Man, Past and Present - Agustus Henry Keane, A. Hingston Quiggin, Alfred Court Haddon (most popular novels txt) 📗
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[42] R. Smith and H. Dewey, "Stratification at Swanscombe," Archaeologia, LXIV. 1912.
[43] So called from Chelles-sur-Marne, near Paris.
[44] Cf. J. Dechelette, Manuel d'Archeologie prehistorique, I. 1908, p. 89.
[45] From Aurignac (Haute-Garonne), Solutre (Saone-et-Loire), and La Madeleine (Dordogne).
[46] Mas-d'Azil, Ariege.
[47] W. J. Sollas, Ancient Hunters, 1915, pp. 378-9.
[48] "Les Subdivisions de paleolithique superieur," Congres Internat. d'Anth. 1912, XIV. pp. 190-3.
[49] H. Breuil and E. Cartailhac, La Caverne d'Altamira, 1906. For a list of decorated caves, with the names of their discoverers, see J. Dechelette, Manuel d'Archeologie prehistorique, I. 1908, p. 241. A complete Repertoire de l'Art Quaternaire is given by S. Reinach, 1913; and for chronology see E. Piette, "Classifications des Sediments formes dans les cavernes pendant l'Age du Renne," Anthr. 1904.
[50] From La Fere-en-Tardenois, Aisne.
[51] Cf. W. J. Sollas, Ancient Hunters, 1915, pp. 95, 534 f.
[52] Die Alpen in Eiszeitalter, 1901-9. See also "Alter des Menschengeschlechts," Zeit. f. Eth. XL. 1908.
[53] See W. J. Sollas, Ancient Hunters, 1915, p. 561.
[54] H. Obermaier, Der Mensch der Vorzeit, 1911-2, p. 332.
[55] The Antiquity of Man in Europe, 1914, p. 301.
[56] Ancient Hunters, 1915, p. 567.
[57] Proc. Prehist. Soc. E. Anglia, 1. 1911, p. 60.
[58] Discourse at the R. Institute, London, Nature, Jan. 6 and 13, 1898.
[59] Nature, 1898, p. 235.
[60] Tiden foer Blekings foersta bebyggande, Karlskrona, 1895, p. 5.
[61] "Das Schweizersbild, eine Niederlassung aus palaeolithischer und neolithischer Zeit," in Nouveaux Memoires Soc. Helvetique des Sciences Naturelles, Vol. XXXV. Zurich, 1896. This is described by James Geikie, The Antiquity of Man in Europe, 1914, pp. 85-99.
[62] L'Anthropologie, 1897, p. 350.
[63] Forum, Feb. 1898.
[64] The party of Eskimo men and women brought back by Lieut. Peary from his Arctic expedition in 1897 were unable to endure our temperate climate. Many died of pneumonia, and the survivors were so enfeebled that all had to be restored to their icy homes to save their lives. Even for the Algonquians of Labrador a journey to the coast is a journey to the grave.
[65] W. Z. Ripley, The Races of Europe, 1900, p. 586.
CHAPTER II(THE METAL AGES--HISTORIC TIMES AND PEOPLES)
Progress of Archaeological Studies--Sequence of the Metal Ages--The Copper Age--Egypt, Elam, Babylonia, Europe--The Bronze Age--Egypt and Babylonia, Western Europe, the Aegean, Ireland--Chronology of the Copper and Bronze Ages--The Iron Age--Hallstatt, La Tene--Man and his Works in the Metal Ages--The Prehistoric Age in the West, and in China--Historic Times--Evolution of Writing Systems-- Hieroglyphs and Cuneiforms--The Alphabet--The Persian and other Cuneiform Scripts--The Mas-d'Azil Markings--Alphabetiform Signs on Neolithic Monuments--Character and Consequences of the later historic Migrations--The Race merges in the People--The distinguishing Characters of Peoples--Scheme of Classification.
If, as above seen, the study of human origins is largely a geological problem, the investigation of the later developments, during the Metal Ages and prehistoric times, belongs mainly to the field of Archaeology. Hence it is that for the light which has in recent years been thrown upon the obscure interval between the Stone Ages and the strictly historic epoch, that is to say, the period when in his continuous upward development man gradually exchanged stone for the more serviceable metals, we are indebted chiefly to the pioneer labours of such men as Worsaae, Steenstrup, Forchhammer, Schliemann, Sayce, Layard, Lepsius, Mariette, Maspero, Montelius, Brugsch, Petrie, Peters, Haynes, Sir J. Evans, Sir A. J. Evans and many others, all archaeologists first, and anthropologists only in the second instance.
From the researches of these investigators it is now clear that copper, bronze, and iron were successively in use in Europe in the order named, so that the current expressions, "Copper," "Bronze," and "Iron" Ages remain still justified. But it also appears that overlappings, already beginning in late Neolithic times, were everywhere so frequent that in many localities it is quite impossible to draw any well-marked dividing lines between the successive metal periods.
That iron came last, a fact already known by vague tradition to the ancients[66], is beyond doubt, and it is no less certain that bronze of various types intervened between copper and iron. But much obscurity still surrounds the question of copper, which occurs in so many graves of Neolithic and Bronze times, that this metal has even been denied an independent position in the sequence.
But we shall not be surprised that confusion should prevail on this point, if we reflect that the metals, unlike stone, came to remain. Once introduced they were soon found to be indispensable to civilised man, so that in a sense the "Metal Ages" still survive, and must last to the end of time. Hence it was natural that copper should be found in prehistoric graves associated, first with polished stone implements, and then with bronze and iron, just as, since the arrival of the English in Australia, spoons, clay pipes, penknives, pannikins, and the like, are now found mingled with stone objects in the graves of the aborigines.
