Experimental study of debitage size distribution on chert raw materials in the Datianwa area of the Nihewan Basin, North China
Received date: 2019-11-14
Revised date: 2020-04-12
Online published: 2020-08-31
Debitage size distribution is one of most effective indicators to study the site formation processes in Paleolithic archaeology. In the 1970s and 1980s, the researchers from Indiana University Kathy Schick and Nicholas Toth conducted systematic experiments on the debitage size distribution using raw materials and flaking methods of mainly Early Paleolithic in Koobi Fora region in Kenya, and finally obtained massive experimental data which have been widely accepted and applied to the study of site formation processes all over the world.
In this paper, we operated a number of debitage size distribution experiments using local raw materials Zhoujiashan cherts and Donggutuo cherts and casual core-flake knapping method in the Datianwa area in the Nihewan Basin in order to establish direct experimental data for further analysis on site formation processes in this region. 25 experiments were carried out and 10070 debitage in total were collected. The results indicate that the proportions of debitage decrease as the size increase and small debitage are extremely high throughout. Debitage of 0.5~1 cm has the highest value about 60.9% (mean value) just followed by 1~2 cm about 23.3% (mean value). This pattern is obviously different from that observed by Schick and Toth, and would be more appropriate to study the site formation processes in the Datianwa area in the Nihewan Basin.
Jincheng REN , Feng LI , Fuyou CHEN , Xing GAO . Experimental study of debitage size distribution on chert raw materials in the Datianwa area of the Nihewan Basin, North China[J]. Acta Anthropologica Sinica, 2020 , 39(03) : 379 -391 . DOI: 10.16359/j.cnki.cn11-1963/q.2020.0014
[1] | 陈淳. 废片分析和旧石器研究[J]. 文物季刊, 1993(1):10-15 |
[2] | 王春雪. 旧石器时代遗址废片分析:回顾与展望[J]. 边疆考古研究, 2012(1):361-381 |
[3] | Sullivan AP, Rozen KC. Debitage analysis and archaeological interpretation[J]. American Antiquity, 1985,50(4):755-779 |
[4] | Shott MJ. Size and form in the analysis of flake debris: review and recent approaches[J]. Journal of Archaeological Method and Theory, 1994,1(1):69-110 |
[5] | 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 |
[6] | Bertran P, Lenoble A, Todisco D, et al. Particle size distribution of lithic assemblages and taphonomy of Paleolithic sites[J]. Journal of Archaeological Science, 2012,39(10):3148-3166 |
[7] | Brumm A, Aziz F, van den Bergh GD, et al. Early stone technology on Flores and its implications for Homo floresiensis[J]. Nature, 2006,441(7093):624-628 |
[8] | Fladmark KR. Microdebitage analysis: initial consideration[J]. Journal of Archaeological Science, 1982,9(2):205-220 |
[9] | de la Torre I, Benito Calvo A, Proffitt T. The impact of hydraulic processes in Olduvai Beds I and II, Tanzania, through a particle dimension analysis of stone tool assemblages[J]. Geoarchaeology, 2018,33:218-236 |
[10] | Schick KD. Stone Age Sites in the Making: experiments in the formation and transformation of archaeological occurrences[M]. Oxford: BAR International Series 319, 1986 |
[11] | Schick KD. Experimentally derived criteria for assessing hydrologic disturbance of archaeological sites[C]. In: Nash DT, Petraglia MD (eds). Natural Formation Process and the Archaeological Record[M]. Oxford: BAR International Series 352, 1987: 86-107 |
