Chapter II.
THE SYSTEMATISERS OF PHYSICAL ANTHROPOLOGY
Hitherto we have been dealing with the great pioneers in Anthropology, those who laid the foundations, brought order out of chaos, and suggested the outlines of future work. Henceforward Anthropology may claim the name of a science, and the work developed on definite lines. It will be more convenient to treat these separately, abandoning a strict chronological method.
The first branch to attract workers was Somatology, the physical aspect of man, of which we have already noted the inception: not until the nineteenth century can Archæology, or Prehistoric Anthropology, be said to have developed into a science; while the scientific study of Ethnology, or Cultural Anthropology, is barely half a century old.
Craniology.
Norma Verticalis of Blumenbach.
Somatology had already been foreshadowed by Vesalius, Spigel, and Linnæus; but Blumenbach was the first to strike its keynote by recording the shape of the skull and of the face. He was the fortunate possessor of a large number of skulls—large, that is, for his time, and he published a description of them (1790-1820), Decas collectionis suae craniorum diversarum gentium illustrata, with 70 plates. He noted particularly the norma verticalis—i.e., the shape of the skull as seen from above, distinguishing by its means three types—the square shape of the Mongols, the narrow or “pressed in from the sides” shape of the Negroes, and the intermediate form which he recognised in the “Caucasians.” He was the first to popularise craniology, and “it became the fashion to visit the Blumenbachian Museum, to have the differences which distinguish the different cranial types pointed out, and to indulge in sentimental rhapsodies upon the beauty and symmetry of the young female Georgian skull, which was considered to represent the highest type of all.”[[19]] But Blumenbach does not seem to have taken advantage of his own discoveries. In choosing the norma verticalis as a racial criterion he made a valuable contribution to science, but he did not reproduce his normæ in his plates, nor did he base his classification on them. Indeed, his typical Caucasian skull is really squarer than his typical Mongolian.
[19]. Cunningham, p. 26.
Upper and Side Views of Skulls of Men
belonging to the Neolithic and Bronze Age Races; photographed by the Author from specimens in the Cambridge Anatomical Museum.
A, Long Barrow, Dinnington, Rotherham. Length, 204 mm.; breadth, 143 mm.; cranial index, 70. 1.
B, Winterbourne Stoke. Length, 177 mm.; breadth, 156 mm.; cranial index, 88. 1.
Facial Angle of Camper.
Peter Camper (1722-1789) had already been studying head-form, though from a totally different standpoint, and his deductions were not published until after his death.
His contributions to Anthropology were an essay on the Physical Education of the Child, a lecture on The Origin and Colour of the Negro, and a treatise on The Orang-outang and some other species of Apes; but only his work on the facial angle has attained permanent fame. His early inclinations were towards art, and he was carefully trained in drawing, painting, and architecture; and it was in the interests of Art, not of Anthropology, that the researches which resulted in his determination of the facial angle came to be undertaken. This he describes in his preface to his lectures:—
At the age of eighteen, my instructor, Charles Moor the younger, to whose attention and care I am indebted for any subsequent progress I may have made in this art, set me to paint one of the beautiful pieces of Van Tempel, in which there was the figure of a negro, that by no means pleased me. In his colour he was a negro, but his features were those of a European. As I could neither please myself nor gain any proper directions, I desisted from the undertaking. By critically examining the prints taken from Guido Reni, C. Marat, Seb. Ricci, and P. P. Rubens, I observed that they, in painting the countenances of the Eastern Magi, had, like Van Tempel, painted black men, but they were not Negroes.
