moorcroft's Notices of Cashmere, in Journal of Geog. Society, vol. ii. p. 266.

113

Heber (Journey through India, vol. i. pp. 209, 356, 357, 359) gives some curious instances of the extremely low rate at which the natives are glad to work. As to the ordinary wages in India in the present century, see Journal of Asiatic Society, vol. i. p. 255, vol. v. p. 171; Rammohun Roy on the Judicial and Revenue Systems, pp. 105, 106; Sykes's Statistics of the Deccan Reports of the British Association, vol. vi. p. 321; Ward's View of the Hindoos, vol. iii. p. 207; Colebrooke's Digest of Hindu Law, vol. ii. p. 184. On wages in the south of India, the fullest information will be found in Buchanan's valuable work, Journey through the Mysore, Canara, and Malabar, vol. i. pp. 124, 125, 133, 171, 175, 216, 217, 298, 390, 415, vol. ii. pp. 12, 19, 22, 37, 90, 108, 132, 217, 218, 315, 481, 523, 525, 562, vol. iii. pp. 35, 181, 226, 298, 321, 349, 363, 398, 428, 555. I wish that all travellers were equally minute in recording the wages of labour; a subject of far greater importance than those with which they usually fill their books.

On the other hand, the riches possessed by the upper classes have, owing to this mal-distribution of wealth, been always enormous, and sometimes incredible. See Forbes's Oriental Memoirs, vol. ii. p. 297; Bohlen, das alte Indien, vol. ii. p. 119; Travels of Ibn Batuta, p. 41; Ward's Hindoos, vol. iii. p. 178. The autobiography of the Emperor Jehangueir contains such extraordinary statements of his immense wealth, that the Editor, Major Price, thinks that some error must have been made by the copyist; but the reader will find in Grote's History of Greece (vol. xii. pp. 229, 245) evidence of the treasures which it was possible for Asiatic rulers to collect in that state of society. The working of this unequal distribution is thus stated by Mr. Glyn (Transac. of Asiatic Society, vol. i. p. 482): ‘The nations of Europe have very little idea of the actual condition of the inhabitants of Hindustan; they are more wretchedly poor than we have any notion of. Europeans have hitherto been too apt to draw their opinions of the wealth of Hindustan from the gorgeous pomp of a few emperors, sultans, nawabs, and rajahs; whereas a more intimate and accurate view of the real state of society would have shown that these princes and nobles were engrossing all the wealth of the country, whilst the great body of the people were earning but a bare subsistence, groaning under intolerable burdens, and hardly able to supply themselves with the necessaries of life, much less with its luxuries.’

114

Turner, who travelled in 1783 through the north-east of Bengal, says: ‘Indeed, the extreme poverty and wretchedness of these people will forcibly appear, when we recollect how little is necessary for the subsistence of a peasant in these regions. The value of this can seldom amount to more than one penny per day, even allowing him to make his meal of two pounds of boiled rice, with a due proportion of salt, oil, vegetables, fish, and chili.’ Turner's Embassy to Tibet, p. 11. Ibn Batuta, who travelled in Hindostan in the fourteenth century, says: ‘I never saw a country in which provisions were so cheap.’ Travels of Ibn Batuta, p. 194.

115

The Sudras are estimated by Ward (View of the Hindoos, vol. iii. p. 281) at ‘three-fourths of the Hindoos.’ At all events, they comprise the whole of the working classes; the Vaisyas not being husbandmen, as they are often called, but landlords, owners of cattle, and traders. Compare Institutes of Menu, chap. ix. sec. 326–333, in Works of Sir W. Jones, vol. iii. pp. 380, 381, with Colebrooke's Digest, vol. i. p. 15, from which it appears that the Vaisyas were always the masters, and that the Sudra was to ‘rely on agriculture for his subsistence.’ The division, therefore, between ‘the industrious and the servile’ (Elphinstone's History of India, p. 12) is too broadly stated, and we must, I think, take the definition of M. Rhode: ‘Die Kaste der Sudras umfasst die ganze arbeitende, oder um Lohn dienende Classe des Volks.’ Relig. Bildung der Hindus, vol. ii. p. 561.

116

‘Either be banished with a mark on his hinder parts, or the king shall cause a gash to be made on his buttock.’ Institutes of Menu, chap. viii. sec. 281, in Works of Sir W. Jones, vol. iii. p. 315. See also Ward's View of the Hindoos, vol. iii. p. 67.

117

Menu, chap. viii. sec. 271, in Jones's Works, vol. iii. p. 314.

118

Menu, chap. viii. sec. 270.

119

‘If a Sudra gives much and frequent molestation to a Brahmin, the magistrate shall put him to death.’ Halhed's Code of Gentoo Laws, p. 262.

120

Halhed's Code of Gentoo Laws, p. 207. As to the case of striking a Brahmin, see Rammohun Roy on the Veds, p. 227, 2nd edit. 1832.

121

‘And if a Sooder listens to the Beids of the Shaster, then the oil, heated as before, shall be poured into his ears; and arzeez and wax shall be melted together, and the orifice of his ears shall be stopped up therewith.’ Halhed, p. 262. Compare the prohibition in Menu, chap. iv. sec. 99, chap. x. sec. 109–111, in Jones's Works, vol. iii. pp. 174, 398.

122

Halhed, p. 262: ‘the magistrate shall put him to death.’ In Mrichchakati, the judge says to a Sudra, ‘If you expound the Vedas, will not your tongue be cut out?’ Wilson's Theatre of the Hindus, vol. i. part ii. p. 170.

123

Ward's View of the Hindoos, vol. iv. p. 308. To this the only exception was in the case of theft. Mill's History of India, vol. i. pp. 193, 260. A Brahmin could ‘on no account be capitally punished.’ Asiatic Researches, vol. xv. p. 44.

124

Menu, chap. xi. sec. 132, in Works of Sir W. Jones, vol. iii. p. 422.

125

‘A Brahmin, if he take a Sudra to his bed as his first wife, sinks to the regions of torment.’ Institutes of Menu, chap. iii. sec. 17, in Jones, vol. iii. p. 121. Compare the denial of funeral rites, in Colebrooke's Digest of Hindu Law, vol. iii. p. 328. And on the different hells invented by the Hindu clergy, see Vishnu Purana, p. 207; Ward's View of the Hindoos, vol. ii. pp. 182, 183; Coleman's Mythology of the Hindus, p. 113. The curious details in Rhode, die Religiöse Bildung der Hindus, vol. i. pp. 392, 393, rather refer to Buddhism, and should be compared with Journal Asiatique, I. série, vol. viii. pp. 80, 81, Paris, 1826.

126

Menu, chap. ii. sec. 31, in Jones, vol. iii. p. 87; also noticed in Rhode, Relig. Bildung, vol. ii. p. 561: ‘sein Name soll schon Verachtung ausdrücken.’ So, too, Mr. Elphinstone (History of India, p. 17): ‘the proper name of a Sudra is directed to be expressive of contempt.’ Compare Origines du Droit, in Œuvres de Michelet, vol. ii. p. 387, Bruxelles, 1840.

127

Menu, chap. x. sec. 129, in Jones, vol. iii. p. 401. This law is pointed out by Mill (History of India, vol. i. p. 195) as an evidence of the miserable state of the people, which, Mr. Wilson (note in p. 213) vainly attempts to evade.

128

‘A Sudra, though emancipated by his master, is not released from a state of servitude; for of a state which is natural to him, by whom can he be divested?’ Institutes of Menu, chap. viii. sec. 414, in Works of Sir W. Jones, vol. iii. p. 333.

129

An intelligent observer says, ‘It is also remarkable how little the people of Asiatic countries have to do in the revolutions of their governments. They are never guided by any great and common impulse of feeling, and take no part in events the most interesting and important to their country and their own prosperity.’ M'Murdo on the Country of Sindh, in Journal of Asiatic Society, vol. i. p. 250. Compare similar remarks in Herder's Ideen zur Geschichte, vol. iii. p. 114; and even in Alison's History of Europe, vol. x. pp. 419, 420.

130

Volney (Voyage en Egypte, vol. i. pp. 58–63) has a good chapter on the climate of Egypt.

131

It is, however, unknown in South Africa. See the account of the Palmaceæ in Lindley's Vegetable Kingdom, 1847, p. 136, and Meyen's Geog. of Plants, p. 337.

132

‘Of all eatables used by the Arabs, dates are the most favourite.’ Burckhardt's Travels in Arabia, vol. i. p. 56. See also, for proof of their abundance in the west of Arabia, vol. i. pp. 103, 157, 238, vol. ii. pp. 91, 100, 105, 118, 209, 210, 214, 253, 300, 331. And on the dates of Oman and the east of Arabia, see Wellsted's Travels in Arabia, vol. i. pp. 188, 189, 236, 276, 290, 349. Compare Niebuhr, Description de l'Arabie, pp. 142, 296. Indeed, they are so important, that the Arabs have different names for them according to the stages of their growth. Djewhari says, ‘La dénomination balah précède le nom bosr; car la datte se nomme d'abord tala, en suite khalal, puis balah, puis bosr, puis rotab, et enfin tamr.'’ De Sacy's note to Abd-Allatif, Relation, de l'Egypte, p. 74, and see p. 118. Other notices of the dates of Arabia will be found in Travels of Ibn Batuta in Fourteenth Century, p. 66; Journal of Asiatic Soc. vol. viii. p. 286; Journal of Geograph. Soc. vol. iv. p. 201, vol. vi. pp. 53, 55, 58, 66, 68, 74, vol. vii. p. 32, vol. ix. pp. 147, 151.

133

Heeren (Trade of the African Nations, vol. i. p. 182) supposes that in Africa, dates are comparatively little known south of 26° north lat. But this learned writer is certainly mistaken; and a reference to the following passages will show that they are common as far down as the parallel of Lake Tchad, which is nearly the southern limit of our knowledge of Central Africa; Denham's Central Africa, p. 295; Clapperton's Journal, in Appendix to Denham, pp. 34, 59; Clapperton's Second Expedition, p. 159. Further east they are somewhat scarcer, but are found much more to the south than is supposed by Heeren: see Pallme's Kordofan, p. 220.

134

‘Dates are not only the principal growth of the Fezzan oases, but the main subsistence of their inhabitants. All live on dates; men, women, and children, horses, asses, and camels, and sheep, fowls, and dogs.’ Richardson's Travels in the Sahara, vol. ii. p. 323, and see vol. i. p. 343: as to those parts of the desert where the palm will not bear, see vol. i. pp. 387, 405, vol. ii. pp. 291, 363. Respecting the dates of western Africa, see Journal of Geograph. Society, vol. xii. p. 204.

135

‘It flourished spontaneously in the valley of the Nile.’ Wilkinson's Ancient Egyptians, vol. ii. p. 372. As further illustration of the importance to Africa of this beautiful plant, it may be mentioned, that from the high-palm there is prepared a peculiar beverage, which in some parts is in great request. On this, which is called palm-wine, see M'William's Medical Expedition to the Niger, pp. 71, 116; Meredith's Gold Coast of Africa, 1812, pp. 55, 56; Laird and Oldfield's Expedition into the Interior of Africa, 1837, vol. ii. pp. 170, 213; Bowdich, Mission to Ashantee, pp. 69, 100, 152, 293, 386, 392. But I doubt if this is the same as the palm-wine mentioned in Balfour's Botany, 1849, p. 532. Compare Tuckey's Expedition to the Zaire, pp. 155, 216, 224, 356.

136

Wilkinson's Ancient Egyptians, vol. ii. pp. 175–178. See also on the abundance of dates, the extracts from an Arabian geographer in Quatremère, Recherches sur l'Egypte, pp. 220, 221.

137

On their relation to the laws of climate, see the remarks respecting the geographical limits of their power of ripening, in Jussieu's Botany, edit. Wilson, 1849, p. 734.

