The raw material study and its application on explanation of prehistoric habitants’ cognitive level and behavioral pattern
Received date: 2017-10-25
Online published: 2020-07-17
From Oldowan hominins to many modern hunter-gatherers, raw materials for making stone tools are essential resources. The identification of lithic raw material and its sources is an important topic in most prehistoric research. In the current paper, we review the research methods used to investigate the quality and distribution of raw materials, along with the applications of these methods. Raw materials not only impact on the form and composition of tools, but they also can be regarded as good measures of cognitive development and behavior patterns. In recent years, the authors worked on the raw materials at several prehistoric sites. In this paper, we take the work in the Nihewan Basin and Taoshan site of Northeast China as examples, to introduce how to explain the relationship of raw materials to cognitive level. The Xiaochangliang site is a key archaeological locality in the Nihewan Basin. Study of the available raw materials and knapping techniques show that, faced with the limits of small clast size and poor quality materials, the Xiaochangliang inhabitants acted with technical flexibility, utilizing freehand and bipolar techniques in variable frequencies. The Taoshan site, dating from the Last Glacial Maximum (LGM) to the mid-Holocene, shows changes in raw material exploitation. Considering the changes in vegetation for this site, we found that the diachronic changes in raw material types and exploitation strategies corresponded with changes in vegetation and human adaptations. As the examples we give in this paper demonstrate, the study of lithic raw material can enrich our knowledge of prehistory.
Key words: Lithic raw material; Quality; Sources; Natural resource; Cognitive level
Shixia YANG , Jianping YUE . The raw material study and its application on explanation of prehistoric habitants’ cognitive level and behavioral pattern[J]. Acta Anthropologica Sinica, 2020 , 39(01) : 12 -20 . DOI: 10.16359/j.cnki.cn11-1963/q.2019.0006
[1] | Binford LR . Organization and formation processes: Looking at curated technologies[J]. Journal of Anthropological Research, 1979,35:255-273 |
[2] | Shott MJ . Technological organization and settlement mobility: An ethnographic examination[J]. Journal of Anthropological Research, 1986,42:15-51 |
[3] | Potts R . Why the Oldowan? Plio-Pleistocene toolmaking and the transport of resources[J]. Journal of Anthropological Research, 1991,47:153-176 |
[4] | Potts R . Variables versus models of early Pleistocene hominid land-use[J]. Journal of Human Evolution, 1994,27:7-24 |
[5] | Potts R, Behrensmeyer AK, Ditchfield P . Paleolandscape variation and Early Pleistocene hominid activities: Members 1 and 7, Olorgesailie Formation, Kenya[J]. Journal of Human Evolution, 1999,37(5):747-788 |
[6] | Goodman ME . The physical properties of stone tool materials[J]. American Antiquity, 1944,9:415-433 |
[7] | Andrefsky Jr W . Raw-material availability and the organization of technology[J]. American Antiquity, 1994: 21-34 |
[8] | Church T . Lithic resources of the Bearlodge Mountains, Wyoming: Description, distribution, and implications[J]. Plains Anthropologist, 1996,41:135-164 |
[9] | Negash A, Shackley MS, Alene M . Source provenance of obsidian artifacts from the Early Stone Age (ESA) site of Melka Konture, Ethiopia[J]. Journal of Archaeological Science, 2006,33:1647-1650 |
[10] | Eren MI, Lycett SJ, Roos CI , et al. Tool stone constraints on knapping skill: Levallois reduction with two different raw materials[J]. Journal of Archaeological Science, 2011,38:2731-2739 |
[11] | Doronicheva E, Kulkova M, Shackley M . Exploitation of lithic raw material in the northwestern Caucasus Upper Paleolithic[J]. Archaeology, Ethnology and Anthropology of Eurasia, 2013,41(2):40-53 |
[12] | Bamforth DB . Settlement, raw material, and lithic procurement in the central Mojave Desert[J]. Journal of Anthropological Archaeology, 1990,9:70-104 |
[13] | Brantingham PJ, Olsen JW, Rech JA , et al. Raw material quality and prepared core technologies in northeast Asia[J]. Journal of Archaeological Science, 2000,27:255-271 |
[14] | Fernandes P, Raynal JP, Moncel MH . Middle Palaeolithic raw material gathering territories and human mobility in the southern Massif Central, France: First results from a petro-archaeological study on flint[J]. Journal of Archaeological Science, 2008,35:2357-2370 |
[15] | Orton J . A useful measure of the desirability of different raw materials for retouch within and between assemblages: The raw material retouch index (RMRI)[J]. Journal of Archaeological Science, 2008,35:1090-1094 |