To obtain the necessary facial effects distinguishing the Negro from the European, Camper devised his system of measurements. He drew a line from the aperture of the ear to the base of the nose, and another from the line of the junction of the lips (or, in the case of a skull, from the front of the incisor teeth) to the most prominent part of the forehead. “If,” he said, “the projecting part of the forehead be made to exceed the 100th degree, the head becomes mis-shapen and assumes the appearance of hydrocephalus or watery head. It is very surprising that the artists of Ancient Greece should have chosen precisely the maximum, while the best Roman artists have limited themselves to the 95th degree, which is not so pleasing. The angle which the facial or characteristic line of the face makes,” he continued, “varies from 70 to 80 degrees in the human species. All above is resolved by the rules of art; all below bears resemblance to that of apes. If I make the facial line lean forward, I have an antique head; if backward, the head of a Negro. If I still more incline it, I have the head of an ape; and if more still, that of a dog, and then that of an idiot.”
Camper’s facial angle may be of service to Art, but since the points from which the lines are drawn are all variable, owing to the disturbing influence of other factors, such as an increased length of face or an unusually prominent brow-ridge, it cannot form an accurate measurement for Anthropology. It was severely criticised by Blumenbach, Lawrence, and Prichard, but adopted in France, and by Morton in America.
Dr. J. Aitken Meigs[[20]] pointed out that as early as 1553 the measurement of the head appears to have exercised the ingenuity of Albert Dürer, who, in his De Symmetriâ Partium in Rectis Formis Humanorum Corporum, has given such measurements in almost every view. These, however, are more artistic in their tendency and scope than scientific. A glance at some of the outline drawings of Dürer shows incontestably that the facial line and angle were not wholly unknown to him, and that Camper has rather elaborated than invented this method of cranial measurement. The artist even seems to have entertained more philosophical views of cephalometry, or head measurement, than the professor.
[20]. North American Med.-Chir. Rev., 1861, p. 840.
Various Early Craniologists.
The evolution of craniometrical measurements is of interest to the physical anthropologist, but even a brief recital of this progress would weary the non-specialist. A history of Anthropology would, however, not be complete if it ignored the general trend of such investigations.
Some of the early workers, such as Daubenton (1716-99) and Mulder, Walther, Barclay, and Serres in the first half of the nineteenth century, attempted to express the relation between the brain-case and the face by some simple measurement or method of comparison in their endeavour to formulate not only the differences between the races of mankind, but also those which obtain between men and the lower animals.
Others during the same period investigated the relations and proportions of portions of the skull to the whole by means of lines. Spix (1815) adopted five lines. Herder employed a series of lines radiating from the atlas (the uppermost bone of the vertebral column); but, more generally, the meatus auditorius (ear-hole) was the starting-point (Doornik, 1815).
The internal capacity of the skull first received attention from Tiedemann (1836), who determined it by filling the skull with millet seed and then ascertaining the weight of the seed. Morton first used white pepper seed, which he discarded later for No. 8 shot, while Volkoff employed water. Modifications in the use of these three media—seeds, shot, and water—are still employed by craniologists.
The most noteworthy names among the earlier workers in craniology are those of Retzius and Grattan. Anders Retzius (1796-1860) correlated the schemes of Blumenbach and Camper, and so arrived at the methods of craniological measurements which are almost universally in use at the present day.
Cephalic Index of Retzius.
In 1840 he introduced his theory regarding cranial shapes to the Academy of Science at Stockholm, and two years later gave a course of lectures on the same subject. He criticised the results attained by Blumenbach, showing that his group contains varying types of skull form; and he invented the cephalic index, or length-breadth index—i.e., the ratio of the breadth of a skull to its length, expressed as a per-centage. The narrower skulls he termed dolichocephalic, the broader ones brachycephalic. By this method Retzius designed rather to arrange the forms of crania than to classify thereby the races of mankind, though he tried to group the European peoples more or less according to their head-form. While thus elaborating the suggestion of Blumenbach, he also recorded the degree of the projection of the jaws, demonstrated by Camper, and he added the measurements of the face, height, and jugular breadth. Thus was Craniology established on its present lines.
Grattan.