138

‘In the valley of the Nile, a feddan (1¾ acre) is sometimes planted with 400 trees.’ Wilkinson's Ancient Egyptians, vol. ii. p. 178. At Moorzuk an entire date-palm is only worth about a shilling. Richardson's Central Africa, vol. i. p. 111.

139

On the remarkable fertility of the Said, see Abd-Allatif, Relation de l'Egypte, p. 3.

140

The superiority of the ruins in Southern Egypt over those in the northern part is noticed by Heeren (African Nations, vol. ii. p. 69), and must, indeed, be obvious to whoever has studied the monuments. In the Said the Coptic was preserved longer than in Lower Egypt, and is known to philologists by the name of Misr. See Quatremère, Recherches sur la Langue de l'Egypte, pp. 20, 41, 42. See also on the Saidic, pp. 134–140, and some good remarks by Dr. Prichard (Physical Hist. vol. ii. p. 202); who, however, adopts the paradoxical opinion of Georgi respecting the origin of the language of the Thebaid.

141

Abd-Allatif (Relation de l'Egypte, p. 32) says, that in his time it was only cultivated in the Said. This curious work by Abd-Allatif was written in a. d. 1203. Relation, p. 423. Meiners thinks that Herodotus and other ancient writers refer to the dhourra without mentioning it: ‘diese Durra muss daher im Herodot wie in andern alten Schriftstellern vorzüglich verstanden werden, wenn von hundert, zwey hundert, und mehrfältigen Früchten, welche die Erde trage, die Rede ist.’ Meiners, Fruchtbarkeit der Länder, vol. i. p. 139. According to Volney, it is the Holcus Arundinaceus of Linnæus, and appears to be similar to millet; and though that accurate traveller distinguishes between them, I observe that Captain Haines, in a recent memoir, speaks of them as being the same. Compare Haines in Journal of Geog. Soc. vol. xv. p. 118, with Volney, Voyage en Egypte, vol. i. p. 195.

142

‘The return is in general not less than 240 for one; and the average price is about 3s. 9d. the ardeb, which is scarcely 3d. per bushel.’ Hamilton's Æqyptiaca, p. 420. In Upper Egypt, ‘the doura constitutes almost the whole subsistence of the peasantry,’ p. 419. At p. 96, Hamilton says, ‘I have frequently counted 3,000 grains in one ear of doura, and each stalk has in general four or five ears.’ For an account, of the dhourra bread, see Volney, Voyage en Egypte, vol. i. p. 161.

143

Ἐπεὰν πλήρης γένηται ὁ ποταμὸς, καὶ τὰ πεδία πελαγίσῃ, φύεται ἐν τῷ ὅδατι κρίνεα πολλὰ, τὰ Αἰγύπτιοι καλέουσι λωτόν⋅ ταῦτα ἐπεὰν δρέψωσι, αὐαίνουσι πρὸς ἥλιον⋅ καὶ ἔπειτα τὸ ἐκ τοῦ μέσου τοῦ λωτοῦ τῇ μήκωνι ἐὸν ἐμφερὲς, πτίσαντες ποιεῦνται ἐξ αὐτοῦ ᾰρτους ὀπτοὺς πυρίπυρί. Herodot. ii. 92, vol. i. p. 688.

144

Wilkinson's Ancient Egyptians, vol. ii. pp. 370–372, 400, vol. iv. p. 59. Abd-Allatif gives a curious account of the different vegetables grown in Egypt early in the thirteenth century. Relation, pp. 16–36, and the notes of De Sacy, pp. 37–134. On the κύαμσς of Herodotus there are some botanical remarks worth reading in the Correspondence of Sir J. E. Smith, vol. ii. pp. 224–232; but I doubt the assertion, p. 227, that Herodotus ‘knew nothing of any other kind of κύαμσς in Egypt than that of the ordinary bean.’

145

‘When Alexandria was taken by Amer, the lieutenant of the Caliph Omer, no less than 4,000 persons were engaged in selling vegetables in that city.’ Wilkinson's Ancient Egyptians, vol. ii. p. 372, and see vol. i. p. 277, vol. iv. p. 60. Niebuhr (Description de l'Arabie, p. 136) says that the neighbourhood of Alexandria is so fertile, that ‘le froment y rend le centuple.’ See also on its rich vegetation, Matter, Histoire de l'Ecole d'Alexandrie, vol. i. p. 52.

146

The encouragement given to the increase of population by the fertility arising from the inundation of the Nile, is observed by many writers, but by none so judiciously as Malthus; Essay on Population, vol. i. pp. 161–163. This great work, the principles of which have been grossly misrepresented, is still the best which has been written on the important subject of population, though the author, from a want of sufficient reading, often errs in his illustrations; while he, unfortunately, had no acquaintance with those branches of physical knowledge which are intimately connected with economical inquiries.

147

Τρέφουσι δὲ τὰ παιδία μετά τινος εὐχερείας ἀαπάνου, καὶ παντελῶς ἀπίστον … ἀνυποδέτων δὲ τῶν πλείστων καὶ γυμνῶν τρεφομένων διὰ τὴν εὐκρασιαν τῶν τόπων, τὴν πᾶσαν δαπάνην οἱ γονεῒς, ᾰχρις ἂν εἰς ἡλικίαν ἒλθῃ τὸ τέκνον, οὐ πλείω ποιοῦσι δραχμῶν εῐκοσι, δἰ ἂς αἰτς μάλιστα τὴν Αἴγυπτον συμβαίνει πολυανθρωπίᾳ διαθέρειν, καὶ διὰ τοῦτο πλείστας ἔχειν μεγάλων ἔργωνκατασκευάς. Bibliothec. Hist. book i. chap. lxxx. vol. i. p. 238.

148

Frederick Schlegel (Philos. of Hist. p. 247, London, 1846) truly says, ‘The deeper and more comprehensive the researches of the moderns have been on ancient history, the more have their regard and esteem for Herodotus increased.’ His minute information respecting Egypt and Asia Minor is now admitted by all competent geographers; and I may add, that a recent and very able traveller has given some curious proofs of his knowledge even of the western parts of Siberia. See Erman's valuable work, Travels in Siberia, vol. i. pp. 211, 297–301.

149

Ἐπ᾽ Ἀμάσιος δὲ βασιλέος λέγεται Αἴγυπτος μάλισ-α δὴτότε εὐδαιμονῆσαι, καὶ τὰ ἀπὸ τοῦ ποταμοῦ τῇ χώρῃς τοῒσι ἀνθρπισι. καὶ πόλις ἐν αὐτῇγενέσθαι τὰς ἁπάσας τότε δισμνρίας τὰς οἰκεομένας. Herodot. book ii. chap. clxxvii. vol. i. pp. 881, 882.

150

Diodorus, who, though an honest and painstaking man, was in every respect inferior to Herodotus, says, impertinently enough, ὅσα μὲν οὖν Ἠόδοτος καί τινες τῶν τὰς Αἀγυπτίων πδάξεις συνταξαμένων ἐσχεδιάκασιν, ἑκουσίως προκρίναντες τῆς ἀληθείας τὸ παραδοξολογεῖν, καὶ μύθους πλάττειν φυχαγωγίας ἕνεκα, παρήσομεν. Biblioth. Hist. book i. chap. lxix. vol. i. p. 207. In other places he alludes to Herodotus in the same tone, without actually mentioning him.

151

Πολυανθρωπία δὲ τὸ μὲν παλαιὸν πολὺ προέσχε πάντων τῶν γνωριζομένων τόπων κατὰ τὴν οἰκουμένην, καὶ καθ᾽ ἡμᾶς δὲ οὐδενὸς τῶν ᾰλλων δοκεῒ λείπεσθαι. ἐπὶ μὲν γὰρ τῶν ἀχαίων χρόνων ἔσχε κώμας ἀξιολόγους, καὶ πόλεις πλείους τῶν μυρίων καὶ ὀκτακισχιλίων, ὡ ἐν ταῒς ἀναγραφαῖς ὁρᾶν ἐστι κατακεχωρισμένον. Diod. Sic. Biblioth. Hist. book i. chap. xxxi. vol. i. p. 89.

152

Notwithstanding the positive assertions of M. Matter (Hist. de l'Ecole d'Alexandrie, vol. ii. p. 285; compare Hist. du Gnosticisme, vol. i. p. 48), there is no good evidence for the supposed travels in Egypt of the earlier Greeks, and it is even questionable if Plato ever visited that country. (‘Whether he ever was in Egypt is doubtful.’ Bunsen's Egypt, vol. i. p. 60.) The Romans took little interest in the subject (Bunsen, vol. i. pp. 152–158); and, says M. Bunsen, p. 152, ‘with Diodorus all systematic inquiry into the history of Egypt ceases, not only on the part of the Greeks, but of the ancients in general.’ Mr. Leake, in an essay on the Quorra, arrives at the conclusion, that after the time of Ptolemy, the ancients made no additions to their knowledge of African geography. Journal of Geographical Society, vol. ii. p. 9.

153

See on this some good remarks in Heeren's African Nations, vol. ii. pp. 202–207; and as to the difference between the traditions of Thebes and Memphis, see Matter, Histoire de l'Ecole d'Alexandrie, vol. i. p. 7. The power and importance of the two cities fluctuated, both being at different periods the capital. Bunsen's Egypt, vol. ii. pp. 54, 55, 244, 445, 446; Vyse on the Pyramids, vol. iii. pp. 27, 100; Sharpe's History of Egypt, vol. i. pp. 9, 19, 24, 34, 167, 185.

154

Sir John Herschel (Disc. on Natural Philosophy, p. 60) calculates that the great pyramid weighs twelve thousand seven hundred and sixty million pounds. Compare Lyell's Principles of Geology, p. 459, where the still larger estimate of six million tons is given. But according to Perring, the present quantity of masonry is 6,316,000 tons, or 82,110,000 cubic feet. See Bunsen's Egypt, vol. ii. p. 155, London, 1854, and Vyse on the Pyramids, 1840, vol. ii. p. 113.

155

Many fanciful hypotheses have been put forward as to the purpose for which the pyramids were built; but it is now admitted that they were neither more nor less than tombs for the Egyptian kings! See Bunsen's Egypt, vol. ii. pp. xvii. 88, 105, 372, 389; and Sharpe's History of Egypt, vol. i. p. 21.

156

For an estimate of the expense at which, one of the pyramids could be built in our time by European workmen, see Vyse on the Pyramids, vol. ii. p. 268. On account, however, of the number of disturbing causes, such calculations have little value.

157

Those who complain that in Europe this interval is still too great, may derive a species of satisfaction from studying the old extra-European civilizations.

158

Wilkinson's Ancient Egyptians, vol. ii. pp. 8, 9. ‘Nor was any one permitted to meddle with political affairs, or to hold any civil office in the state.’ … ‘If any artizan meddled with political affairs, or engaged in any other employment than the one to which he had been brought up, a severe punishment was instantly inflicted upon him.’ Compare Diod. Sic. Bibliothec. Hist. book i. chap. lxxiv. vol. i. p. 223.

159

Wilkinson's Ancient Egyptians, vol. i. p. 263, vol. ii. p. 2; Sharpe's History of Egypt, vol. ii. p. 24.

160

Wilkinson's Ancient Egyptians, vol. ii. pp. 41, 42, vol. iii. p. 69, vol. iv. p. 131. Compare Ammianus Marcellinus, in Hamilton's Ægyptiaca, p. 309.

161

Vyse on the Pyramids, vol. i. p. 61, vol. ii. p. 92.

