Utilization of the Chinese water deer of early Holocene by human from the Xiaogao site, Shandong Province
Received date: 2021-11-26
Revised date: 2022-05-06
Online published: 2023-04-03
The Xiaogao site is an early Holocene site discovered in Shandong Province in recent years. In 2017, the Institute of Cultural Relics and Archaeology of Shandong Province and the Department of Archaeology of Shandong University conducted a rescue archaeological excavation and discovered a large number of cultural remains and animal bones, and Chinese water deer (Hydropotes inermis) is the most frequently found species among them. The Chinese water deer, as one of the main animal resources used by prehistoric humans in China, occupied an important position in the prehistoric subsistence activities, that can be confirmed by large amounts of bones, teeth and bone tools found in archaeological sites. Therefore, Chinese water deer from the Xiaogao site provide important materials for us to fully explore the hunting and utilization strategy of Chinese water deer, and further understand patterns of human subsistence strategies and complex relationship between humans and animals in the early Holocene. Based on five aspects of Chinses water deer bones, including age structure, sex ratio, seasonality, skeletal distribution pattern and bone fracture degree, this paper analyses the utilization pattern of Chinese water deer in the Xiaogao site. The age structure of Chinese water deer indicate that human hunting targets were mainly young and middle-aged individuals of 7-24 months, and a higher proportion of immature individuals were hunted in the late phase of site, indicating that most Chinese water deer became human hunting targets after approaching or reaching the maximum weight, and human hunting activities had a certain impact on population structure. Seasonality studies show that human hunting for Chinese water deer occurs mostly in winter and spring when food resources are scarce. The sex ratio study show that there was little difference in bone size between males and females, and it was difficult to analyze sex ratio with bone measurement data. Skeletal distribution pattern and bone fragmentation studies show that there may be full exploitation and utilization of meat and bone marrow. Combining with the biological characteristics of Chinese water deer, we propose that the utilization mode of Chinese water deer conforms to the features of broad-spectrum and intensive utilization of animal resources in the early Holocene. It also reflects the close interaction between human and animals. With this interaction, human not only have access to a variety of animal resources, such as meat, bone marrow and tools materials, but also have an opportunity to learn about animal characteristics and accumulate experience from animal management.
Key words: Xiaogao; Early Holocene; Chinese water deer; bone; Utilization
Yao GAO , Hua WANG , Jianfeng LANG . Utilization of the Chinese water deer of early Holocene by human from the Xiaogao site, Shandong Province[J]. Acta Anthropologica Sinica, 2023 , 42(02) : 238 -247 . DOI: 10.16359/j.1000-3193/AAS.2022.0060
| [1] | 张弛. 中国农业起源的研究[A].见:严文明(主编).中国考古学研究的世纪回顾·新石器时代卷[C].北京:文物出版社, 2008, 102-110 |
| [2] | Smith BD. Low-Level Food Production[J]. Journal of Archaeological Research, 2001, 1: 1-43 |
| [3] | Smith BD. Niche construction and the behavioral context of plant and animal domestication[J]. Evolutionary Anthropology, 2007(16): 188-199 |
| [4] | 盛和林. 中国鹿类动物[M]. 上海: 华东师范大学出版社, 1992, 95-108 |
| [5] | 张恩迪, 滕丽微, 吴咏蓓. 江苏盐城保护区獐的栖息地选择[J]. 兽类学报, 2006, 26(1): 49-53 |
| [6] | 河南省文物考古研究所. 舞阳贾湖(下册)[M]. 北京: 科学出版社, 1999, 785-794 |
| [7] | 周本雄. 河北武安磁山遗址的动物骨骸[J]. 考古学报, 1981, 3: 339-347 |
| [8] | 王华, 张弛. 河南邓州八里岗遗址出土仰韶时期动物遗存研究[J]. 考古学报, 2021, 2: 297-316 |
| [9] | 孙启锐. 后李文化研究[D]. 济南: 山东大学, 2014, 56-68 |
| [10] | Chen YJ, Liu KH, Chu WL. New Record of Water Deer (Hydropotes inermis) from Iron Age Archeological Sites in Central Taiwan[J]. Collection and Research, 2017, 30: 23-31 |