John Grattan (1800-1871), the Belfast apothecary, has never received the recognition that was his due. Having undertaken to describe the numerous ancient Irish skulls collected by his friend Edmund Getty, he soon became impressed by the absence of
that uniformity of method and that numerical precision without which no scientific investigation requiring the co-operation of numerous observers can be successfully prosecuted. The mode of procedure hitherto adopted furnishes to the mind nothing but vague generalities ... until we can record with something approaching towards accuracy the proportional development of the great subdivisions of the brain, as indicated by its bony covering, and by our figures convey to the mind determinate ideas of the relation they bear towards each other, we shall not be in a position to do justice to our materials.... No single cranium can per se be taken to represent the true average characteristics of the variety from which it may be derived. It is only from a large deduction that the ethnologist can venture to pronounce with confidence upon the normal type of any race.[[21]]
[21]. J. Grattan, Ulster Journal of Arch., 1858.
Grattan devised a series of radial measurements from the meatus auditorius, and constructed an ingenious craniometer. As Professor J. Symington points out, “Grattan’s work was almost cotemporaneous with that of Anders Retzius, and nearly all of it was done before the German and French Schools had elaborated their schemes of skull measurements.”[[22]] He adopted the most useful of the measurements then existing, and added new ones of his own devising.
[22]. Proc. Belfast Nat. Hist. and Phil. Soc., 1903-4; and Journ. Anat. and Phys.
The distinguished American physician and physiologist Dr. J. Aitken Meigs laid down the principles that “Cranial measurements to be of practical use should be both absolute and relative. Absolute measurements are necessary to demonstrate those anatomical differences between the crania of different races which assume a great zoological significance in proportion to their constancy. By relative measurements of the head we obtain an approximate idea of the peculiar physiological character of the enclosed brain ... the craniographer, in fact, becomes the cranioscopist” (1861, p. 857). In this paper Meigs gives craniometrical directions, some of which were designed to give measurements for portions of the brain.
Broca.
In France the greatest names are those of Broca, Topinard, and de Quatrefages. Pierre Paul Broca (1824-1880) was first destined for the army, but when the death of his sister left him the only child he was unwilling to leave his parents, and resolved to study medicine and share the work of his father, an eminent physician. He soon distinguished himself, especially in surgery, not only in practical work, but also in his writings. With regard to the latter, Dr. Pozzi, in a memoir, says of him: “There is hardly one of the subjects in which he did not at the first stroke make a discovery, great or small; there is not one on which he has not left the mark of his originality.”[[23]]
[23]. J.A.I., x., 1881, p. 243.
Paul Broca.
In 1847 he was appointed to serve on a Commission to report on some excavations in the cemetery of the Celestins, and this led him to study craniology, and thence to ethnology, in which his interest, once aroused, never flagged. The story of the formation of the Société d’anthropologie de Paris (1859) and of l’École d’anthropologie (1876), of both of which Broca was the moving spirit, affords a curious commentary on the suspicion in which Anthropology was held. To the success of the School he devoted all his energies, and during many years of anxiety he met and overcame all obstacles, surmounted all difficulties, wore down all opposition, and finally placed it in a secure position. He invented several instruments for the more accurate study of craniology, such as the occipital crochet, goniometer, and stereograph, and also standardised methods; but, dissatisfied with the inconclusiveness of mere cranial comparisons, he turned towards the end of his life to the study of the brain. He was an indefatigable worker, and his sudden death in his fifty-sixth year is attributed to cerebral exhaustion.
“Broca was a man,” said Dr. Beddoe, “who positively radiated science and the love of science; no one could associate with him without catching a portion of the sacred flame. Topinard has been the Elisha of this Elijah.”[[24]]
[24]. Anniversary Address, Anth. Inst., 1891.
Topinard.
Paul Topinard, pupil, colleague, and friend of Broca, made valuable investigations on the living population of France, besides devoting much time to anthropometrical studies; but his greatest service has been the preparation and publication of l’Anthropologie (1876), a guide for students and a manual of reference for travellers and others, voicing the idea of Broca and his school, and “elucidating in a single volume a series of vast dimensions, in process of rapid development.” In 1885 he published his classic Eléments d’anthropologie générale,[[25]] which aimed at creating a new atmosphere for the science, breaking free from the traditions of the monogenists and polygenists, and incorporating the new ideas spread by Darwin and Haeckel.