162

‘Ein König ahmte den andern nach, oder suchte ihn zu übertreffen; indess das gutmüthige Volk seine Lebenstage am Baue dieser Monumente verzehren musste. So entstanden wahrscheinlich die Pyramiden und Obelisken Aegyptens. Nur in den ältesten Zeiten wurden sie gebauet: denn die spätere Zeit und jede Nation, die ein nützliches Gewerbe treiben lernte, bauete keine Pyramiden mehr. Weit gefehlt also, dass Pyramiden ein Kennzeichen von der Glückseligkeit und Aufklärung des alten Aegyptens seyn sollten, sind sie ein unwidersprechliches Denkmal von dem Aberglauben und der Gedankenlosigkeit sowohl der Armen, die da baueten, als der Ehrgeizigen, die den Bau befahlen.’ Herder's Ideen zur Geschichte, vol. iii. pp. 103, 104: see also p. 293, and some admirable remarks in Volney's Voyage en Egypte, vol. i. pp. 240, 241. Even M. Bunsen, notwithstanding his admiration, says of one of the pyramids, ‘the misery of the people, already grievously oppressed, was aggravated by the construction of this gigantic building… The bones of the oppressors of the people who for two whole generations harassed hundreds of thousands from day to day,’ &c. Bunsen's Egypt, vol. ii. p. 176, a learned and enthusiastic work.

163

Καὶ τοῦτο ἐκόμιζον μὲν ἐπ᾽ ἔτεα τρία διοχίλιοι δὲ οἱ οσετετάχατο ᾰνδρες ἀγωγέες. Herodot. book ii. chap. clxxv. vol. i. p. 897. On the enormous weight of the stones which the Egyptians sometimes carried, see Bunsen's Egypt, vol. i. p. 379; and as to the machines employed, and the use of inclined roads for the transit, see Vyse on the Pyramids, vol. i. p. 197, vol. iii. pp. 14, 38.

164

Wilkinson's Ancient Egyptians, vol. i. p. 70: but this learned writer is unwilling to believe a statement so adverse to his favourite Egyptians. It is likely enough that there is some exaggeration; still no one can dispute the fact of an enormous and unprincipled waste of human life.

165

Τριάκοντα μὲν γὰρ καὶ ἒξ μυριάδες ἀνὃρῶν, ὥς φασι, ταῖς τῶν ἔργων λειτουργίαισμα τέλος ἔσχε μόγις ἐτῶν εἴκοσι διελθόντων Diod. Sic. Bibliothec. Hist. book i. ch. lxiii. vol. i. p. 188.

166

‘When compared with other parts of the New World, Mexico and Peru may be considered as polished states.’ History of America, book vii. in Robertson's Works, p. 904. See, to the same effect, Journal of Geograph. Society, vol. v. p. 355.

167

Compare Squier's Central America, vol. i. pp. 34, 244, 358, 421, vol. ii. p. 307, with Journal of Geograph. Society, vol. iii. p. 59, vol. viii. pp. 319, 323.

168

Mr. Squier (Central America, vol. ii. p. 68); who explored Nicaragua, says of the statues, ‘the material, in every case, is a black basalt, of great hardness, which, with the best of modern tools, can only be cut with difficulty.’ Mr. Stephens (Central America, vol. ii. p. 355) found at Palenque ‘elegant specimens of art and models for study.’ See also vol. iii. pp. 276, 389, 406, vol. iv. p. 293. Of the paintings at Chichen he says (vol. iv. p. 311), ‘they exhibit a freedom of touch which could only be the result of discipline and training under masters.’ At Copan (vol. i. p. 151), ‘it would be impossible, with the best instruments of modern times, to cut stones more perfectly.’ And at Uxmal (vol. ii. p. 431), ‘throughout, the laying and polishing of the stones are as perfect as under the rules of the best modern masonry.’ Our knowledge of Central America is almost entirely derived from these two writers; and although the work of Mr. Stephens is much the more minute, Mr. Squier says (vol. ii. p. 306), what I believe is quite true, that until the appearance of his own book in 1853, the monuments in Nicaragua were entirely unknown. Short descriptions of the remains in Guatemala and Yucatan will be found in Larenaudière's Mexique et Guatemala, pp. 308–327, and in Journal of Geograph. Society, vol. iii. pp. 60–63.

169

See the remarks on Yucatan in Prichard's Physical History of Mankind, vol. v. p. 348: ‘a great and industrious, though perhaps, as the writer above cited (Gallatin) observes, an enslaved population. Splendid temples and palaces attest the power of the priests and nobles, while as usual no trace remains of the huts in which dwelt the mass of the nation.’

170

Dr. M'Culloh (Researches concerning the Aboriginal History of America, pp. 272–340) has collected from the Spanish writers some meagre statements respecting the early condition of Central America; but of its social state and history, properly so called, nothing is known; nor is it even certain to what family of nations the inhabitants belonged, though a recent author can find ‘la civilisation guatemalienne ou misteco-zapotèque et mayaquiche vivante pour nous encore dans les ruines de Mitla et de Palenque.’ Mexique et Guatemala, par Larenaudière, p. 8, Paris, 1843. Dr. Prichard, too, refers the ruins in Central America to ‘the Mayan race:’ see Prichard on Ethnology, in Report of British Association for 1847, p. 252. But the evidence for these and similar statements is very unsatisfactory.

171

Respecting the connection between the vegetable productions of a country and its geognostic peculiarities, little is yet known; but the reader may compare Meyen's Geography of Plants, p. 64, with Reports on Botany by the Ray Society, 1846, pp. 70, 71. The chemical laws of soil are much better understood, and have a direct practical bearing on the use of manures. See Turner's Chemistry, vol. ii. pp. 1310–1314; Brande's Chemistry, vol. i. p. 691, vol. ii. pp. 1867–1869; Balfour's Botany, pp. 116–122; Liebig and Kopp's Reports, vol. ii. pp. 315, 328, vol. iii. p. 463, vol. iv. pp. 438, 442, 446.

172

As to the influence of heat and moisture on the geographical distribution of plants, see Henslow's Botany, pp. 295–300, and Balfour's Botany, pp. 560–563. Meyen (Geog. of Plants, p. 263) says, ‘I, therefore, after allowing for local circumstances, bring the vegetation of islands also under the law of nature, according to which the number of species constantly increases with increasing heat and corresponding humidity.’ On the effect of temperature alone, compare a note in Erman's Siberia, vol. i. pp. 64, 65, with Reports on Botany by the Ray Society, pp. 339, 340. In the latter work, it is supposed that heat is the most important of all single agents; and though this is probably true, still the influence of humidity is immense. I may mention as an instance of this, that it has been recently ascertained that the oxygen used by seeds during germination, is not always taken from the air, but is obtained by decomposing water. See the curious experiments of Edwards and Colin in Lindley's Botany, vol. ii. pp. 261, 262, London, 1848; and on the direct nourishment which water supplies to vegetables, see Burdache's great work, Traité de Physiologie, vol. ix. pp. 254, 398.

173

There is a difference between the watersheds of the eastern and western ranges, which explains this in part, but not entirely; and even if the explanation were more satisfactory than it is, it is too proximate to the phenomenon to have much scientific value, and must itself be referred to higher geological considerations.

174

Of this irrigation some idea may be formed from an estimate that the Amazon drains an area of 2,500,000 square miles; that its mouth is 96 miles wide; and that it is navigable 2,200 miles from its mouth. Somerville's Physical Geography, vol. i. p. 423. Indeed, it is said in an essay on the Hydrography of South America (Journal of Geograph. Society, vol. ii. p. 250), that ‘with the exception of one short portage of three miles, water flows, and is for the most part navigable, between Buenos Ayres, in 35° south latitude, to the mouth of the Orinoco, in nearly 9° north.’ See also on this river-system, vol. v. p. 93, vol. x. p. 267. In regard to North America, Mr. Rogers (Geology of North America, p. 8, Brit. Assoc. for 1834) says, ‘the area drained by the Mississippi and all its tributaries is computed at 1,099,000 square miles.’ Compare Richardson's Arctic Expedition, vol. ii. p. 164.

175

The Oregon, or Columbia as it is sometimes called, forms a remarkable botanical line, which is the boundary of the Californian flora. See Reports on Botany by the Ray Society, p. 113.

176

For proof that the mean temperature of the western coast of North America is higher than that of the eastern coast, see Journal of Geograph. Society, vol. ix. p. 380, vol. xi. pp. 168, 216; Humboldt, la Nouvelle Espagne, vol. i. pp. 42, 336; Richardson's Arctic Expedition, vol. ii. pp. 214, 218, 219, 259, 260. This is well illustrated by the botanical fact, that on the west coast the Coniferæ grow as high as 68° or 70° north latitude; while on the east their northern limit is 60°. See an Essay on the Morphology of the Coniferæ, in Reports on Botany by the Ray Society, p. 8, which should be compared with Forry on the Climate of the United States and its Endemic Influences, New York, 1842, p. 89.

177

‘Writers on climate have remarked that the eastern coasts of continents in the northern hemisphere have a lower mean temperature than the western coasts.’ Richardson on North American Zoology, p. 129, Brit. Assoc. for 1836: see also Report for 1841, Sections, p. 28; Davis's China, vol. iii. pp. 140, 141; Journal of Geograph. Society, vol. xxii. p. 176.

178

The little that is known of the early state of the North-American tribes has been brought together by Dr. M'Culloh in his learned work, Researches concerning America, pp. 119–146. He says, p. 121, that they ‘lived together without laws and civil regulations.’ In that part of the world, the population has probably never been fixed; and we now know that the inhabitants of the north-east of Asia have at different times passed over to the north-west of America, as in the case of the Tschuktschi, who are found in both continents. Indeed, Dobell was so struck by the similarity between the North-American tribes and some he met with nearly as far west as Tomsk, that he believed their origin to be the same. See Dobell's Travels in Kamtschatka and Siberia, 1830, vol. ii. p. 112. And on this question of intercourse between the two continents, compare Crantz's History of Greenland, vol. i. pp. 259, 260, with Richardson's Arctic Expedition, vol. i. pp. 362, 363, and Prichard's Physical History of Mankind, vol. iv. pp. 458, 463, vol. v. pp. 371, 378.

179

From general physical considerations, we should suppose a relation between amount of rain and extent of coast; and in Europe, where alone we have extensive meteorological records, the connexion has been proved statistically. ‘If the quantity of rain that falls in different parts of Europe is measured, it is found to be less, other things being equal, as we recede from the sea-shore.’ Kaemtz's Meteorology, 1845, p. 139. Compare pp. 91, 94. Hence, no doubt, the greater rarity of rain as we advance north from Mexico. ‘Au nord du 20°, surtout depuis les 22° au 30° de latitude, les pluies, que ne durent que pendant les mois de juin, de juillet, d'août et de septembre, sont peu fréquentes dans l'intérieur du pays.’ Humboldt, la Nouvelle Espagne, vol. i. p. 46.

180

‘The difference between the climates of the east and west coasts of continents and islands, has also been observed in the southern hemisphere but here the west coasts are colder than the east, while in the northern hemisphere the east coasts are the colder.’ Meyen's Geography of Plants, 1846, p. 24.

181

Mr. Darwin, who has written one of the most valuable works ever published on South America, was struck by this superiority of the eastern coast; and he mentions that ‘fruits which ripen well and are very abundant, such as the grape and fig, in latitude 41° on the east coast, succeed very poorly in a lower latitude on the opposite side of the continent.’ Darwin's Journal of Researches, Lond. 1840, p. 268. Compare Meyen's Geog. of Plants, pp. 25, 188. So that the proposition of Daniell (Meteorological Essays, p. 104, sec. xiv.) is expressed too generally, and should be confined to continents north of the equator.

182

The trade-winds sometimes reach the thirtieth parallel. See Daniell's Meteorological Essays, p. 469. Dr. Traill (Physical Geography, Edin. 1838, p. 200), says, ‘they extend to about 30° on each side of the equator:’ but I believe they are rarely found so high; though Robertson is certainly wrong in supposing that they are peculiar to the tropics; History of America, book iv. in Robertson's Works, p. 781.

