Research Articles

A study of the formation process of Jijiazhuang Paleolithic site in Yuxian Basin

  • Zhi YE ,
  • Yuwei DU ,
  • Shuwen PEI ,
  • Xin DING ,
  • Zhe XU ,
  • Dongdong MA
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  • 1. Key Laboratory of Vertebrate Evolution and Human Origins, Institute of Vertebrate Paleontology and Paleoanthropology, Chinese Academy of Sciences, Beijing 100044
    2. CAS Center for Excellence in Life and Paleoenvironment, Beijing, 100044
    3. University of Chinese Academy of Sciences, Beijing 100049
    4. Institute of Archaeology, University College London, WC1H 0PY London, United Kingdom

Received date: 2021-10-26

  Revised date: 2022-01-08

  Online published: 2023-02-20

Abstract

Owing to low-energy hydraulic agents and fine-grained sediments, the fluvio-lacustrine basin proves to be ideal depositional system for preserving archaeological remains. The typical fluvio-lacustrine sediments in Nihewan Basin of North China are rich sources of Early to Middle Pleistocene archaeological sites, which offer an important opportunity to investigate human evolution and adaptive behaviors in East Asia. Comparing to the advances on the study of site formation processes of Lower Pleistocene sites have been handled in the basin, site formation focus on the Middle Pleistocene sites are yet to be carried out. In this paper, we present a site formation study of a newly discovered Middle Pleistocene archaeological site named Jijiazhuang site (JJZ) in Yuxian Basin (south part of Nihewan Basin). Two typical localities (JJZ-B and JJZ-E) are selected and geoarchaeological as well as archaeological factors are adopted for the site formation research. Through the analysis of geomorphology and deposits features, archaeological remains in JJZ-B were buried in marsh or swamp environment of lake margin deposits when the Nihewan old lake began retreating, while the archaeological sequence of JJZ-E probably belongs to the sand bar sedimentary face of lake margin environment. Multiple proxies from archaeological materials (artifacts spatial distribution, technological composition, weathering and abrasion condition, orientation as well as inclination) demonstrate that JJZ-B belongs to near primary context, the archaeological remains had been disturbed by low-energy sheet wash across the lake shore setting which provides effective information for exploring hominins technology and adaptive behaviors. Meanwhile, JJZ-E was preserved in secondary context where archaeological remains together with cobbles and pebbles were transported to accumulative area by relative high energetic hydraulic flow of lake wave and sheet wash, so that the locality witnessed low integrity of archaeological materials compared to JJZ-B. This study shows that the Nihewan Basin contains extensive information of archaeological remains of Middle Pleistocene. Formation processes of the different sites are strongly affected by the different settings in the archaeological landscape. Study on the site formation processes of JJZ site indicates that archaeological remains were in relative low density, and the formation processes varied from near primary context to secondary context. In addition, this study bears great significance on the study of the adaptive patterns of different localities of Jijiazhuang site complex by hominins during Middle Pleistocene.

Cite this article

Zhi YE , Yuwei DU , Shuwen PEI , Xin DING , Zhe XU , Dongdong MA . A study of the formation process of Jijiazhuang Paleolithic site in Yuxian Basin[J]. Acta Anthropologica Sinica, 2023 , 42(01) : 46 -60 . DOI: 10.16359/j.1000-3193/AAS.2022.0052

References

[1] Isaac GL. Towards the interpretation of occupation debris: some experiments and observations[J]. Kroeber Anthropology Society Paper, 1967, 37: 31-57
[2] Schiffer MB. Formation process of the archaeological record[M]. Albuquerque: University of New Mexico Press, 1987
[3] Hassan FA. Sediments in Archaeology: methods and implications for paleoenvironmental and cultural analysis[J]. Journal of Field Archaeology, 1978, 5: 197-213
[4] 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
[5] 李浩, 张玉柱, 李意愿, 等. 沉积物特征与旧石器遗址的形成过程[J]. 人类学学报, 2021, 40(3): 363-377
[6] Morton AGT. Archaeological Site Formation: Understanding Lake Margin Contexts[M]. Oxford:BAR International Series 1211, 2004
[7] 裴树文. 中国古人类活动遗址形成过程研究的进展与思考[J]. 人类学学报, 2021, 40(3): 349-362
[8] 谢飞. 泥河湾[M]. 北京: 文物出版社, 2006
[9] 卫奇, 李珺, 裴树文. 旧石器遗址与古人类活动信息[A]. 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
[10] 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
[11] 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]. 北京: 中国科学院大学, 2018
[12] 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
[13] Jia ZX, Pei SW, Benito-Calvo A, et al. Site formation processes at Donggutuo: a major Early Pleistocene site in the Nihewan basin, North China[J]. Journal of Quaternary Science, 2019, 34(8): 621-632
[14] 王法岗, 刘连强, 谢飞. 蔚县盆地前上营遗址发现的旧石器[A]. 见:董为(主编).第十三届中国古脊椎动物学学术年会论文集[C]. 北京: 海洋出版社, 2012, 165-170
[15] 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: 510-528
[16] 夏正楷, 刘锡清. 泥河湾层古地理环境的初步认识[J]. 海洋地质与第四纪地质, 1984, 103-112
[17] 周廷儒, 李华章, 李容全, 等. 泥河湾盆地新生代古地理研究[M]. 北京: 科学出版社, 1991: 1-162
[18] 李潇丽. 泥河湾盆地吉家庄遗址地层易溶盐沉积记录的古气候信息[J]. 海洋地质与第四纪地质, 2000, 40(5): 149-159
[19] 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
[20] Schick KD. Stone Age sites in the making: experiments in the formation and transformation of archaeological occurrences[D]. Oxford:British Archaeological Reports Series 319, 1986
[21] Schick KD. Modeling the formation of early stone age artifact concentration[J]. Journal of Human Evolution, 1987, 16(7-8): 789-807
[22] 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
[23] Shea J. Artifact Abrasion, Fluvial Processes, and “Living Floors” from the Early Paleolithic Site of ’Ubeidiya (Jordan Valley, Israel)[J]. Geoarchaeology, 1999, 14(2): 191-207
[24] 任进成, 王法岗, 李锋, 等. 泥河湾盆地板井子旧石器时代遗址的形成过程[J]. 人类学学报, 2021, 40(3): 378-392
[25] 任进成. 泥河湾盆地板井子旧石器时代遗址形成过程与石器技术研究[D]. 北京: 中国科学院大学, 2019
[26] Sahnouni M, Heinzelin J. The site of Ain Hanech revisited: new investigations at this Lower Pleistocene site in North Algeria[J]. Journal of Archaeological Science, 1998, 25(11): 1083-1101
[27] Schick KD. Geoarchaeological analysis of an Acheulean site at Kalambo Falls, Zambia[J]. Geoarchaeology, 1992, 7(1): 1-16
[28] 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(2): 218-306
[29] Yang SX, Deng CL, Zhu RX, et al. The Paleolithic in the Nihewan Basin, China: Evolutionary history of an Early to Late Pleistocene record in Eastern Asia[J]. Evolutionary Anthropology, 2020, 29(3): 125-142
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