[25]. General Anthropology, according to Topinard’s classification, is concerned merely with man as an animal, and deals with anatomy and physiology, pathology, and psychology.
De Quatrefages.
Armand de Quatrefages de Bréau (1810-92) was not only a distinguished zoologist, occupying himself mainly with certain groups of marine animals, but also Professor of Anthropology at the Paris Museum of Natural History, and undertook several voyages along the coasts of the Mediterranean and the Atlantic in search of information. In 1867 he published Rapport sur le progrès de l’Anthropologie, “which reduces to a complete and intelligible system the abstruse and difficult, and, to many, the incomprehensible science of anthropology, embracing during his investigations a wide range of topics, and arranging disjointed facts in due order, so as at once to evince their bearing upon the subject.”[[26]] He published many other works, among them Les Pygmées (1887), L’espèce humaine (1877), Histoire générale des races humaines (1889), and, together with E. T. Hamy, the famous Crania ethnica (1875-79). Professor F. Starr, in the preface to his translation of The Pygmies (1895), says:—
[26]. Anth. Rev., 1869, p. 231.
A man of strong convictions and very conservative, de Quatrefages was ever ready to hear the other side, and ever candid and kindly in argument. He was one of the first to support the Society of Anthropology. Those who know the story of the early days of that great association understand what that means. When the claim for man’s antiquity was generally derided, de Quatrefages championed the cause. A monogenist [p. [53]], a believer in the extreme antiquity of our race, he was never won over by any of the proposed theories of evolution.... To the very end of a long life our author lived happily and busily active among his books and specimens.
Virchow.
In Germany the greatest name is that of Virchow. Rudolf Ludwig Karl Virchow (1821-1902) had already gained fame in the medical world, especially with regard to histology, pathology, and the study of epidemics, and was the prime leader in the “Medizinische Reform” movement before he began his valuable contributions to the science of Anthropology.
His first anthropological writings were some papers on cretinism (1851 and 1852), and from this date onwards his services to the science can scarcely be over-estimated. Much of his energy was also given to somatic anthropology, and in 1866 he started his investigations into prehistoric archæology, combining scientific method with spade-work.
In a notice of his work by Oscar Israel[[27]] (p. 656) we read:—
[27]. Smithsonian Report, 1902. Translated from the Deutsche Rundschau of Dec., 1902.
Virchow devoted himself to ethnographic studies no less than to other branches of anthropology, and here he became a center to which the material streamed from all sides, and from which went forth suggestion, criticism, and energetic assistance. This never-idle man did not disdain to teach travelers schooled in other lines of investigation the anthropometric methods; and, indeed, he found time for everything, and never left a piece of work to others that he could possibly do himself. Thus, for example, for ten years following its inception by him in 1876, he worked up alone the data recorded in German schools as to the color of the eyes, the hair, and the skin which has proved of such value for the knowledge of the different branches of the German race.
Sergi.
Professor Sergi at one time proposed to banish measurements from craniology, and to rely solely on observational methods. He has later modified his extreme position, while, as a result of his crusade, he has induced most anthropologists to pay more attention to the configuration of the skull, and some of his descriptive terms have come into common use.
Hagen’s Criticism of Craniometry.
Dr. Hagen relates the extreme specialisation into which craniologists were led:—
A rage for skull measurements, vast, vigorous, and heedless, set in on all sides, especially after Lucae had discovered and perfected a method of accurately representing the irregular form of the object studied. “More skulls” was henceforth the war-cry; the trunk, extremities, soft tissues, skin and hair, might all go by the board, being counted of no scientific value whatever. Anthropologists, or those who aspired to the title, measured and delineated skulls; museums became veritable cities of skulls, and the reputation of a scientific traveller almost stood or fell with the number of crania which he brought back with him.