183

‘In the northern hemisphere the trade-wind blows from the north-east, and in the southern from the south-east.’ Meyen's Geog. of Plants, p. 42. Compare Walsh's Brazil, vol. i. p. 112, vol. ii. p. 494; and on the ‘tropical east-wind’ of the Gulf of Mexico, see Forry's Climate of the United States, p. 206. Dr. Forry says that it has given to the growth of the trees ‘an inclination from the sea.’

184

Respecting the causes of the trade-winds, see Somerville's Connexion of the Physical Sciences, pp. 136, 137; Leslie's Natural Philosophy, p. 518; Daniell's Meteorological Essays, pp. 44, 102, 476–481; Kaemtz's Meteorology, pp. 37–39; Prout's Bridgewater Treatise, pp. 254–256. The discovery of the true theory is often ascribed to Mr. Daniell; but Hadley was the real discoverer. Note in Prout, p. 257. The monsoons, which popular writers frequently confuse with the trade-winds, are said to be caused by the predominance of land, and by the difference between its temperature and that of the sea: see Kaemtz, pp. 42–45. On what may be called the conversion of the trades into monsoons, according to the laws very recently promulgated by M. Dove, see Report of British Association for 1847 (Transac. of Sections, p. 30) and Report for 1848, p. 94. The monsoons are noticed in Humboldt's Cosmos, vol. ii. p. 485; Asiatic Researches, vol. xviii. part i. p. 261; Thirlwall's History of Greece, vol. vii. pp. 13, 55; Journal of Geograph. Society, vol. ii. p. 90, vol. iv. pp. 8, 9, 148, 149, 169, vol. xi. p. 162, vol. xv. pp. 146–149, vol. xvi. p. 185, vol. xviii. pp. 67, 68, vol. xxiii. p. 112; Low's Sarawak, p. 30.

185

Lyell's Principles of Geology, pp. 201, 714, 715; see also Somerville's Physical Geography, vol. ii. p. 71. And on this confining power of the Cordillera of the Andes, see Azara, Voyages dans l'Amérique Méridionale, vol. i. p. 33. According to Dr. Tschudi, the eastern chain is properly the Andes, and the western the Cordillera; but this distinction is rarely made. Tschudi's Travels in Peru, p. 290.

186

On the rain of Brazil, see Daniell's Meteorological Essays, p. 335; Darwin's Journal, pp. 11, 33; Spix and Martius's Travels in Brazil, vol. ii. p. 113; Gardner's Travels in Brazil, pp. 53, 99, 114, 175, 233, 394.

187

Dr. Gardner, who looked at these things with the eye of a botanist, says that near Rio de Janeiro the heat and moisture are sufficient to compensate even the poorest soil; so that ‘rocks, on which scarcely a trace of earth is to be observed, are covered with vellozias, tillandsias, melastomaceæ, cacti, orchideæ, and ferns, and all in the vigour of life.’ Gardner's Travels in Brazil, p. 9. See also on this combination, Walsh's Brazil, vol. ii. pp. 297, 298, a curious description of the rainy season: ‘For eight or nine hours a day, during some weeks, I never had a dry shirt on me; and the clothes I divested myself of at night, I put on quite wet in the morning. When it did not rain, which was very rare, there shone out in some places a burning sun; and we went smoking along, the wet exhaling by the heat, as if we were dissolving into vapour.’

188

On the natural history of Brazil, I have compared a few notices in Swainson's Geography of Animals, pp. 75–87, with Cuvier, Règne Animal, vol. i. p. 460, vol. ii. pp. 28, 65, 66, 89, vol. iv. pp. 51, 75, 258, 320, 394, 485, 561, vol. v. pp. 40, 195, 272, 334, 553; Azara, Amérique Méridionale, vol. i. pp. 244–388, and the greater part of vols. iii. and iv.; Winckler, Geschichte der Botanik, pp. 378, 576–578; Southey's History of Brazil, vol. i. p. 27, vol. iii. pp. 315, 823; Gardner's Brazil, pp. 18, 32–34, 41–44, 131, 330; Spix and Martius's Brazil, vol. i. pp. 207–209, 238–248, vol. ii. pp. 131, 160–163. And as to the forests, which are among the wonders of the world, Somerville's Physical Geog. vol. ii. pp. 204–206; Prichard's Physical History, vol. v. p. 497; Darwin's Journal, pp. 11, 24; Walsh's Brazil, vol. i. p. 145, vol. ii. pp. 29, 30, 253.

189

This extraordinary richness has excited the astonishment of all who have seen it. Mr. Walsh, who had travelled in some very fertile countries, mentions ‘the exceeding fecundity of nature which characterizes Brazil.’ Walsh's Brazil, vol. ii. p. 19. And a very eminent naturalist, Mr. Darwin, says (Journal, p. 29), ‘In England, any person fond of natural history enjoys in his walks a great advantage, by always having something to attract his attention; but in these fertile climates, teeming with life, the attractions are so numerous that he is scarcely able to walk at all.’

190

Azara (Amérique Méridionale, vol. ii. pp. 1–168) gives a curious, but occasionally a disgusting account of the savage natives in that part of Brazil south of 16°, to which his observations were limited. And as to the inhabitants of other parts, see Henderson's History of Brazil, pp. 28, 29, 107, 173, 248, 315, 473; M'Culloh's Researches concerning America, p. 77; and the more recent account of Dr. Martius, in Journal of Geograph. Society, vol. ii. pp. 191–199. Even in 1817, it was rare to see a native in Rio de Janeiro (Spix and Martius's Travels in Brazil, vol. i. p. 142); and Dr. Gardner (Travels in Brazil, pp. 61, 62) says, that ‘more than one nation of Indians in Brazil’ have returned to that savage life from which they had apparently been reclaimed.

191

Sir C. Lyell (Principles of Geology, p. 682) notices ‘the incredible number of insects which lay waste the crops in Brazil;’ and Mr. Swainson, who had travelled in that country, says ‘The red ants of Brazil are so destructive, and at the same time so prolific, that they frequently dispute possession of the ground with the husbandman, defy all his skill to extirpate their colonies, and fairly compel him to leave his fields uncultivated.’ Swainson on the Geography and Classification of Animals, p. 87. See more about these insects in Darwin's Journal, pp. 37–43; Southey's History of Brazil, vol. i. pp. 144, 256, 333–335, 343, vol. ii. pp. 365, 642, vol. iii. p. 876; Spix and Martius's Travels in Brazil, vol. i. p. 259, vol. ii. p. 117; Cuvier, Règne Animal, vol. iv. p. 320.

192

The cultivated land is estimated at from 1½ to 2 per cent. See M'Culloch's Geog. Dict. 1849, vol. i. p. 430.

193

During the present century, the population of Brazil has been differently stated at different times; the highest computation being 7,000,000, and the lowest 4,000,000. Comp. Humboldt, Nouv. Espagne, vol. ii. p. 855; Gardner's Brazil, p. 12; M'Culloch's Geog. Dict. 1849, vol. i. pp. 430, 434. Mr. Walsh describes Brazil as ‘abounding in lands of the most exuberant fertility, but nearly destitute of inhabitants.’ Walsh's Brazil, vol. i. p. 248. This was in 1828 and 1829, since which the European population has increased; but, on the whole, 6,000,000 seems to be a fair estimate of what can only be known approximatively. In Alison's History, vol. x. p. 229, the number given is 5,000,000; but the area also is rather understated.

194

Vidaca being the most southerly point of the present Peruvian coast; though the conquests of Peru, incorporated with the empire, extended far into Chili, and within a few degrees of Patagonia. In regard to Mexico, the northern limit of the empire was 21°, on the Atlantic coast, and 19° on the Pacific. Prescott's History of Mexico, vol. i. p. 2.

195

A question has been raised as to the Asiatic origin of maize: Reynier, Economie des Arabes, pp. 94, 95. But later and more careful researches seem to have ascertained beyond much doubt that it was unknown before America was discovered. Compare Meyen's Geography of Plants, pp. 44, 303, 304; Walckenaer's note in Azara, Amérique Méridionale, vol. i. p. 149; Cuvier, Progrès des Sciences Naturelles, vol. ii. p. 354; Cuvier, Eloges Historiques, vol. ii. p. 178; Loudon's Encyclopædia of Agriculture, p. 829; M'Culloch's Dict. of Commerce, 1849, p. 831. The casual notices of maize by Ixtlilxochitl, the native Mexican historian, show its general use as an article of food before the arrival of the Spaniards: see Ixtlilxochitl, Histoire des Chichimèques, vol. i. pp. 53, 64, 240, vol. ii. p. 19.

196

‘Maize, indeed, grows to the height of 7,200 feet above the level of the sea, but only predominates between 3,000 and 6,000 of elevation.' Lindley's Vegetable Kingdom, 1847, p. 112. This refers to the tropical parts of South America; but the Zea Mais is said to have been raised on the slopes of the Pyrenees ‘at an elevation of 3,000 to 4,000 feet.’ See Austen on the Forty Days' Maize, in Report of Brit. Assoc. for 1849, Trans. of Sec. p. 68.

197

M. Meyen (Geog. of Plants, p. 302) and Mr. Balfour (Botany, p. 567) suppose that in America 40° is about its limit; and this is the case in regard to its extensive cultivation; but it is grown certainly as high as 52°, perhaps as high as 54°, north latitude: see Richardson's Arctic Expedition, 1851, vol. ii. pp. 49, 234.

198

‘Sous la zone tempérée, entre les 33 et 38 degrés de latitude, par exemple dans la Nouvelle Californie, le maïs ne produit, en général, année commune, que 70 à 80 grains pour un.’ Humboldt, la Nouvelle Espagne, vol. ii. p. 375.

199

‘La fécondité du Tlaolli, ou maïs mexicain, est au-delà de tout ce que l'on peut imaginer en Europe. La plante, favorisée par de fortes chaleurs et par beaucoup d'humidité, acquiert une hauteur de deux à trois mètres. Dans les belles plaines qui s'étendent depuis San Juan del Rio à Queretaro, par exemple dans les terres de la grande métairie de l'Esperanza, une fanègue de maïs en produit quelquefois huit cents. Des terrains fertiles en donnent, année commune, trois à quatre cents.’ Humboldt, Nouv. Espagne, vol. ii. p. 374. Nearly the same estimate is given by Mr. Ward: see Ward's Mexico, vol. i. p. 32, vol. ii. p. 230. In Central America (Guatemala), maize returns three hundred for one. Mexique et Guatemala, par Larenaudière, p. 257.

200

‘La pomme de terre n'est pas indigène au Pérou.’ Humboldt, Nouv. Espagne, vol. ii. p. 400. On the other hand, Cuvier (Histoire des Sciences Naturelles, part ii. p. 185) peremptorily says, ‘il est impossible de douter qu'elle ne soit originaire du Pérou:’ see also his Eloges Historiques, vol. ii. p. 171. Compare Winckler, Gesch. der Botanik, p. 92: ‘Von einem gewissen Carate unter den Gewächsen Peru's mit dem Namen papas aufgeführt.’

201

And has been used ever since for food. On the Peruvian potato compare Tschudi's Travels in Peru, pp. 178, 368, 386; Ulloa's Voyage to South America, vol. i. pp. 287, 288. In Southern Peru, at the height of 13,000 or 14,000 feet, a curious process takes place, the starch of the potato being frozen into saccharine. See a valuable paper by Mr. Bollaert in Journal of Geograph. Society, vol. xxi. p. 119.

202

Humboldt (Nouv. Espagne, vol. ii. p. 359) says, ‘partout où la chaleur moyenne de l'année excède vingt-quatre degrés centigrades, le fruit du bananier est un objet de culture du plus grand intérêt pour la subsistance de l'homme.’ Compare Bullock's Mexico, p. 281.