But that there was a true Copper Age[67] prior to that of Bronze, though possibly of not very long duration, except of course in the New World[68], has been placed beyond reasonable doubt by recent investigations. Considerable attention was devoted to the subject by J. H. Gladstone, who finds that copper was worked by the Egyptians in the Sinaitic Peninsula, that is, in the famous mines of the Wadi Maghara, from the fourth to the eighteenth dynasty, perhaps from 3000 to 1580 B.C.[69] During that epoch tools were made of pure copper in Egypt and Syria, and by the Amorites in Palestine, often on the model of their stone prototypes[70].
Elliot Smith[71] claims that "the full story of the coming of copper, complete in every detail and circumstance, written in a simple and convincing fashion that he who runs may read," has been displayed in Egypt ever since the year 1894, though the full significance of the evidence was not recognised until Reisner called attention to the record of pre-dynastic graves in Upper Egypt when superintending the excavations at Naga-ed-der in 1908[72]. These excavations revealed the indigenous civilisation of the ancient Egyptians and, according to Elliot Smith, dispose of the idea hitherto held by most archaeologists that Egypt owed her knowledge of metals to Babylonia or some other Asiatic source, where copper, and possibly also bronze, may be traced back to the fourth millennium B.C. There was doubtless intercourse between the civilisations of Egypt and Babylonia but "Reisner has revealed the complete absence of any evidence to show or even to suggest that the language, the mode of writing, the knowledge of copper ... were imported" (p. 34). Elliot Smith justly claims (p. 6) that in no other country has a similarly complete history of the discovery and the evolution of the working of copper been revealed, but until equally exhaustive excavations have been undertaken on contemporary or earlier sites in Sumer and Elam, the question cannot be regarded as settled.
The work of J. de Morgan at Susa[73] (1907-8) shows the extreme antiquity of the Copper Age in ancient Elam, even if his estimate of 5000 B.C. is regarded as a millennium too early[74]. At the base of the mound on the natural soil, beneath 24 meters of archaeological layers, were the remains of a town and a necropolis consisting of about 1000 tombs. Those of the men contained copper axes of primitive type; those of the women, little vases of paint, together with discs of polished copper to serve as mirrors. At Fara, excavations by Koldewey in 1902, and by Andrae and Noeldeke in 1903 on the site of Shuruppak (the home of the Babylonian Noah) in the valley of the Lower Euphrates, revealed graves attributed to the prehistoric Sumerians, containing copper spear heads, axes and drinking vessels[75].
In Europe, North Italy, Hungary and Ireland[76] may lay claim to a Copper Age, but there is very little evidence of such a stage in Britain. To this period also may be attributed the nest or cache of pure copper ingots found at Tourc'h, west of the Aven Valley, Finisterre, described by M. de Villiers du Terrage, and comprising 23 pieces, with a total weight of nearly 50 lbs.[77] These objects, which belong to "the transitional period when copper was used at first concurrently with polished stone, and then disappeared as bronze came into more general use[78]," came probably from Hungary, at that time apparently the chief source of this metal for most parts of Europe. Of over 200 copper objects described by Mathaeus Much[79] nearly all were of Hungarian or South German provenance, five only being accredited to Britain and eight to France.
The study of this subject has been greatly advanced by J. Hampel, who holds on solid grounds that in some regions, especially Hungary, copper played a dominant part for many centuries, and is undoubtedly the characteristic metal of a distinct culture. His conclusions are based on the study of about 500 copper objects found in Hungary and preserved in the Buda Pesth collections. Reviewing all the facts attesting a Copper Age in Central Europe, Egypt, Italy, Cyprus, Troy, Scandinavia, North Asia, and other lands, he concludes that a Copper Age may have sprung up independently wherever the ore was found, as in the Ural and Altai Mountains, Italy, Spain, Britain, Cyprus, Sinai; such culture being generally indigenous, and giving evidence of more or less characteristic local features[80]. In fact we know for certain that such an independent Copper Age was developed not only in the region of the Great Lakes of North America, but also amongst the Bantu peoples of Katanga and other parts of Central Africa. Copper is not an alloy like bronze, but a soft, easily-worked metal occurring in large quantities and in a tolerably pure state near the surface in many parts of the world. The wonder is, not that it should have been found and worked at a somewhat remote epoch in several different centres, but that its use should have been so soon superseded in so many places by the bronze alloys.
From copper to bronze, however, the passage was slow and progressive, the proper proportion of tin, which was probably preceded in some places by an alloy of antimony, having been apparently arrived at by repeated experiments often carried out with no little skill by those prehistoric metallurgists.
As suggested by Bibra in 1869, the ores of different metals would appear to have been at first smelted together empirically, and the process continued until satisfactory results were obtained. Hence the extraordinary number of metals, of which percentages are found in some of the earlier specimens, such as those of the Elbing Museum, which on analysis yielded tin, lead, silver, iron, antimony, arsenic, sulphur, nickel, cobalt, and zinc in varying quantities[81].
Some bronzes from the pyramid of Medum analysed by J. H. Gladstone[82] yielded the high percentage of 9.1 of tin, from which we must infer, not only that bronze, but bronze of the finest quality, was already known to the Egyptians of the fourth dynasty, i.e. 2840 B.C. The statuette of Gudea of Lagash (2500 B.C.) claimed as the earliest example of bronze in Babylonia is now known to be pure copper, and though objects from Tello (Lagash) of earlier date contain a mixture of tin, zinc, arsenic and other alloys, the proportion is insignificant. The question of priority must, however, be left open until the relative chronology of Egypt and Babylonia is
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