After two decades of measuring and collecting ever greater quantities of material from foreign lands, and from the so-called primitive or aboriginal races, the inadequacy of Retzius’s method became apparent. Far too many intermediate forms were met with, which it was found absolutely impossible to classify by its means. In accordance with the suggestion of the French anthropologist Broca, and of Welcker, Professor of Anatomy at Halle, a third type, the so-called Mesocephalic form, was interposed between the two forms recognised by Retzius. Even this did not suffice, however. In the face of the infinite variety of form of the crania now massed together, a variety only comparable to that of leaves in a forest, this primitively simple scheme, with its four and finally six types, failed through lack of elasticity. Then began complication extending ever further and further. Attention was no longer confined to the length and breadth, but also to the height of the cranium, high and low (or flat) skulls—i.e., hypsicephalic and chamaecephalic varieties being recognised. The facial part of the skull was examined not only from the side, with a view to recording the straightness or obliquity of the profile, but also from the front; and there were thus distinguished long, medium, and short faces, and also broad and narrow facial types. The nasal skeleton, the palate, the orbit, the teeth, and the mandible were investigated in turn, and at last all the individual bones of the cranium and face, their irregularities of outline, and their relations to one another, were subjected to the closest examination and most subtle measurements, with instruments of extreme delicacy of construction and ingenuity of design, till, finally, the trifling number of five thousand measurements for every skull found an advocate in the person of the Hungarian Professor V. Török (whereby the wealth of detail obscured the main objects of study); while, on the other hand, observers deviated into scientific jugglery, like that of the Italian Professor Sergi, who contrived to recognise within the limits of a single small archipelago, the D’Entrecasteaux group of islets near New Guinea, as many as eleven cranial varieties, which were all distinguished by high-sounding descriptive names, such as Lophocephalus brachyclitometopus, etc.
Macalister’s Criticism of Craniometry.
The misuse of Craniometry is also described by Professor Alexander Macalister[[28]]:—
[28]. Presidential Address to Section H., Brit. Ass., 1892.
Despite all the labour that has been bestowed on the subject, craniometric literature is at present as unsatisfactory as it is dull. Hitherto observations have been concentrated on cranial measurements as methods for the discrimination of the skulls of different races. Scores of lines, arcs, chords, and indexes have been devised for this purpose, and the diagnosis of skulls has been attempted by a process as mechanical as that whereby we identify certain issues of postage-stamps by counting the nicks in the margin. But there is underlying all these no unifying hypothesis; so that when we, in our sesquipedalian jargon, describe an Australian skull as microcephalic, phænozygous, tapeino-dolichocephalic, prognathic, platyrhine, hypselopalatine, leptostaphyline, dolichuranic, chamaeprosopic, and microseme, we are no nearer to the formulation of any philosophic concept of the general principles which have led to the assumption of these characters by the cranium in question, and we are forced to echo the apostrophe of Von Török, “Vanity, thy name is Craniology.”
It is significant that so many of the earlier craniologists recognised that the really important problem before them was to gain a knowledge of the size and relative proportions of the various regions of the brain, this being a direct result of the phrenological studies then so much in vogue. When phrenology became discredited, this aspect of craniometry was largely neglected; but recently it has exhibited signs of a healthy revival, and the inner surface of the cranium is now regarded as more instructive than the outer.
Though for a time craniology was hailed as the magic formula by which alone all ethnological tangles could be unravelled, measurements of other parts of the body were not ignored by those who recognised that no one measurement was sufficient to determine racial affinities.
Anthropometry.
Thus Anthropometry began to map out definite lines of research, and detailed studies were made of arms and legs, hands and feet, curves and angles, brains and viscera; while, shorn of its extravagant claims, craniology took its legitimate place as one in a series of bodily measurements. One of the earliest workers in measurements other than that of the skull was Charles White (1728-1813).
His contribution to Somatology was a series of measurements on arms; and he discovered that the fore-arm of the Negro is longer, in comparison with his upper-arm, than that of the European, and that that of the Ape is relatively longer than that of the Negro. On account of these measurements on the living (no less than fifty Negroes were measured), White has been claimed as the founder of Anthropometry. Soemmerring (1755-1830), however, had made use of measurements in his comparison of the anatomy of the Negro with the European.
