Stable isotope analysis of human remains from the Songzhuang Eastern Zhou Cemetery in Qixian, Henan Province: An investigation on the diet of nobles and human sacrifices
Received date: 2018-09-10
Revised date: 2018-11-29
Online published: 2021-02-25
This is the first study focusing on human diet of people from different social status during the highly stratified Eastern Zhou Dynasty. Stable carbon and nitrogen isotopic values of two nobles and twenty-four human sacrifices from the Songzhuang cemetery revealed significant differences in staple food and meat consumption between these two groups. The nobles had a millet-based diet, and ate significantly more meat than sacrificed individuals; whereas the sacrificial victims consumed varying amounts of wheat as their staple, with some dietary variation. A comparison with contemporary isotopic data also suggests that these human sacrifices had a similar diet with urban commoners, suggesting that when alive they might have lived in cities with their masters. This work has revealed dietary features of human sacrifices, people who were often ignored by textual records. These results also confirm that wheat was mainly eaten by low-status individuals during the Eastern Zhou, providing important information for the study on human diet and social stratification in this period, as well as the investigation of agriculture and the expansion of wheat in northern China.
Ligang ZHOU , Zhaohui HAN , Lei SUN , Guoqiang HU . Stable isotope analysis of human remains from the Songzhuang Eastern Zhou Cemetery in Qixian, Henan Province: An investigation on the diet of nobles and human sacrifices[J]. Acta Anthropologica Sinica, 2021 , 40(01) : 63 -74 . DOI: 10.16359/j.cnki.cn11-1963/q.2019.0017
| [1] | 张雪莲, 李新伟. 西坡墓地再讨论[J]. 中原文物, 2014(4): 18-31 |
| [2] | 张雪莲, 仇士华, 钟建, 等. 山东滕州市前掌大墓地出土人骨的碳、氮稳定同位素分析[J]. 考古, 2012 (9): 83-96 |
| [3] | Zhou LG, Garvie-Lok SJ, Fan WQ, et al. Human diets during the social transition from territorial states to empire: Stable isotope analysis of human and animal remains from 770 BC to 220 AD on the Central Plains of China[J]. Journal of Archaeological Science: Reports, 2017(11): 211-223 |
| [4] | Falkenhausen L. Chinese Society in the Age of Confucius (1000-250 BC): The Archaeological Evidence[M]. Los Angeles: Cotsen Institute of Archaeology, University of California, 2006: 98-111 |
| [5] | Chang KC. Food in Chinese Culture: Antropological and Historical Perspectives[C]. New Haven and London: Yale University Press, 1977: 25-52 |
| [6] | 许倬云. 周代的衣食住行[A].见:许倬云著. 求古编[M]. 台北: 联经出版事业公司, 1984: 231-282 |
| [7] | Knechtges DR. A Literary Feast: Food in Early Chinese Literature[J]. Journal of the American Oriental Society, 1986, 106(1): 49-63 |
| [8] | Knechtges DR. Gradually Entering the Realm of Delight: Food and Drink in Early Medieval China[J]. Journal of the American Oriental Society, 1997, 117(2): 229-239 |
| [9] | 杨伯峻. 春秋左专注[M]. 北京:中华书局, 1981: 182 |
| [10] | 刘道锋. 《诗经》中的农作物、野菜、野果与古人的饮食生活[J]. 农业考古, 2008(6): 25-27 |
| [11] | Hsu C. Ancient China in Transition: An Analysis of Social Mobility, 722-222BC[M]. Stanford: Stanford University press, 1965: 2-14 |
| [12] | Dong Y, Morgan C, Chinenov Y, et al. Shifting diets and the rise of male-biased inequality on the Central Plains of China during Eastern Zhou[J]. Proceedings of the National Academy of Sciences of the United States of America, 2017, 114(5): 932-937 |
| [13] | 张全超, 周蜜, 朱俊英. 湖北青龙泉遗址东周时期墓葬出土人骨的稳定同位素分析[J]. 江汉考古, 2012 (2): 93-97 |
| [14] | Hou L, Wang N, Lyu P, et al. Transition of Human Diets and Agricultural Economy in Shenmingpu Site, Henan, from the Warring States to Han Dynasties[J]. Science China Earth Sciences, 2012, 55(6): 975-982 |
| [15] | Wang F, Song YB, Li BS, et al. C and N Stable Isotope Analysis of Human and Animal Bones at the Beiqian Site[J]. Science China Earth Sciences, 2014, 57(3): 408-414 |
| [16] | DeNiro MJ, Epstein S. You are what you eat (plus a few‰): the carbon isotope cycle in food chains[J]. Geological Society of America Abstracts with Programs, 1976 (8): 834-835 |