203

M'Culloch's Geograph. Dict., 1849, vol. ii. p. 315.

204

‘Je doute qu'il existe une autre plante sur le globe, qui, sur un petit espace de terrain, puisse produire une masse de substance nourrissante aussi considérable.’ … ‘Le produit des bananes est par conséquent à celui du froment comme 133: 1 – à celui des pommes de terre comme 44: l'Humboldt, Nouvelle Espagne, vol. ii. pp. 362, 363. See also Prout's Bridgewater Treatise, p. 333, edit. 1845; Prescott's Peru, vol. i. pp. 131, 132; Prescott's Mexico, vol. i. p. 114. Earlier notices, but very imperfect ones, of this remarkable vegetable may be found in Ulloa's South America, vol. i. p. 74; and in Boyle's Works, vol. iii. p. 590.

205

The only science with which they had much acquaintance was astronomy, which the Mexicans appear to have cultivated with considerable success. Compare the remark of La Place, in Humboldt, Nouvelle Espagne, vol. i. p. 92, with Prichard's Physical History, vol. v. pp. 323, 329; M'Culloch's Researches, pp. 201–225; Larenaudière's Mexique, pp. 51, 52; Humboldt's Cosmos, vol. iv. p. 456; Journal of Geog. Society, vol. vii. p. 3. However, their astronomy, as might be expected, was accompanied by astrology: see Ixtlilxochitl, Histoire des Chichimèques, vol. i. p. 168, vol. ii. pp. 94, 111.

206

The works of art produced by the Mexicans and Peruvians are under-rated by Robertson: who, however, admits that he had never seen them. History of America, book vii., in Robertson's Works, pp. 909, 920. But during the present century considerable attention has been paid to this subject: and in addition to the evidence of skill and costly extravagance collected by Mr. Prescott, History of Peru, vol. i. pp. 28, 142; History of Mexico, vol. i. pp. 27, 28, 122, 256, 270, 307, vol. ii. pp. 115, 116), I may refer to the testimony of M. Humboldt, the only traveller in the New World who has possessed a competent amount of physical as well as historical knowledge. Humboldt, Nouvelle Espagne, vol. ii. p. 483, and elsewhere. Compare Mr. Pentland's observations on the tombs in the neighbourhood of Titicaca (Jour. of Geog. Soc. vol. x. p. 554) with M'Culloh's Researches, pp. 364–366; Mexique par Larenaudière, pp. 41, 42, 66; Ulloa's South America, vol. i. pp. 465, 466.

207

‘The members of the royal house, the great nobles, even the public functionaries, and the numerous body of the priesthood, were all exempt from taxation. The whole duty of defraying the expenses of the government belonged to the people.’ Prescott's History of Peru, vol. i. p. 56.

208

Ondegardo emphatically says, ‘Solo el trabajo de las personas era el tributo que se dava, porque ellos no poseian otra cosa.’ Prescott's Peru, vol. i. p. 57. Compare M'Culloh's Researches, p. 359. In Mexico the state of things was just the same: ‘Le petit peuple, qui ne possédait point de biens-fonds, et qui ne faisait point de commerce, payait sa part des taxes en travaux de différents genres; c'était par lui que les terres de la couronne étaient cultivées, les ouvrages publics exécutés, et les diverses maisons appartenantes à l'empereur construites ou entretenues.’ Larenaudière's Mexique, p. 39.

209

Mr. Prescott notices this with surprise, though, under the circumstances, it was in truth perfectly natural. He says (Hist. of Peru, vol. i. p. 159), ‘Under this extraordinary polity, a people, advanced in many of the social refinements, well skilled in manufactures and agriculture, were unacquainted, as we have seen, with money. They had nothing that deserved to be called property. They could follow no craft, could engage in no labour, no amusement, but such as was specially provided by law. They could not change their residence or their dress without a licence from the government. They could not even exercise the freedom which is conceded to the most abject in other countries – that of selecting their own wives.’

210

The Mexicans being, as Prichard says (Physical History, vol. v. p. 467), of a more cruel disposition than the Peruvians; but our information is too limited to enable us to determine whether this was mainly owing to physical causes or to social ones. Herder preferred the Peruvian civilization: ‘der gebildetste Staat dieses Welttheils, Peru.’ Ideen zur Geschichte der Menschheit, vol. i. p. 33.

211

See in Humboldt's Nouvelle Espagne, vol. i. p. 101, a striking summary of the state of the Mexican people at the time of the Spanish Conquest: see also History of America, book vii., in Robertson's Works, p. 907.

212

Prescott's History of the Conquest of Mexico, vol. i. p. 34. Compare a similar remark on the invasion of Egypt in Bunsen's Egypt, vol. ii. p. 414.

213

That there were castes in Persia is stated by Firdousi; and his assertion, putting aside its general probability, ought to outweigh the silence of the Greek historians, who, for the most part, knew little of any country except their own. According to Malcolm, the existence of caste in the time of Jemsheed, is confirmed by some ‘Mahomedan authors;’ but he does not say who they were. Malcolm's History of Persia, vol. i. pp. 505, 506. Several attempts have been made, but very unsuccessfully, to ascertain the period in which castes were first instituted. Compare Asiatic Researches, vol. vi. p. 251; Heeren's African Nations, vol. ii. p. 121; Bunsen's Egypt, vol. ii. p. 410; Rammohun Roy on the Veds, p. 269.

214

Prescott's History of Peru, vol. i. pp. 143, 156.

215

Prescott's History of Mexico, vol. i. p. 124.

216

‘Les Américains, comme les habitans de l'Indoustan, et comme tous les peuples qui ont gémi long-temps sous le despotisme civil et religieux, tiennent avec une opiniâtreté extraordinaire à leurs habitudes, à leurs mœurs, à leurs opinions… Au Mexique, comme dans l'Indoustan, il n'étoit pas permis aux fidèles de changer la moindre chose aux figures des idoles. Tout ce qui appartenoit au rite des Aztèques et des Hindous étoit assujéti à des lois immuables.’ Humboldt, Nouv. Espagne, vol. i. pp. 95, 97. Turgot (Œuvres, vol. ii. pp. 226, 313, 314) has some admirable remarks on this fixity of opinion natural to certain states of society. See also Herder's Ideen zur Geschichte, vol. iii. pp. 34, 35; and for other illustrations of this unpliancy of thought, and adherence to old customs, which many writers suppose to be an eastern peculiarity but which is far more widely spread, and is, as Humboldt clearly saw, the result of an unequal distribution of power, compare Turner's Embassy to Tibet, p. 41; Forbes's Oriental Memoirs, vol. i. pp. 15, 164, vol. ii. p. 236; Mill's History of India, vol. ii. p. 214; Elphinstone's History of India, p. 48; Otter's Life of Clarke, vol. ii. p. 109; Transac. of Asiatic Society, vol. ii. p. 64; Journal of Asiat. Society, vol. viii. p. 116.

217

‘How scrupulous the Egyptians were, above all people, in permitting the introduction of new customs in matters relating to the gods.’ Wilkinson's Ancient Egyptians, vol. iii. p. 262. Compare p. 275. Thus, too, M. Bunsen notices the ‘tenacity with which the Egyptians adhered to old manners and customs.’ Bunsen's Egypt, vol. ii. p. 64. See also some remarks on the difference between this spirit and the love of novelty among the Greeks, in Ritter's History of Ancient Philosophy, vol. iv. pp. 625, 626.

218

Herodot. book ii. chap. 79: πατρίοισι δὲ χρεώμενοι νόμοισι, ἔλλον οὀδέα ἐιτέωνται: and see the note in Baehr, vol. i. p. 660: ‘νόμους priores interpretes explicarunt cantilenas, hymnos; Schweighæuserus rectius intellexit instituta ac mores.’ In the same way, in Timæus, Plato represents an Egyptian priest saying to Solon, Ἕλληνες ἀεὶ παῖδές ἐστε, γέρων δὲ Ἕλλην οὐκ ἔστιν. And when Solon asked what he meant, Νέοι ἐστε, was the reply, τὰς ψυχὰς πάντες⋅ οὐδεμίαν γὰρ ἐν αὐταῖς ἔχετε δὶ ἀρχαίαν ἀκοὴν πολιὸν δόξαν οὐδὲ μάθημα χρόνφ πολιὸν οὐδέν. Chap. v. in Platonis Opera, vol. vii. p. 242, edit. Bekker, Lond. 1826.

219

The Mexicans appear to have been even more wantonly prodigal than the Peruvians. See, respecting their immense pyramids, one of which, Cholula had a base ‘twice as broad as the largest Egyptian pyramid,’ M'Culloh's Researches, pp. 252–256; Bullock's Mexico, pp. 111–115, 414; Humboldt's Nouvelle Espagne, vol. i. pp. 240, 241.

220

Prescott's History of Mexico, vol. i. p. 117, vol. iii. p. 341; and Prescott's History of Peru, vol. i. p. 145. See also Haüy, Traité de Minéralogie, Paris, 1801, vol. iv. p. 372.

221

Prescott's History of Peru, vol. i. p. 18.

222

Mr. Prescott (History of Mexico, vol. i. p. 153) says, ‘We are not informed of the time occupied in building this palace; but 200,000 workmen, it is said, were employed on it. However this may be, it is certain that the Tezcucan monarchs, like those of Asia and ancient Egypt, had the control of immense masses of men, and would sometimes turn the whole population of a conquered city, including the women, into the public works. The most gigantic monuments of architecture which the world has witnessed would never have been reared by the hands of freemen.’ The Mexican historian, Ixtlilxochitl, gives a curious account of one of the royal palaces. See his Histoire de Chichiméques, translated by Ternaux-Compans, Paris, 1840, vol. i. pp. 257–262, chap. xxxvii.

223

This may be illustrated by a good remark of M. Matter, to the effect that when the Egyptians had once lost their race of kings, it was found impossible for the nation to reconstruct itself. Matter, Histoire de l'Ecole d'Alexandrie, vol. i. p. 68; a striking passage. In Persia, again, when the feeling of loyalty decayed, so also did the feeling of national power. Malcolm's History of Persia, vol. ii. p. 130. The history of the most civilized parts of Europe presents a picture exactly the reverse of this.

224

I mean in regard to the physical and economical generalizations. As to the literature of the subject, I am conscious of many deficiencies, particularly in respect to the Mexican and Peruvian histories.

225

The sensation of fear, even when there is no danger, becomes strong enough to destroy the pleasure that would otherwise be felt. See, for instance, a description of the great mountain boundary of Hindostan, in Asiatic Researches, vol. xi. p. 469: ‘It is necessary for a person to place himself in our situation before he can form a just conception of the scene. The depth of the valley below, the progressive elevation of the intermediate hills, and the majestic splendour of the cloud-capped Himalaya, formed so grand a picture, that the mind was impressed with a sensation of dread rather than of pleasure.’ Compare vol. xiv. p. 116, Calcutta, 1822. In the Tyrol, it has been observed, that the grandeur of the mountain scenery imbues the minds of the natives with fear, and has caused the invention of many superstitious legends. Alison's Europe, vol. ix. pp. 79, 80.

226

‘Une augmentation d'électricité s'y manifeste aussi presque toujours, et ils sont généralement annoncés par le mugissement des bestiaux, par l'inquiétude des animaux domestiques, et dans les hommes par cette sorte de malaise qui, en Europe, précède les orages dans les personnes nerveuses.’ Cuvier, Prog. des Sciences, vol. i. p. 265. See also, on this ‘Vorgefühl,’ the observation of Von Hoff, in Mr. Mallet's valuable essay on earthquakes (Brit. Assoc. for 1850, p. 68); and the ‘foreboding’ in Tschudi's Peru, p. 165; and a letter in Nichols's Illustrations of the Eighteenth Century, vol. iv. p. 504. The probable connexion between earthquakes and electricity is noticed in Bakewell's Geology, p. 434.