Measurements and Observations of Living Populations.
About the middle of the nineteenth century observations on the living were made, in addition to Anthropometry; investigations were undertaken, not of the skulls and bones of the dead, or even of the head-forms and body-measurements of the living, but of the forms of such features as the nose and ear, pigmentation of the skin and eyes, and the like. As early as 1834 L. R. Villermé had started investigations on the various classes of the population of Great Britain, comparing the dwellers in the country with those of manufacturing districts and large cities, mainly in the interests of hygiene; and later he examined the size and health of children working in coal-mines.
In 1861 the venerated Dr. John Beddoe published a study of hair and eye colour in Ireland, and he has continued his researches in this fruitful field from time to time in various parts of the British Isles, and to a less extent on the continent of Europe.
But it was on the continent that this method of investigation was most ardently prosecuted; and the story of its political origin may here be briefly recounted, since the results were of great service to the science of Anthropometry.
During the bombardment of Paris, in the Franco-Prussian War, the Natural History Museum suffered some damage through shells; and soon afterwards the director, de Quatrefages, published a pamphlet on La Race Prussienne (1871). This was to show that the Prussians were not Teutonic at all, but were descended from the Finns, who were classed with the Lapps as alien Mongolian intruders into Europe. They were thus mere barbarians, with a hatred of a culture they could not appreciate; and their object in shelling the museum was “to take from this Paris that they execrate, from this Babylon that they curse, one of its elements of superiority and attraction. Hence our collections were doomed to perish.” A reply was made by Professor Virchow, of Berlin, and the battle raged furiously. The significance of this controversy to Anthropometry lies in the fact that its immediate result was an order from the German Government authorising an official census of the colour of the hair and eyes of 6,000,000 school children of the Empire—a census which served at once as a stimulus to and a model for further investigators.
This census had some amusing and unexpected results, quoted by Dr. Tylor[[29]] as illustrating the growth of legends:—
[29]. Pres. Add. Brit. Ass., 1879.
No doubt many legends of the ancient world, though not really history, are myths which have arisen by reasoning on actual events, as definite as that which, some four years ago, was terrifying the peasant mind in North Germany, and especially in Posen. The report had spread far and wide that all Catholic children with black hair and blue eyes were to be sent out of the country, some said to Russia; while others declared that it was the King of Prussia who had been playing cards with the Sultan of Turkey, and had staked and lost 40,000 fair-haired, blue-eyed children; and there were Moors travelling about in covered carts to collect them; and the schoolmasters were helping, for they were to have five dollars for every child they handed over. For a time popular excitement was quite serious; the parents kept their children away from school and hid them, and when they appeared in the streets of the market town the little ones clung to them with terrified looks.... One schoolmaster, who evidently knew his people, assured the terrified parents that it was only the children with blue hair and green eyes that were wanted—an explanation that sent them home quite comforted.
Observations of external characters, combined with precise measurements, have now been made on a large scale in most European countries, and these methods are adopted on anthropological expeditions. In this way a great deal of valuable material for study has been accumulated, but much work remains to be done in this direction.
Methods of Dealing with Anthropometric Data.
Not only have head, body, and limb measurements been recorded, but the device of an “index” has been adopted which gives the ratio between two measurements, as, for example, in the previously-mentioned cephalic index (p. [34]). The averages or means of series of indices obtained from one people have been compared with those obtained from other peoples; but this method is misleading, as there is frequently a very considerable range in any given series, and a mean merely gives a colourless conception of racial types, the only value of which is a ready standard of comparison, which, however, is full of pitfalls.
A further step in the advancement of anthropometric research was made when the extent and frequency of such deviations from the mean were recorded. At first this was done in a tabular manner by means of seriations; then curves were employed: a single peak was held to indicate purity of race, double peaks that two racial elements entered into the series measured, a broad peak or plateau was interpreted as being due to race fusion. Dr. C. S. Myers,[[30]] who has discussed these and other methods, points out the fallacies of this interpretation, saying: “There can be little doubt that most of the many-peaked curves owe their irregularity to the inadequate number of individual measurements which have been taken.”