[16] | 胡松梅 . 略谈我国旧石器时代石器原料的选择与岩性的关系[J]. 考古与文物, 1992, ( 2):40-45 |
[17] | 黄慰文 . 石器时代人类对工具原料的选择和打制[J]. 龙骨坡史前文化志, 1999(1):159-163 |
[18] | 裴树文, 侯亚梅 . 东谷坨遗址石制品原料利用浅析[J]. 人类学学报, 2001,20(4):271-281 |
[19] | 杜水生 . 泥河湾盆地旧石器中晚期石制品原料初步分析[J]. 人类学学报, 2003,22(2):121-130 |
[20] | 周振宇, 郇勇, 刘薇 , 等. 石料力学性能分析在旧石器考古学研究中的应用[J]. 人类学学报, 2016,35(3):407-417 |
[21] | Stout D, Quade J, Semaw S , et al. Raw material selectivity of the earliest stone toolmakers at Gona, Afar, Ethiopia[J]. Journal of Human Evolution, 2005,48:365-380 |
[22] | Braun D, Harris J, Maina D . Oldowan raw material procurement and use: Evidence from the Koobi Fora Formation[J]. Archaeometry, 2009,51:26-42 |
[23] | Callahan E . The basics of biface knapping in the Eastern fluted point tradition: A manual for flintknappers and lithic analysts[J]. Archaeology of Eastern North America, 1979,7:1-180 |
[24] | Cotterell B, Kamminga J . The formation of flakes[J]. American Antiquity, 1987,52(4):675-708 |
[25] | Cotterell B, Kamminga J, Dickson FP . The essential mechanics of conchoidal flaking[J]. International Journal of Fracture, 1985,29(4):205-221 |
[26] | Domanski M, Webb JA, Boland J . Mechanical properties of stone artefact materials and the effect of heat treatment[J]. Archaeometry, 1994,36:177-208 |
[27] | Holdaway SJ, Stern N. A record in stone: The study of Australia's flaked stone artefacts[M]. Canberra: Australian Institute of Aboriginal Studies Press, 2004 |
[28] | Eren MI, Roos CI, Story BA , et al. The role of raw material differences in stone tool shape variation: An experimental assessment[J]. Journal of Archaeological Science, 2014,49:472-487 |
[29] | Browne CL, Wilson L . Evaluating inputs to models of hominin raw material selection: Map resolution and path choices[J]. Journal of Archaeological Science, 2013,40(11):3955-3962 |
[30] | Alberti J, Cardillo M . Primary and secondary lithic raw material sources along the western coast of San Matías Gulf (Río Negro province, Argentina): A first approach to their spatial variability[J]. Quaternary International, 2015,373:63-71. |
[31] | Zhu TQ, Huang H, Wang HM , et al. 2011. Comparison of celadon from the Yaozhou and Xicun kilns in the Northern Song Dynasty of China by X-ray fluorescence and microscopy[J]. Journal of Archaeological Science, 2011,38:3134-3140. |
[32] | Yang SX, Zhang YX, Zhu TQ , et al. Provenancing hornfels in the Dingcun industry: The exploitation of the vicinity source[J]. Quaternary International, 2017,434:138-147. |
[33] | Frahm E, Feinberg JM, Monnier GF , et al. Lithic raw material units based on magnetic properties: A blind test with Armenian obsidian and application to the Middle Palaeolithic site of Lusakert Cave 1[J]. Journal of Archaeological Science, 2016,74:102-123 |
[34] | Blades BS . Aurignacian lithic economy and early modern human mobility: New perspectives from classic sites in the Vézère valley of France[J]. Journal of Human Evolution, 1999,37:91-120 |
[35] | Kuhn SL. Mousterian lithic technology: An ecological perspective[M]. Princeton: Princeton University Press, 2014 |
[36] | Yang SX, Hou YM, Yue JP , et al. The lithic assemblages of Xiaochangliang, Nihewan Basin: Implications for Early Pleistocene hominin behaviour in North China. PLoS ONE, 2016,11(5):e0155793 |
[37] | 尤玉柱, 汤英俊, 李毅 . 泥河湾组小长梁遗址的发现及其意义[J]. 科学通报, 1979, ( 8):365-367 |
[38] | 黄慰文 . 小长梁石器再观察[J]. 人类学学报, 1985,4(4):301-307 |
[39] | 李炎贤 . 关于小长梁石制品的进步性[J]. 人类学学报, 1999,18(4):241-254 |
[40] | 陈淳, 沈辰, 陈万勇 , 等. 河北阳原小长梁遗址1998年发掘报告[J]. 人类学学报, 1999,18(3):225-239 |
[41] | 陈淳, 沈辰, 陈万勇 , 等. 小长梁石工业研究[J]. 人类学学报, 2002,21(1):23-40 |
[42] | 谢飞, 李珺, 刘连强 . 泥河湾旧石器文化[M]. 石家庄: 花山文艺出版社, 2006 |
[43] | 常阳, 侯亚梅, 杨石霞 , 等. 黑龙江省伊春市桃山遗址2013年发掘报告[J]. 人类学学报, 2016,35(2):223-237 |
[44] | 岳健平, 侯亚梅, 杨石霞 , 等. 黑龙江省桃山遗址2014年度发掘报告[J]. 人类学学报, 2017,36(2):180-192 |
[45] | Yang SX, Zhang YX, Li YQ , et al. Environmental change and raw material selection strategies at Taoshan: a terminal Late Pleistocene to Holocene site in north-eastern China[J]. Journal of Quaternary Science, 2017,32(5):553-563 |
[46] | 张森水 . 中国北方旧石器工业的区域渐进与文化交流[J]. 人类学学报, 1990,9(4):322-333 |
[47] | Schick KD. The Movius Line reconsidered: Perspectives on the earlier Paleolithic of eastern Asia[A]. In: Corruccini RS, Ciochon RL (eds). Integrative Pathways to the Past: Paleoanthropological Advances in Honor of F. Clark Howell[C]. Englewood Cliffs, NJ: Prentice Hall, 1994, 569-596 |
[48] | Bar-Yosef O, Wang Y . Paleolithic archaeology in China[J]. Annual Review of Anthropology, 2012,41:319-335 |
[49] | 陈淳 . 旧石器研究:原料、技术及其他[J]. 人类学学报, 1996,15(3):268-275 |
[50] | Brantingham PJ . Measuring forager mobility[J]. Current Anthropology, 2006,47(3):435-459 |
[51] | Adams B, Blades B (eds) . Lithic Materials and Paleolithic Societies[C]. Oxford: Blackwell Publishing, 2009 |
/
〈 | 〉 |