227

‘Peru is more subject perhaps than any other country to the tremendous visitation of earthquakes.’ M'Culloch's Geog. Dict. 1849. vol. ii. p. 499. Dr. Tschudi (Travels in Peru, p. 162) says of Lima, ‘at an average forty-five shocks may be counted on in the year.’ See also on the Peruvian earthquakes, pp. 43, 75, 87, 90.

228

A curious instance of association of ideas conquering the deadening effect of habit. Dr. Tschudi (Peru, p. 170), describing the panic, says, ‘no familiarity with the phenomenon can blunt this feeling.’ Beale (South-Sea Whaling Voyage, Lond. 1839, p. 205) writes, ‘it is said at Peru, that the oftener the natives of the place feel those vibrations of the earth, instead of becoming habituated to them, as persons do who are constantly exposed to other dangers, they become more filled with dismay every time the shock is repeated, so that aged people often find the terror a slight shock will produce almost insupportable.’ Compare Darwin's Journal, pp. 422, 423. So, too, in regard to Mexican earthquakes, Mr. Ward observes, that ‘the natives are both more sensible than strangers of the smaller shocks, and more alarmed by them.’ Ward's Mexico, vol. ii. p. 55. On the physiological effects of the fear caused by earthquakes, see the remarkable statement by Osiander in Burdach's Physiologie comme Science d'Observation, vol. ii. pp. 223, 224. That the fear should be not deadened by familiarity, but increased by it, would hardly be expected by speculative reasoners unacquainted with the evidence; and we find, in fact, that the Pyrrhonists asserted that οὁ γοῦν σεισμὰ παρ᾽ οὗς συνεχῶς ἀποτελοῦνται, οὐ θαυμάζοντο⋅ οὐδ᾽ ὁ ἥλιος, ὅτι καθ᾽ ἡμέραν ὁράαι. Diog. Laert. de Vitis Philos. lib. ix. segm. 87, vol. i. p. 591.

229

Mr. Stephens, who gives a striking description of an earthquake in Central America, emphatically says, ‘I never felt myself so feeble a thing before.’ Stephens's Central America, vol. i. p. 383. See also the account of the effects produced on the mind by an earthquake, in Transac. of Soc. of Bombay, vol. iii. p. 98, and the note at p. 105.

230

The effect of earthquakes in encouraging superstition, is noticed in Lyell's admirable work, Principles of Geology, p. 492. Compare a myth on the origin of earthquakes in Beausobre, Histoire Critique de Manichée, vol. i. p. 243.

231

The greatest men in science, and in fact all very great men, have no doubt been remarkable for the powers of their imagination. But in art the imagination plays a far more conspicuous part than in science; and this is what I mean to express by the proposition in the text. Sir David Brewster, indeed, thinks that Newton was deficient in imagination: ‘the weakness of his imaginative powers.’ Brewster's Life of Newton, 1855, vol. ii. p. 133. It is impossible to discuss so large a question in a note; but to my apprehension, no poet, except Dante and Shakespeare, ever had an imagination more soaring and more audacious than that possessed by Sir Isaac Newton.

232

The remarks made by Mr. Ticknor on the absence of science in Spain, might be extended even further than he has done. See Ticknor's History of Spanish Literature, vol. iii. pp. 222, 223. He says, p. 237, that in 1771, the University of Salamanca being urged to teach the physical sciences, replied, ‘Newton teaches nothing that would make a good logician or metaphysician, and Gassendi and Descartes do not agree so well with revealed truth as Aristotle does.’

233

In Asiatic Researches, vol. vi. pp. 35, 36, there is a good instance of an earthquake giving rise to a theological fiction. See also vol. i. pp. 154–157; and compare Coleman's Mythology of the Hindus, p. 17.

234

See for example, Asiatic Researches, vol. iv. pp. 56, 57, vol. vii. p. 94; and the effect produced by a volcano, in Journal of Geograph. Society, vol. v. p. 388. See also vol. xx. p. 8, and a practical recognition of the principle by Sextus Empiricus, in Tennemann's Geschichte der Philosophie, vol. i. p. 292. Compare the use the clergy made of a volcanic eruption in Iceland (Wheaton's History of the Northmen, p. 42); and see further Raffles' History of Java, vol. i. pp. 29, 274, and Tschudi's Peru, pp. 64, 167, 171.

235

The Hindus in the Iruari forests, says Mr. Edye, ‘worship and respect everything from which they apprehend danger.’ Edye on the Coast of Malabar, in Journal of Asiatic Society, vol. ii. p. 337.

236

Dr. Prichard (Physical History, vol. iv. p. 501) says ‘The tiger is worshipped by the Hajin tribe in the vicinity of the Garrows or Garrudus.’ Compare Transactions of Asiatic Society, vol. iii. p. 66. Among the Garrows themselves, this feeling is so strong, that ‘the tiger's nose strung round a woman's neck is considered as a great preservative in childbirth.’ Coleman's Mythology of the Hindus, p. 321. The Seiks have a curious superstition respecting wounds inflicted by tigers (Burne's Bokhara, 1834, vol. iii. p. 140); and the Malasir believe that these animals are sent as a punishment for irreligion. Buchanan's Journey through the Mysore, vol. ii. p. 385.

237

The inhabitants of Sumatra are, for superstitious reasons, most unwilling to destroy tigers, though they commit frightful ravages. Marsden's History of Sumatra, pp. 149, 254. The Russian account of the Kamtschatkans says, ‘besides the above-mentioned gods, they pay a religious regard to several animals from which they apprehend danger.’Grieve's History of Kamtschatka, p. 205. Bruce mentions that in Abyssinia, hyænas are considered ‘enchanters’ and the inhabitants ‘will not touch the skin of a hyæna till it has been prayed over and exorcised by a priest.’ Murray's Life of Bruce, p. 472. Allied to this, is the respect paid to bears (Erman's Siberia, vol. i. p. 492, vol. ii. pp. 42, 43); also the extensively-diffused worship of the serpent, whose wily movements are well calculated to inspire fear, and therefore rouse the religious feelings. The danger apprehended from noxious reptiles is connected with the Dews of the Zendavesta. See Matter's Histoire du Gnosticisme, vol. i. p. 380, Paris, 1828.

238

To give one instance of the extent to which these operate, it may be mentioned, that in 1815 an earthquake and volcanic eruption broke forth in Sumbawa, which shook the ground ‘through an area of 1,000 miles in circumference,’ and the detonations of which were heard at a distance of 970 geographical miles. Somerville's Connexion of the Physical Sciences, p. 283; Hitchcock's Religion of Geology, p. 190; Low's Sarawak, p. 10; Bakewell's Geology, p. 438.

239

In the sixteenth century, ‘Les différentes sectes s'accordèrent néanmoins à regarder les maladies graves et dangereuses comme un effet immédiat de la puissance divine; idée que Fernel contribua encore à répandre davantage. On trouve dans Paré plusieurs passages de la Bible, cités pour prouver que la colère de Dieu est la seule cause de la peste, qu'elle suffit pour provoquer ce fléau, et que sans elle les causes éloignées ne sauraient agir.’ Sprengel, Histoire de la Médecine, vol. iii. p. 112. The same learned writer says of the Middle Ages (vol. ii. p. 372), ‘D'après l'esprit généralement répandu dans ces siècles de barbarie, on croyait la lèpre envoyée d'une manière immédiate par Dieu.’ See also pp. 145, 346, 431. Bishop Heber says that the Hindus deprive lepers of caste and of the right of possessing property, because they are objects of ‘Heaven's wrath.’ Heber's Journey through India, vol. ii. p. 330. On the Jewish opinion, see Le Clerc, Bibliothèque Universelle, vol. iv. p. 402, Amsterdam, 1702. And as to the early Christians, see Maury, Légendes Pieuses, p. 68, Paris, 1843: though M. Maury ascribes to ‘les idées orientales reçues par le christianisme,’ what is due to the operation of a much wider principle.

240

Under the influence of the inductive philosophy, the theological theory of disease was seriously weakened before the middle of the seventeenth century; and by the middle, or at all events the latter half, of the eighteenth century, it had lost all its partisans among scientific men. At present it still lingers on among the vulgar; and traces of it may be found in the writings of the clergy, and in the works of other persons little acquainted with physical knowledge. When the cholera broke out in England, attempts were made to revive the old notion; but the spirit of the age was too strong for such efforts to succeed; and it may be safely predicted that men will never return to their former opinions, unless they first return to their former ignorance. As a specimen of the ideas which the cholera tended to excite, and of their antagonism to all scientific investigation, I may refer to a letter written in 1832 by Mrs. Grant, a woman of some accomplishments, and not devoid of influence (Correspondence of Mrs. Grant, London, 1844, vol. iii. pp. 216, 217), where she states that ‘it appears to me great presumption to indulge so much as people do in speculation and conjecture about a disease so evidently a peculiar infliction, and different from all other modes of suffering hitherto known.’ This desire to limit human speculation is precisely the feeling which long retained Europe in darkness; since it effectually prevented those free inquiries to which we are indebted for all the real knowledge we possess. The doubts of Boyle upon this subject supply a curious instance of the transitory state through which the mind was passing in the seventeenth century, and by which the way was prepared for the great liberating movement of the next age. Boyle, after stating both sides of the question, namely, the theological and the scientific, adds, ‘and it is the less likely that these sweeping and contagious maladies should be always sent for the punishment of impious men, because I remember to have read in good authors, that as some plagues destroyed both men and beasts, so some other did peculiarly destroy brute animals of very little consideration or use to men, as cats,’ &c.

‘Upon these and the like reasons, I have sometimes suspected that in the controversy about the origin of the plague, namely, whether it be natural or supernatural, neither of the contending parties is altogether in the right; since it is very possible that some pestilences may not break forth without an extraordinary, though perhaps not immediate, interposition of Almighty God, provoked by the sins of men; and yet other plagues may be produced by a tragical concourse of merely natural causes.’ Discourse on the Air, in Boyle's Works, vol. iv. pp. 288, 289. ‘Neither of the contending parties is altogether in the right!’ – an instructive passage towards understanding the compromising spirit of the seventeenth century; standing midway, as it did, between the credulity of the sixteenth, and the scepticism of the eighteenth.