[30]. C. S. Myers, “The Future of Anthropometry,” Journ. Anth. Inst., xxxiii., 1903, p. 36.
Dr. Myers emphatically states:—
If physical anthropology is to be a science, its results must be capable of expression in mathematical formulæ. To this end some of the most interesting of biological work of the age is tending ... generally speaking, the study of living forms is passing from the descriptive to the quantitative aspect, and it is by experiment and observation on biometrical lines that future progress is clearly promised.... Thanks to the recent work of Professor Karl Pearson, the proper start has at last been made.
His school is now attacking by statistical methods the problem of the dependence of the variation of one character upon that of another. It should be remembered that Quetelet was the first to apply the Gaussian Law of Error to human measurements in its elementary binomial form; in this he was followed by Sir Francis Galton, who was the first in this country to realise the importance of applying mathematical methods to anthropological measurements and observations. An interesting account of the genesis of his work in this direction is given in his Memories of My Life (1908). Similar work has also been undertaken by German investigators.
Scientific and Practical Value of Anthropometry.
We may conclude this chapter with a brief summary of the main lines which investigations are now taking; but it is impossible to mention even the more important of recent workers in this vast field.
From the beginning of the study, anthropometry was employed as a precise means of expressing the differences between man and the lower animals; and, owing to improved methods of research and the discovery of new material, the origin and differentiation of man is still investigated with assiduity.
Though no one measurement can be used for purposes of race discrimination, yet a series of measurements on a sufficiently large group of subjects, together with observations on the colour of the skin, hair, and eyes, the form of various organs—such as the nose and ears—and other comparisons of a similar nature, are invaluable in the study of the races of mankind. It is only in this way that the mixtures of the population can be sorted out, their origins traced, and some idea gained of the racial migrations which have taken place since man first appeared.
Through the initiative of Sir Francis Galton, as Dr. Myers points out, anthropometry has begun to investigate other problems which must ultimately be of ethnological interest; and he has opened out the whole subject of heredity, which eventually must enter into every branch of physical anthropology. The followers of Mendel are at present laying a foundation upon their experiments with plants and animals. At present very little attention has been paid by them to man; nor, probably, can much be attempted until more precise data are available.
Lamentably little is known with accuracy about the physical and psychical effects of the mixture of different human types, and it is yet to be determined how far the admitted unsatisfactory character of many half-caste populations is due to physiological or sociological causes.
There is a great dearth of sufficiently numerous and reliable observations and statistics concerning the effect of the environment upon small or large groups of human beings—a problem to which Professor Ridgeway devoted his last presidential address to the Royal Anthropological Institute (1910).
It is often important that the physical fitness of people should be tested, in order to see how they stand in relation to other people, and to discover any physical imperfections. Especially is this desirable in the case of children; and the government inspection of school children, though inadequate, is a step in the right direction. By such means early inclinations to various defects are discovered and prevented, and valuable statistics are obtained which can not only be utilised for comparative purposes, but may form a basis for future legislation. It is also a matter of importance to determine whether certain imperfections are due to diseased, abnormal, or other undesirable factors in their parentage; or whether they are the results of unfavourable subsequent conditions. But in order that comparisons can be made, it is necessary to make similar investigations on the normal, capable, and healthy population.
Another branch of investigation was undertaken mainly for the identification of criminals, and consisted in certain measurements selected by M. Alphonse Bertillon, supplemented by photographs and a record of individual peculiarities. The practical value of this method of identification in France was demonstrated by its immediate results. Criminals began to leave off aliases, and numbers of them flocked to England. Finger-prints as a means of identification were first discovered by Purkenje, the Breslau physiologist (1823), who utilised them for classification. Sir William Herschel, of the Indian Civil Service, adopted the method in Bengal, and now methods introduced by Sir Francis Galton are in use in India, England, and elsewhere, having in most cases supplanted the Bertillon system.