| [11] | Binford LR. Faunal Remains from Klasies River Mouth[M]. New York: Academic press, 1984 |
| [12] | 张乐, Norton CJ, 张双权, 等. 量化单元在马鞍山遗址动物骨骼研究中的运用[J]. 人类学学报, 2008, 27(1): 79-90 |
| [13] | Dubost G, Charron F, Coecoul A, et al. Population characteristics of a semi-free-ranging polytocous cervid, Hydropotes inermis[J]. Mammalia, 2008, 72(4): 333-343 |
| [14] | Dubost G, Charron F, Courcoul A, et al. The Chinese water deer, Hydropotes inermis—A fast-growing and productive ruminant[J]. Mammalian Biology, 2011, 76(2): 190-195 |
| [15] | Seo H, Kim J, Seomun H, et al. Eruption of posterior teeth in the maxilla and mandible for age determination of water deer[J]. Archives of Oral Biology, 2017, 73: 237-242 |
| [16] | Gilbert C, Ropiquet A, Hassanin A. Mitochondrial and nuclear phylogenies of Cervidae (Mammalia, Ruminantia): Systematics, morphology, and biogeography[J]. Molecular Phylogenetics and Evolution, 2006, 1: 101-117 |
| [17] | Randi E, Mucci N, Pierpaoli M. New phylogenetic perspectives on the Cervidae (Artiodactyla) are provided by the mitochondrial cytochrome b gene[J]. The Royal Society, 1998, 265: 793-801 |
| [18] | Carter RJ. Age estimation of the roe deer (Capreolus capreolus) mandibles from the Mesolithic site of Star Carr, Yorkshire, based on radiographs of mandibular tooth development[J]. The Zoological Society of London, 1997, 241: 495-502 |
| [19] | Veitschegger K, Sanchez-Villagra MR. Tooth Eruption Sequences in Cervids and the Effect of Morphology, Life History, and Phylogeny[J]. Journal of Mammalian Evolution, 2016, 23(3): 251-263 |
| [20] | Begon M, Harper JL, Townsend CR. Ecology: Individuals, populations and communities[M]. Oxford: Blackwell Scientific Publication, 1986 |
| [21] | 潘艳, 郑云飞, 陈淳. 跨湖桥遗址的人类生态位构建模式[J]. 东南文化, 2013, 6: 54-65 |
| [22] | Yung KK, Daisuke K, Hang L, et al. Sexual Dimorphism of Craniomandibular Size in the Korean Water Deer, Hydropotes inermis argyropus[J]. Journal of Veterinary Medical Science, 2013, 9: 1153-1159 |
| [23] | Lyman RL. Vertebrate Taphonomy[M]. Cambridge: Cambridge University Press, 1994, 246-247 |
| [24] | Binford LR. Nunamiut Ethnoarchaeology[M]. New York and London: Academic Press, 1978, 152-157 |
| [25] | O”Connell JF, Hawkes K, Jones NB. Hadza hunting, buchering, and bone transport and their archaeological implications[J]. Journal of Anthropological Research, 1988, 44(2): 113-161 |
| [26] | Bar OG, Munro ND. Gazelle bone marrow yields and Epipalaeolithic carcass exploitation strategies in the southern Levant[J]. Journal of Archaeological Science, 2007, 34(6): 946-956 |
| [27] | Stiner MC, Munro ND. Approaches to Prehistoric Diet Breadth, Demography, and Prey Ranking Systems in Time and Space[J]. Journal of Archaeological Method and Theory, 2002, 9(2): 181-214 |
| [28] | Munro N. Epipaleolithic Subsistence Intensification in the Southern Levant: The Faunal Evidence [A]. In: Hubin JJ, Richard MP. The Evolution of Hominin Diets: Integrating Approaches to the Study of Palaeolithic Subsistence[C]. New York: Springer Science & Business Media, 2009, 141-155 |
| [29] | Berger JF, Guilaine J. The 8200 cal BP abrupt environmental change and the Neolithic transition: A Mediterranean perspective[J]. Quaternary International, 2009, 200: 31-49 |
| [30] | 施雅风, 孔昭宸, 王苏民. 中国全新世大暖期的气候波动与重要事件[J]. 中国科学(B辑), 1992, 12: 1300-1308 |
| [31] | Wang C, Lu HY, Zhang JP, et al. Prehistoric demographic fluctuations in China inferred from radiocarbon data and their linkage with climate change over the past 50,000 years[J]. Quanternary Science Review, 2014, 98: 45-59 |
| [32] | Rosen AM, Isabel RC. Climate change, adaptive cycles, and the persistence of foraging economies during the late Pleistocene /Holocene transition in the Levant[J]. Proceeding of the National Academy of Science, 2012, 109: 3640-3645 |
| [33] | Bar-Yosef O. Climatic Fluctuations and Early Farming in West and East Asia[J]. Current Anthropoligy, 2011, 52(4):175-193 |
| [34] | 陈胜前. 史前的现代化—中国农业起源过程的文化生态考察[M]. 北京: 科学出版社, 2013, 128-219 |
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