241

To the historian of the human mind, the whole question is so full of interest, that I shall refer in this note to all the evidence I have been able to collect: and whoever will compare the following passages may satisfy himself that there is in every part of the world an intimate relation between ignorance respecting the nature and proper treatment of a disease, and the belief that such disease is caused by supernatural power, and is to be cured by it. Burton's Sindh, p. 146, London, 1851; Ellis's Polynesian Researches, vol. i. p. 395, vol. iii. pp. 36, 41, vol. iv. pp. 293, 334, 375; Cullen's Works, Edinb. 1827, vol. ii. pp. 414, 434; Esquirol, Maladies Mentales, vol. i. pp. 274, 482; Cabanis, Rapports du Physique et du Moral, p. 277; Volney, Voyage en Syrie, vol. i. p. 426; Turner's Embassy to Tibet, p. 104; Syme's Embassy to Ava, vol. ii. p. 211; Ellis's Tour through Hawaii, pp. 282, 283, 332, 333; Renouard, Histoire de la Médecine, vol. i. p. 398; Broussais, Examen des Doctrines Médicales, vol. i. pp. 261, 262; Grote's History of Greece, vol. i. p. 485 (compare p. 251, and vol. vi. p. 213); Grieve's History of Kamtschatka, p. 217; Journal of Statist. Soc. vol. x. p. 10; Buchanan's North American Indians, pp. 256, 257; Halkett's North American Indians, pp. 36, 37, 388, 393, 394; Catlin's North American Indians, vol. i. pp. 35–41; Briggs on the Aboriginal Tribes of India, in Report of Brit. Assoc. for 1850, p. 172; Transactions of Soc. of Bombay, vol. ii. p. 30; Percival's Ceylon, p. 201; Buchanan's Journey through the Mysore, vol. ii. pp. 27, 152, 286, 528, vol. iii. pp. 23, 188, 253 (so, too, M. Geoffroy Saint Hilaire, Anomalies de l'Organization, vol. iii. p. 380, says that when we were quite ignorant of the cause of monstrous births, the phenomenon was ascribed to the Deity, – ‘de là aussi l'intervention supposée de la divinité;’ and for an exact verification of this, compare Burdach, Traité de Physiologie, vol. ii. p. 247, with Journal of Geog. Soc. vol. xvi. p. 113); Ellis's History of Madagascar, vol. i. pp. 224, 225; Prichard's Physical History, vol. i. p. 207, vol. v. p. 492; Journal of Asiatic Society, vol. iii. p. 230, vol. iv. p. 158; Asiatic Researches, vol. iii. pp. 29, 156, vol. iv. pp. 56, 58, 74, vol. xvi. pp. 215, 280; Neander's History of the Church, vol. iii. p. 119; Crawfurd's History of the Indian Archipelago, vol. i. p. 328; Low's Sarawak, pp. 174, 261; Cook's Voyages, vol. i. p. 229; Mariner's Tonga Islands, vol. i. pp. 194, 350–360, 374, 438, vol. ii. pp. 172, 230; Huc's Travels in Tartary and Thibet, vol. i. pp. 74–77; Richardson's Travels in the Sahara, vol. i. p. 27; M'Culloh's Researches, p. 105; Journal of Geog. Soc. vol. i. p. 41, vol. iv. p. 260, vol. xiv. p. 37. And in regard to Europe, compare Spence, Origin of the Laws of Europe, p. 322; Turner's Hist. of England, vol. iii. p. 443; Phillips on Scrofula, p. 255; Otter's Life of Clarke, vol. i. pp. 265, 266, which may be illustrated by the ‘sacred’ disease of Cambyses, no doubt epilepsy; see Herodot. lib. iii. chap. xxxiv. vol. ii. p. 63.

242

Heat, moisture, and consequent rapid decomposition of vegetable matter, are certainly among the causes of this; and to them may perhaps be added the electrical state of the atmosphere in the tropics. Compare Holland's Medical Notes, p. 477; M'William's Medical Expedition to the Niger, pp. 157, 185; Simon's Pathology, p. 269; Forry's Climate and its Endemic Influences, p. 158. M. Lepelletier says, rather vaguely (Physiologie Médicale, vol. iv. p. 527), that the temperate zones are ‘favorables à l'exercice complet et régulier des phénomènes vitaux.’

243

And must have strengthened the power of the clergy; for, as Charlevoix says with great frankness, ‘pestilences are the harvests of the ministers of God.’ Southey's History of Brazil, vol. ii. p. 254.

244

For evidence of the extra-European origin of European diseases, some of which, such as the small-pox, have passed from epidemics into endemics, compare Encyclop. of the Medical Sciences, 4to, 1847, p. 728; Transactions of Asiatic Society, vol. ii. pp. 54, 55; Michaelis on the Laws of Moses, vol. iii. p. 313; Sprengel, Histoire de la Médecine, vol. ii. pp. 33, 195; Wallace's Dissertation on the Numbers of Mankind, pp. 81, 82; Huetiana, Amst. 1723, pp. 132–135; Sanders on the Small Pox, Edinb. 1813, pp. 3–4; Wilks's Hist. of the South of India, vol. iii. pp. 16–21; Clot-Bey de la Peste, Paris, 1840, p. 227.

245

‘So verwandelt das geistige Leben des Hindu sich in wahre Poesie, und das bezeichnende Merkmal seiner ganzen Bildung ist: Herrschaft der Einbildungskraft über den Verstand; im geraden Gegensatz mit der Bildung des Europäers, deren allgemeiner Charakter in der Herrschaft des Verstandes über die Einbildungskraft besteht. Es wird dadurch begreiflich, dass die Literatur der Hindus nur eine poetische ist; dass sie überreich an Dichterwerken, aber arm am wissenschaftlichen Schriften sind; dass ihre heiligen Schriften, ihre Gesetze und Sagen poetisch, und grösstentheils in Versen geschrieben sind; ja dass Lehrbücher der Grammatik, der Heilkunde, der Mathematik und Erdbeschreibung in Versen verfasst sind.’ Rhode, Religiöse Bildung der Hindus, vol. ii. p. 626. Thus, too, we are told respecting one of their most celebrated metaphysical systems, that ‘the best text of the Sanchya is a short treatise in verse.’ Colebrooke on the Philosophy of the Hindus, in Transactions of Asiatic Society, vol. i. p. 23. And in another place the same high authority says (Asiatic Researches, vol. x. p. 439), ‘the metrical treatises on law and other sciences are almost entirely composed in this easy verse.’ M. Klaproth, in an analysis of a Sanscrit history of Cashmere, says, ‘comme presque toutes les compositions hindoues, il est écrit en vers.’ Journal Asiatique, I. série, vol. vii. p. 8, Paris, 1825. See also, in vol. vi. pp. 175, 176, the remarks of M. Burnouf: ‘Les philosophes indiens, comme s'ils ne pouvaient échapper aux influences poétiques de leur climat, traitent les questions de la métaphysique le plus abstraite par similitudes et métaphores.’ Compare vol. vi. p. 4, ‘le génie indien si poétique et si religieux;’ and see Cousin, Hist. de la Philosophie, II. série, vol. i. p. 27.

246

Mr. Yates says of the Hindus, that no other people have ever ‘presented an equal variety of poetic compositions. The various metres of Greece and Rome have filled Europe with astonishment; but what are these, compared with the extensive range of Sanscrit metres under its three classes of poetical writing?’ Yates on Sanscrit Alliteration, in Asiatic Researches, vol. xx. p. 159, Calcutta, 1836. See also on the Sanscrit metres, p. 321, and an Essay by Colebrooke, vol. x. pp. 389–474. On the metrical system of the Vedas, see Mr. Wilson's note in the Rig Veda Sanhita, vol. ii. p. 135.

247

In Europe, as we shall see in the sixth chapter of this volume; the credulity was at one time extraordinary; but the age was then barbarous, and barbarism is always credulous. On the other hand, the examples gathered from Indian literature will be taken from the works of a lettered people, written in a language extremely rich, and so highly polished, that some competent judges have declared it equal, if not superior, to the Greek.

248

‘The limit of life was vol. xvi. p. 456, Calcutta, 1828. 80,000 years.’ Asiatic Researches. This was likewise the estimate of the Tibetan divines, according to whom men formerly ‘parvenaient à l'âge de 80,000 ans.’ Journal Asiatique, I. série, vol. iii. p. 199, Paris, 1823.

249

‘Den Hindu macht dieser Widerspruch nicht verlegen, da er seine Heiligen 100,000 Jahre und länger leben lässt.’ Rhode, Relig. Bildung der Hindus, vol. i. p. 175.

250

In the Dabistan, vol. ii. p. 47, it is stated of the earliest inhabitants of the world, that ‘the duration of human life in this age extended to one hundred thousand common years.’

251

Wilford (Asiatic Researches, vol. v. p. 242) says, ‘When the Puranics speak of the kings of ancient times, they are equally extravagant. According to them, King Yudhishthir reigned seven-and-twenty thousand years.’

252

‘For sixty thousand and sixty hundred years no other youthful monarch except Alarka reigned over the earth.’ Vishnu Purana, p. 408.

253

And sometimes more. In the Essay on Indian Chronology in Works of Sir W. Jones, vol. i. p. 325, we hear of ‘a conversation between Valmic and Vyasa, … two bards whose ages were separated by a period of 864,000 years.’ This passage is also in Asiatic Researches, vol. ii. p. 399.

254

‘He was the first king, first anchoret, and first saint; and is therefore entitled Prathama-Raja, Prathama Bhicshacara, Prathama Jina, and Prathama Tirthancara. At the time of his inauguration as king, his age was 2,000,000 years. He reigned 6,300,000 years, and then resigned his empire to his sons: and having employed 100,000 years in passing through the several stages of austerity and sanctity, departed from this world on the summit of a mountain named Ashtapada.’ Asiatic Researches, vol. ix. p. 305.

255

‘Speculationen über Zahlen sind dem Inder so geläufig, dass selbst die Sprache einen Ausdruck hat für eine Unität mit 63 Nullen, nämlich Asanke, eben weil die Berechnung der Weltperioden diese enorme Grössen nothwendig machte, denn jene einfachen 12,000 Jahre schienen einem Volke, welches so gerne die höchstmögliche Potenz auf seine Gottheit übertragen mögte, viel zu geringe zu seyn.’ Bohlen, das alte Indien, vol. ii. p. 298.

256

Elphinstone's History of India, p. 136, ‘a period exceeding 4,320,000 multiplied by six times seventy-one.’

257

Symes (Embassy to Ava, vol. iii. p. 278) says: ‘From the mouth of the Ganges to Cape Comorin, the whole range of our continental territory, there is not a single harbour capable of affording shelter to a vessel of 500 tons burden.’ Indeed, according to Percival, there is with the exception of Bombay, no harbour, ‘either on the Coromandel or Malabar coasts, in which ships can moor in safety at all seasons of the year.’ Percival's Account of Ceylon, pp. 2, 15, 66.

258

‘Altogether its area is somewhat less than that of Portugal.’ Grote's History of Greece, vol. ii. p. 302; and the same remark in Thirlwall's History of Greece, vol. i. p. 2, and in Heeren's Ancient Greece, 1845, p. 16. M. Heeren says, ‘But even if we add all the islands, its square contents are a third less than those of Portugal.’

259

The area of Hindostan being, according to Mr. M'Culloch (Geog. Dict. 1849, vol. i. p. 993), ‘between 1,200,000 and 1,300,000 square miles.’

260

In the best days of Greece, those alarming epidemics, by which the country was subsequently ravaged, were comparatively little known: see Thirlwall's History of Greece, vol. iii. p. 134, vol. viii. p. 471. This may be owing to large cosmical causes, or to the simple fact, that the different forms of pestilence had not yet been imported from the East by actual contact. On the vague accounts we possess of the earlier plagues, see Clot-Bey de la Peste, Paris, 1840. pp. 21, 46, 184. The relation even of Thucydides is more satisfactory to scholars than to pathologists.

261

‘Mount Guino, the highest point in Greece, and near its northern boundary, is 8,239 feet high… No mountain in Greece reaches the limit of perpetual snow.’ M'Culloch's Geog. Dict. 1849, vol. i. p. 924. Compare the table of mountains in Baker's Memoir on North Greece, in Journal of Geographical Society, vol. vii. p. 94, with Bakewell's Geology, pp. 621, 622.

262

‘Greece has no navigable river.’ M'Culloch's Geog. Dict. vol. i. p. 924. ‘Most of the rivers of Greece are torrents in early spring, and dry before the end of the summer.’ Grote's History of Greece, vol. ii. p. 286.

263

See Stevenson on The Anti-Brahmanical Religion of the Hindus, in Journal of Asiatic Society, vol. viii. pp. 331, 332, 336, 338. Mr. Wilson (Journal, vol. iii. p. 204) says, ‘The prevailing form of the Hindu religion in the south of the peninsula was, at the commencement of the Christian era, and some time before it most probably, that of Siva.’ See also vol. v. p. 85, where it is stated that Siva ‘is the only Hindu god to whom honour is done at Ellora.’ Compare Transac. of Soc. of Bombay, vol. iii. p. 521; Heeren's Asiatic Nations, 1846, vol. ii. pp. 62, 66. On the philosophical relations between the followers of Siva and those of Vishnu, see Ritter's Hist. of Ancient Philosophy, vol. iv. pp. 334, 335; and the noticeable fact (Buchanan's Mysore, vol. ii. p. 410), that even the Naimar caste, whose ‘proper deity’ is Vishnu, ‘wear on their foreheads the mark of Siva.’ As to the worship of Siva in the time of Alexander the Great, see Thirlwall's History of Greece, vol. vii. p. 36; and for further evidence of its extent, Bohlen, das alte Indien, vol. i. pp. 29, 147, 206, and Transac. of Asiatic Society, vol. ii. pp. 50, 294.

