于家沟遗址鸵鸟蛋皮的人类利用特征

  • 王晓敏 ,
  • 梅惠杰 ,
  • 谢飞 ,
  • 高星
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  • 1.中国社会科学院考古研究所,北京 100710
    2.中国科学院脊椎动物演化与人类起源重点实验室,中国科学院古脊椎动物与古人类研究所,北京 100044
    3.河北师范大学历史文化学院,泥河湾考古研究院,石家庄 050024
    4. 中国科学院生物演化与环境卓越创新中心,北京 100044
    5. 中国科学院大学,北京 100049
王晓敏,女,中国社会科学院助理研究员,主要从事旧石器时代考古遗址的埋藏学研究工作。E-mail: paleowangxm@foxmail.com

收稿日期: 2019-04-11

  网络出版日期: 2020-07-17

基金资助

国家自然科学基金青年项目(41802022);中国博士后科学基金面上项目(2018M641479);中国科学院战略性先导科技专项(B类XDB26000000);国家社会科学基金青年项目(09CKG002)

Human use of ostrich eggshells at the Yujiagou site, Nihewan Basin

  • Xiaomin WANG ,
  • Huijie MEI ,
  • Fei XIE ,
  • Xing GAO
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  • 1. Institute of Archaeology, Chinese Academy of Social Sciences, Beijing 100710
    2. Laboratory for Vertebrate Evolution and Human Origins of CAS at the Institute of Vertebrate Paleontology and Paleoanthropology, Chinese Academy of Sciences, Beijing 100044
    3. Institute of Nihewan Archaeology, College of History and Culture, Hebei Normal University, Shijiazhuang, Hebei 050024
    4. CAS Center for Excellence in Life and Paleoenvironment, Beijing 100044
    5. University of Chinese Academy of Sciences, Beijing 100049

Received date: 2019-04-11

  Online published: 2020-07-17

摘要

鸵鸟蛋皮是中国北方旧石器时代遗址中最常见的鸟类遗存。目前,限于蛋皮的样本量与保存状况,很少有研讨古人类是否能够食用鸵鸟蛋液或者利用鸵鸟蛋作为盛煮容器问题。本文以于家沟遗址第3b和4层出土的鸵鸟蛋皮为材料,从其 14C年代、孵化状况、燃烧导致的颜色变化等方面,分析了古人类获取、消费和利用鸵鸟蛋的方式。结果显示,于家沟人既采集了鸵鸟蛋皮作为制作装饰品的原料,也可能获取了完整鸵鸟蛋,食其蛋液,用其蛋壳,并将整蛋作为容器进行了加热。

本文引用格式

王晓敏 , 梅惠杰 , 谢飞 , 高星 . 于家沟遗址鸵鸟蛋皮的人类利用特征[J]. 人类学学报, 2020 , 39(02) : 236 -248 . DOI: 10.16359/j.cnki.cn11-1963/q.2019.0073

Abstract

Ostrich eggshells(OES) are the most common avian remains from Paleolithic sites in North China. They were used to manufacture the beads, and also, they were one of the most important dating samples of AMS- 14C technique for Upper Paleolithic sites in North China. However, at present, limited to the sample size and preservation status of OES remains, few studies have be carried out to discuss if ancient humans could consume the ostrich eggs or use relatively complete OES as the container. In this study, we present the AMS- 14C dating results, information of hatching and burnt levels of OES from Layers 3b and 4 of the Yujiagou site, Nihewan Basin. Based on the unhatched burnt OES, which were dated consistently with other animal remains, the strategies of obtaining and processing the ostrich eggs are discussed. It indicates that the human from Yujiagou not only collected the OES fragments to manufacture ornaments, but also gathered the eggs for food and might use the eggshells as heating containers.