| [17] | Kohn MJ. You Are What You Eat[J]. Science, 1999, 283(5400): 335-336 |
| [18] | Lee-Thorp JA. On isotopes and old bones[J]. Archaeometry, 2008, 50(6): 925-950 |
| [19] | 蔡莲珍, 仇士华. 碳十三测定和古代食谱研究[J]. 考古, 1984(10): 949-955 |
| [20] | 张雪莲. 碳十三和氮十五分析与古代人类食物结构研究及其新进展[J]. 考古, 2006 (7): 50-56 |
| [21] | Smith BN, Epstein S. Two categories of 13C/12C ratios for higher plants[J]. Plant physiology, 1971, 47(3): 380-384 |
| [22] | Vogel JC. Fractionation of the carbon isotopes during photosynother[Z]. Springer Berlin Heidelberg, 1980: 5-29 |
| [23] | Vogel JC, van der Merwe NJ. Isotopic evidence for early maize cultivation in New York State[J]. American Antiquity, 1977, 42(2): 238-242 |
| [24] | DeNiro MJ, Epstein S. Influence of diet on the distribution of carbon isotopes in animals[J]. Geochimica et Cosmochimica Acta, 1978, 42(5): 495-506 |
| [25] | Ambrose SH, Norr L. Experimental Evidence for the Relationship of the Carbon Isotope Ratios of Whole Diet and Dietary Protein to Those of Bone Collagen and Carbonate[A]. In: Joseph B. Lambert, Gisela Grupe. Prehistoric Human Bone[C]. Berlin Heidelberg: Springer, 1993: 1-37 |
| [26] | Zhou LG, Garvie-Lok SJ. Isotopic evidence for the expansion of wheat consumption in northern China[J]. Archaeological Research in Asia, 2015, (4): 25-35 |
| [27] | DeNiro MJ, Epstein S. Influence of diet on the distribution of nitrogen isotopes in animals[J]. Geochimica et Cosmochimica Acta, 1981, 45(3): 341-351 |
| [28] | Schoeninger MJ, DeNiro MJ. Nitrogen and carbon isotopic composition of bone collagen from marine and terrestrial animals[J]. Geochimica et Cosmochimica Acta, 1984, 48(4): 625-639 |
| [29] | Sealy J, van der Merwe NJ, Lee-Thorp JA, et al. Nitrogen isotopic ecology in southern Africa: Implications for environmental and dietary tracing[J]. Geochimica et Cosmochimica Acta, 1987, 51(10): 2707-2717 |
| [30] | 河南省文物考古研究院. 河南淇县宋庄东周墓地M4发掘简报[J]. 华夏考古, 2015(4): 3-11 |
| [31] | Zhou LG, Hou YF, Wang J, et al. Animal husbandry strategies in Eastern Zhou China: An isotopic study on faunal remains from the Central Plains[J]. International Journal of Osteoarchaeology, 2018, 28(3): 354-363 |
| [32] | Sealy J, Johnson M, Richards MP, et al. Comparison of two methods of extracting bone collagen for stable carbon and nitrogen isotope analysis: comparing whole bone demineralization with gelatinization and ultrafiltration[J]. Journal of Archaeological Science, 2014(47): 64-69 |
| [33] | DeNiro MJ. Postmortem preservation and alteration of in vivo bone collagen isotope ratios in relation to palaeodietary reconstruction[J]. Nature, 1985, 317(6040): 806-809 |
| [34] | Ambrose SH. Preparation and characterization of bone and tooth collagen for isotopic analysis[J]. Journal of archaeological science, 1990, 17(4): 431-451 |
| [35] | Ambrose SH, Butler BM, Hanson DB, et al. Stable isotopic analysis of human diet in the Marianas Archipelago, Western Pacific[J]. American Journal of Physical Anthropology, 1997, 104(3): 343-361 |
| [36] | Weber AW, White D, Bazaliiskii VI, et al. Hunter-gatherer foraging ranges, migrations, and travel in the middle Holocene Baikal region of Siberia: Insights from carbon and nitrogen stable isotope signatures[J]. Journal of Anthropological Archaeology, 2011, 30(4): 523-548 |
| [37] | Fenner JN, Tumen D, Khatanbaatar D. Food fit for a Khan: Stable isotope analysis of the elite Mongol Empire cemetery at Tavan Tolgoi, Mongolia[J]. Journal of Archaeological Science, 2014(46): 231-244 |
| [38] | 周立刚. 信阳城阳城等地东周贵族人骨稳定同位素分析[J]. 华夏考古, 2020(5): 60-65 |
| [39] | 马方青. 山东邹城邾国故城(2015)东周至西汉植物考古观察[D]. 山东大学硕士论文, 2017: 11 |
| [40] | 钱穆. 中国古代北方农作物考[A]. 见:钱穆.中国学术思想史论丛(第一卷)[C].北京:三联书店, 2009: 1-35 |
| [41] | 安成邦, 吉笃学, 董广辉, 等. 碳同位素在史前粟黍鉴定中的应用初探[J]. 第四纪研究, 2010, 30(2): 410-414 |
| [42] | 靳桂云. 中国早期小麦的考古发现与研究[J]. 农业考古, 2007(4): 11-20 |
| [43] | 曾雄生. 论小麦在古代中国之扩张[J]. 中国饮食文化, 2005, 1(1): 99-133 |
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