264

So it is generally stated by the Hindu theologians; but, according to Rammohun Roy, Siva had two wives. See Rammohun Roy on the Veds, p. 90.

265

On these attributes and representations of Siva and Doorga, see Rhode, Religiöse Bildung der Hindus, vol. ii. p. 241; Coleman's Mythology of the Hindus, pp. 63, 92; Bohlen, das alte Indien, vol. i. p. 207; Ward's Religion of the Hindoos, vol. i. pp. xxxvii. 27, 145; Transac. of Society of Bombay, vol. i. pp. 215, 221. Compare the curious account of an image supposed to represent Mahadeo, in Journal Asiatique, I. série, vol. i. p. 354, Paris, 1822.

266

Ward on the Religion of the Hindoos, vol. i. p. 35; Transac. of Society of Bombay, vol. i. p. 223. Compare the gloss in the Dabistan, vol. ii. p. 202.

267

‘The Greek gods were formed like men, with greatly increased powers and faculties, and acted as men would do if so circumstanced, but with a dignity and energy suited to their nearer approach to perfection. The Hindu gods, on the other hand, though endued with human passions, have always something monstrous in their appearance, and wild and capricious in their conduct. They are of various colours, red, yellow, and blue; some have twelve heads, and most have four hands. They are often enraged without a cause, and reconciled without a motive.’ Elphinstone's History of India, pp. 96, 97. See also Erskine on the Temple of Elephanta, in Transac. of Society of Bombay, vol. i. p. 246; and the Dabistan, vol. i. p. cxi.

268

‘In the material polytheism of other leading ancient nations, the Egyptians, for example, the incarnation of the Deity was chiefly, or exclusively, confined to animals, monsters, or other fanciful emblems… In Greece, on the other hand, it was an almost necessary result of the spirit and grace with which the deities were embodied in human forms, that they should also be burdened with human interests and passions. Heaven, like earth, had its courts and palaces, its trades and professions, its marriages, intrigues, divorces.’ Mure's History of the Literature of Ancient Greece, vol. i. pp. 471, 472. So, too, Tennemann (Geschichte der Philosophie, vol. iii. p. 419): ‘Diese Götter haben Menschengestalt… Haben die Götter aber nicht nur menschliche Gestalt, sondern auch einen menschlichen Körper, so sind sie als Menschen auch denselben Unvollkommenheiten, Krankheiten und dem Tode unterworfen; dieses streitet mit dem Begriffe,’ i. e. of Epicurus. Compare Grote's History of Greece, vol. i. p. 596: ‘The mythical age was peopled with a mingled aggregate of gods, heroes, and men, so confounded together, that it was often impossible to distinguish to which class any individual name belonged.’ See also the complaint of Xenophanes, in Müller's Hist. of Lit. of Greece, London, 1856, p. 251.

269

The same remark applies to beauty of form, which they first aimed at in the statues of men, and then brought to bear upon the statues of the gods. This is well put in Mr. Grote's important work, History of Greece, vol. iv. pp. 133, 134, edit. 1847.

270

‘But the worship of deified heroes is no part of that system.’ Colebrooke on the Vedas, in Asiatic Researches, vol. viii. p. 495.

271

Mackay's Religious Development, vol. ii. p. 53, Lond. 1850. Compare Wilkinson's Ancient Egyptians, vol. iv. pp. 148, 318; and Matter, Histoire de l'Ecole d'Alexandrie, vol. i. p. 2; the ‘culte des grands hommes,’ which afterwards arose in Alexandria (Matter, vol. i. p. 54), must have been owing to Greek influence.

272

There are no indications of it in the Zendavesta; and Herodotus says, that the Persians were unlike the Greeks, in so far as they disbelieved in a god having a human form; book i. chap. cxxxi. vol. i. p. 308: οὐκ ἀνθρωποφυέας ἐνόμισαν τοὺς θεοὺς, κατάπερ Ἔλληνες εῖναι.

273

I am not acquainted with any evidence connecting this worship with the old Arabian religion; and it was certainly most alien to the spirit of Mohammedanism.

274

Mure's History of the Literature of Greece, vol. i. pp. 28, 500, vol. ii. p. 402: very good remarks on a subject handled unsatisfactorily by Coleridge; Literary Remains, vol. i. p. 185. Thirlwall (History of Greece, vol. i. p. 207) admits that ‘the views and feelings out of which it (the worship of heroes) arose, seem to be clearly discernible in the Homeric poems.’ Compare Cudworth's Intellectual System, vol. ii. pp. 226, 372. In the Cratylus, chap. xxxiii., Socrates is represented as asking, Οὐκ οἶσθα ὅτι ἡμίθεοι ἥρωες; Platonis Opera, vol. iv. p. 227, edit. Bekker, Lond. 1826. And in the next century, Alexander obtained for his friend, Hephæstion, the right of being ‘worshipped as a hero’ Grote's History of Greece, vol. xii. p. 339.

275

The adoration of the dead, and particularly the adoration of martyrs, was one great point of opposition between the orthodox church and the Manichæans (Beausobre, Histoire Critique de Manichée, vol. i. p. 316, vol. ii. pp. 651, 669); and it is easy to understand how abhorrent such a practice must have been to the Persian heretics.

276

M. Cousin, in his eloquent and ingenious work (Histoire de la Philosophie, 3e série, vol. i. pp. 183, 187), has some judicious observations on what he calls ‘l'époque de l'infini’ of the East, contrasted with that ‘du fini,’ which began in Europe. But as to the physical causes of this, he only admits the grandeur of nature, overlooking those natural elements of mystery and of danger by which religious sentiments were constantly excited.

277

A learned orientalist says, that no people have made such efforts as the Hindus ‘to solve, exhaust, comprehend, what is insolvable, inexhaustible, incomprehensible.’ Troyer's Preliminary Discourse on the Dabistan, vol. i. p. cviii.

278

This is noticed by Tennemann, who, however, has not attempted to ascertain the cause: ‘Die Einbildungskraft des Griechen war schöpferisch, sie schuf in seinem Innern neue Ideenwelten; aber er wurde doch nie verleitet, die idealische Welt mit der wirklichen zu verwechseln, weil sie immer mit einem richtigen Verstande und gesunder Beurtheilungskraft verbunden war.’ Geschichte der Philosophie, vol. i. p. 8; and vol. vi. p. 490, he says, ‘Bei allen diesen Mängeln und Fehlern sind doch die Griechen die einzige Nation der alten Welt, welche Sinn für Wissenschaft hatte, und zu diesem Behufe forschte. Sie haben doch die Bahn gebrochen, und den Weg zur Wissenschaft geebnet.’ To the same effect, Sprengel, Histoire de la Médecine, vol. i. p. 215. And on this difference between the Eastern and the European mind, see Matter, Histoire du Gnosticisme, vol. i. pp. 18, 233, 234. So, too, Kant (Logik, in Kant's Werke, vol. i. p. 350), ‘Unter allen Völkern haben also die Griechen erst angefangen zu philosophiren. Denn sie haben zuerst versucht, nicht an dem Leitfaden der Bilder die Vernunfterkenntnisse zu cultiviren, sondern in abstracto; statt dass die anderen Völker sich die Begriffe immer nur durch Bilder in concreto verständlich zu machen suchten.’

279

Thus, of one of the idols at Copan, ‘The intention of the sculptor seems to have been to excite terror.’ Stephens's Central America, vol. i. p. 152; at p. 159, ‘The form of sculpture most generally used was a death's head.’ At Mayapan (vol. iii. p. 133), ‘representations of human figures or animals with hideous features and expressions, in producing which the skill of the artist seems to have been expended;’ and again, p. 412, ‘unnatural and grotesque faces.’

280

The most constant gland in the animal kingdom is the liver.’ Grant's Comp. Anat. p. 576. See also Béclard, Anat. Gén. p. 18, and Burdach, Traité de Physiol. vol. ix. p. 580. Burdach says, ‘Il existe dans presque tout le règne animal;’ and the latest researches have detected the rudiments of a liver even in the Entozoa and Rotifera. Rymer Jones's Animal Kingdom, 1855, p. 183, and Owen's Invertebrata, 1855, p. 104.

281

Until the analysis made by Demarçay in 1837, hardly any thing was known of the composition of bile; but this accomplished chemist ascertained that its essential constituent is choleate of soda, and that the choleic acid contains nearly sixty-three per cent. of carbon. Compare Thomson's Animal Chemistry, pp. 59, 60, 412, 602, with Simon's Chemistry, vol. ii. pp. 17–21.

282

‘The size of the liver and the quantity of the bile are not proportionate to the quantity of the food and frequency of eating; but inversely to the size and perfection of the lungs… The liver is proportionately larger in reptiles, which have lungs with large cells incapable of rapidly decarbonizing the blood.’ Good's Study of Medicine, 1829, vol. i. pp. 32, 33. See Cuvier, Règne Animal, vol. ii. p. 2, on ‘la petitesse des vaisseaux pulmonaires’ of reptiles.

283

Carus's Comparative Anatomy, vol. ii. p. 230; Grant's Comp. Anat. pp. 385, 596; Rymer Jones's Animal Kingdom, p. 646.

284

Indeed it has been supposed by M. Gaëde that the ‘vaisseaux biliares’ of some insects were not ‘sécréteurs;’ but this opinion appears to be erroneous. See Latreille, in Cuvier, Règne Animal, vol. iv. pp. 297, 298.

285

‘La prédominance du foie avant la naissance’ is noticed by Bichat (Anatomie Générale, vol. ii. p. 272), and by many other physiologists; but Dr. Elliotson appears to have been one of the first to understand a fact, the explanation of which we might vainly seek for in the earlier writers. ‘The hypothesis, that one great use of the liver was, like that of the lungs, to remove carbon from the system, with this difference, that the alteration of the capacity of the air caused a reception of caloric into the blood, in the case of the lungs, while the hepatic excretion takes place without introduction of caloric, was, I recollect, a great favourite with me when a student… The Heidelberg professors have adduced many arguments to the same effect. In the fœtus, for whose temperature the mother's heat must be sufficient, the lungs perform no function; but the liver is of great size, and bile is secreted abundantly, so that the meconium accumulates considerably during the latter months of pregnancy.’ Elliotson's Human Physiology, 1840, p. 102. In Lepelletier's Physiologie Médicale, vol. i. p. 466, vol. ii. pp. 14, 546, 550, all this is sadly confused.

286

‘The liver is the first-formed organ in the embryo. It is developed from the alimentary canal, and at about the third week fills the whole abdomen, and is one-half the weight of the entire embryo… At birth it is of very large size, and occupies the whole upper part of the abdomen… The liver diminishes rapidly after birth, probably from obliteration of the umbilical vein.’ Wilson's Human Anatomy, 1851, p. 638. Compare Burdach's Physiologie, vol. iv. p. 447, where it is said of the liver in childhood, ‘Cet organe croît avec lenteur, surtout comparativement aux poumons; le rapport de ceux-ci au foie étant à peu près de 1:3 avant la respiration, il était de 1:1.86 après l'établissement de cette dernière fonction.’ See also p. 91, and vol. iii. p. 483; and on the predominance of the liver in fœtal life, see the remarks of Serres (Geoffroy Saint-Hilaire, Anomalies de l'Organisation, vol. ii. p. 11), whose generalization is perhaps a little premature.