参考文献

[1] Sidell EJ . A Methodology for the Identification of Archaeological Eggshell[M]. University of Pennsylvania, Philadelphia, 1993, 1-44
[2] Hayward JL , Charles JA and Karen AY. Turning Eggs to Fossils: A Natural Experiment in Taphonomy[J]. Journal of Vertebrate Paleontology, 1989,9(2):196-200
[3] Texier PJ, Porraz G, Parkington J, et al. The context, form and significance of the MSA engraved ostrich eggshell collection from Diepkloof Rock Shelter, Western Cape, South Africa[J]. Journal of Archaeological Science, 2013,40(9):3412-3431
[4] Miller JM and Willoughby PR . Radiometrically dated ostrich eggshell beads from the Middle and Later Stone Age of Magubike Rockshelter, southern Tanzania[J]. Journal of Human Evolution, 2014,74:118-122
[5] d’Errico F, Backwell L, Villa P , et al. Early evidence of San material culture represented by organic artifacts from Border Cave, South Africa[J]. Proceedings of the National Academy of Sciences of the United States of America, 2012,109(33):13214-13219
[6] Orton J . Later Stone Age ostrich eggshell bead manufacture in the Northern Cape, South Africa[J]. Journal of Archaeological Science, 2008,35(7):1765-1775
[7] Kandel AW and Conard NJ . Production sequences of ostrich eggshell beads and settlement dynamics in the Geelbek Dunes of the Western Cape, South Africa[J]. Journal of Archaeological Science, 2005,32(12):1711-1721
[8] Kandel AW . Modification of ostrich eggs by carnivores and its bearing on the interpretation of archaeological and paleontological finds[J]. Journal of Archaeological Science, 2004,31:377-391
[9] Hodgson D . Decoding the Blombos Engravings, Shell Beads and Diepkloof Ostrich Eggshell Patterns[J]. Cambridge Archaeological Journal, 2014,24(1):57-69
[10] Henshilwood CS, d’Errico F and Watts I . Engraved ochres from the Middle Stone Age levels at Blombos Cave, South Africa[J]. Journal of Human Evolution, 2009,57(1):27-47
[11] Texier PJ, Porraz G, Parkington J , et al. A Howiesons Poort tradition of engraving ostrich eggshell containers dated to 60,000 years ago at Diepkloof Rock Shelter, South Africa[J]. Proceedings of the National Academy of Sciences of the United States of America, 2010,107(14):6180-6185
[12] Janz L, Feathers JK, Burr GS . Dating surface assemblages using pottery and eggshell: assessing radiocarbon and luminescence techniques in Northeast Asia[J]. Journal of Archaeological Science, 2015,57:119-129
[13] Janz L, Elston RG, Burr GS . Dating North Asian surface assemblages with ostrich eggshell: implications for palaeoecology and extirpation[J]. Journal of Archaeological Science, 2009,36(9):1982-1989
[14] 王春雪, 张乐, 高星 , 等. 水洞沟遗址采集的鸵鸟蛋皮装饰品研究[J]. 科学通报, 2009,54(21):3887-3895
[15] Bird MI, Turney CM, Fifield LK , et al. Radiocarbon dating of organic- and carbonate-carbon in Genyornis and Dromaius eggshell using stepped combustion and stepped acidification[J]. Quaternary Science Reviews, 2003,22(15-17):1805-1812
[16] Henderson Z . A Dated Cache of Ostrich-Eggshell Flasks from Thomas’ Farm, Northern Cape Province, SouthAfrica[J]. The South African Archaeological Bulletin, 2002,57(175):38-40
[17] Vogel JC, Visser E, Fuls A . Suitability of ostrich eggshell for radiocarbon dating[J]. Radiocarbon, 2001,43(1):133-137
[18] Freundlich JC, Kuper R, Breunig P , et al. Radiocarbon Dating of Ostrich Eggshells[J]. Radiocarbon, 1989,31(3):1030-1034
[19] Board RG . Properties of avian egg shells and their adaptive value[J]. Biological Reviews, 1982,57:1-28
[20] Carden N and Martinez G . Fragmented Designs. Social Circulation of Images on Rheidae Eggs in Pampa and Northern Patagonia[J]. Boletin Del Museo Chileno De Arte Precolombino, 2014,19(2):55-75
[21] Janssen JD, Mutch GW, Hayward JL . Taphonomic Effects of High Temperature on Avian Eggshell[J]. Palaios, 2011,26(10):658-664
[22] Lyman RL. Vertebrate Taphonomy[M]. New York: Cambridge University Press, 1994
[23] 盖培, 卫奇 . 虎头梁旧石器时代晚期遗址的发现[J]. 古脊椎动物学报, 1977,15: 57-70, 104-105
[24] 梅惠杰 . 泥河湾盆地旧、新石器时代的过渡——阳原于家沟遗址的发现与研究[M]. 北京大学博士研究生学位论文, 2007
[25] 王晓敏 . 冰消期泥河湾盆地古人类的生存策略:于家沟遗址的动物考古学研究[M]. 中国科学院大学博士研究生学位论文, 2017
[26] Ao H . Mineral-Magnetic Signal of Long-Term Climatic Variation in Pleistocene Fluvio-Lacustrine Sediments, Nihewan Basin (North China)[J]. Journal of Asian Earth Sciences, 2010,39:692-700
[27] Wang XM, Xie F, Mei HJ, Gao X . Intensive exploitation of animal resources during Deglacial times in North China: a case study from the Yujiagou site[J]. Archaeological and Anthropological Sciences, 2019,11(9):4983-5000
[28] Reimer PJ, Bard E, Bayliss A , et al. Intcal 13 and Marine 13 Radiocarbon Age Calibration Curves 0-50,000 Years Cal BP[J]. Radiocarbon, 2013,55:1869-1887
[29] 裴文中 . 周口店山顶洞动物群[M]. 中国古生物志,新丙种,第12号, 1940
[30] Bertram B. The Ostrich Communal Nesting System [M]. Princeton University Press, 1992
[31] Cooper RJ, Horbanczuk JO, Villegas-Vizcaino R , et al. Wild ostrich (Struthio camelus) ecology and physiology[J]. Tropical Animal Health and Production, 2010,42(3):363-373
[32] Serjeantson D. Birds[M]. New York: Cambridge University Press, 2009
[33] Laufer B . Ostrich Eggshell Cups of Mesopotamia and the Ostrich in Ancient and Modern Times[J]. Anthropology Leaflet. 1926,23
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