[12] | Petraglia MD, Potts R. Water flow and the formation of Early Pleistocene artifact sites in Olduvai Gorge, Tanzania[J]. Journal of Anthropological Archaeology, 1994,13(3):228-254 |
[13] | Sahnouni M, Hadjouis D, van der Made J, et al. Further research at the Oldowan site of Ain Hanech, North-eastern Algeria[J]. Journal of Human Evolution, 2002,43(6):925-937 |
[14] | Schick K, Toth N, Wei Q, et al. Archaeological perspectives in the Nihewan basin, China[J]. Journal of Human Evolution, 1991,21(1):13-26 |
[15] | Schick KD. Geoarchaeological analysis of an Acheulean site at Kalambo Falls, Zambia[J]. Geoarchaeology, 1992,7(1):1-26 |
[16] | Schick KD. An examination of Kalambo Falls Acheulean site (B5) from geoarchaeological perspective[C]. In: Clard JD (ed), Kalambo Falls Prehistoric Site, vol. 3[M]. Cambridge University Press, Cambridge, 2001: 463-480 |
[17] | Sitzia L, Bertran P, Boulogne S, et al. The paleoenvironment and lithic taphonomy of Shi’Bat Dihya 1, a Middle Paleolithic site in Wadi Surdud, Yemen[J]. Geoarchaeology, 2012,27(6):471-491 |
[18] | 牛东伟. 水洞沟遗址第7地点遗址成因与石器技术研究[D]. 中国科学院大学博士学位论文, 2014 |
[19] | Pei SW, Niu DW, Guan Y, et al. The earliest Late Paleolithic in North China: site formation processes at Shuidonggou Locality 7[J]. Quaternary International, 2014,347:122-132 |
[20] | Pei SW, Niu DW, Guan Y, et al. Middle Pleistocene hominin occupation in the Danjiangkou Reservoir Region, Central China: studies of formation processes and stone technology of Maling 2A site[J]. Journal of Archaeological Science, 2015,53:391-407 |
[21] | 裴树文, 贾真秀, 马东东, 等. 泥河湾盆地麻地沟E5旧石器地点的遗址成因与石器技术[J]. 人类学学报, 2016,35(4):493-508 |
[22] | Pei SW, Xie F, Deng CL, et al. Early Pleistocene archaeological occurrences at the Feiliang site, and the archaeology of human origins in the Nihewan Basin, North China[J]. PloS ONE, 2017,12(11):e0187251 |
[23] | 裴树文, 马东东, 贾真秀, 等. 蔚县盆地吉家庄旧石器遗址发掘报告[J]. 人类学学报, 2018,37(4):510-528 |
[24] | 裴树文. 旧石器时代旷野遗址形成过程研究综述[J]. 人类学学报, 2019,38(1):1-18 |
[25] | 邢增锐. 东谷坨遗址2016年出土石制品研究[D]. 中国人民大学专业硕士学位论文, 2018 |
[26] | 卫奇, 李珺, 裴树文. 旧石器遗址与古人类活动信息[C].见:袁宝印,夏正楷,牛平山主编,泥河湾裂谷与古人类[M]. 北京: 地质出版社, 2011: 132-219 |
[27] | 谢飞, 李珺, 刘连强. 泥河湾旧石器文化[M]. 花山文艺出版社, 2004 |
[28] | 任进成, 李锋, 王晓敏, 等. 河北阳原县板井子旧石器时代遗址2015年发掘简报[J]. 考古, 2018(11):3-14+2 |
[29] | Yang SX, Hou YM, Yue JP, et al. The lithic assemblages of Xiaochangliang, Nihewan Basin: implications for Early Pleistocene hominin behaviour in North China[J]. PLoS ONE, 2016,11(5):e0155793 |
[30] | Yang SX, Petraglia MD, Hou YM, et al. The lithic assemblages of Donggutuo, Nihewan Basin: knapping skills of Early Pleistocene hominins in North China[J]. PLoS ONE, 2017,12(9):e0185101 |
[31] | 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 |
[32] | 李珺, 张菁婧, 刘建超, 等. 东谷坨遗址石制品研究[J]. 文物春秋, 2014(6):3-10 |
[33] | 贾真秀. 泥河湾盆地早更新世古人类遗址成因与石器技术比较研究——以东谷坨、麻地沟和飞梁遗址为例[D]. 中国科学院大学博士学位论文, 2018 |
[34] | 王春雪. 水洞沟遗址第八地点废片分析和实验研究[D]. 中国科学院研究生院博士学位论文, 2010 |
[35] | 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 |
[36] | 高星. 周口店第15地点石器原料开发方略与经济形态研究[J]. 人类学学报, 2001,20(3):186-200 |
[37] | 杜水生. 泥河湾盆地东部早期旧石器文化的石料与文化性质探讨[J]. 文物春秋, 2002(2):8-15 |
[38] | 裴树文. 石制品原料的分类命名及相关问题讨论[J]. 文物春秋, 2001(2): 17-23+76 |
[39] | 科林·伦福儒, 保罗·巴恩(主编), 陈胜前(译). 考古学:关键概念[M]. 北京: 中国人民大学出版社, 2012 |
[40] | 陈淳. 谈旧石器打制实验[J]. 人类学学报, 1993,12(4):398-403 |
[41] | 高星. 旧石器时代考古学[J]. 化石, 2002(4): 2-4+7 |
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