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Dating and Stable Isotope Analysis of Charred Residues from Neolithic Sites in the Primorye, Russian Far East

Published online by Cambridge University Press:  25 January 2017

Dai Kunikita ,
Alexander N Popov ,
Boris V Lazin ,
Kazuki Morisaki  and
Hiroyuki Matsuzaki
Dai Kunikita*
Affiliation:
Graduate School of Humanities and Sociology, The University of Tokyo, 7-3-1, Hongo, Bunkyo-ku, 113-0033 Tokyo, Japan
Alexander N Popov
Affiliation:
Scientific Museum, Far Eastern Federal University, Sukhanova 8 str., 37, Okeansky Ave.,Vladivostok690950, Russia
Boris V Lazin
Affiliation:
Scientific Museum, Far Eastern Federal University, Sukhanova 8 str., 37, Okeansky Ave.,Vladivostok690950, Russia
Kazuki Morisaki
Affiliation:
Agency for Cultural Affairs, Government of Japan, 3-2-2 Kasumigaseki, Chiyoda-ku, Tokyo 100-8959, Japan
Hiroyuki Matsuzaki
Affiliation:
The University Museum, The University of Tokyo, 7-3-1, Hongo, Bunkyo-ku, 113-0033 Tokyo, Japan
*
*Corresponding author. Email: [email protected].
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Abstract

This study attempts to reconstruct food habits through carbon (C) and nitrogen (N) isotope analysis and C/N analysis of charred residues inside pottery from the Primorye in the Russian Far East (Luzanova Sopka 2, Sergeyevka 1, Boisman 2, and Vetka 2 sites). Dates were obtained that were from the later stages of the Rudnaya culture (6980–6485 BP, 7800–7400 cal BP), proto-Boisman type (6760–6330 BP, 7600–7300 cal BP), Boisman culture (6155–4720 BP, 7100–5400 cal BP), and Vetka culture (6030–5870 BP, 6900–6700 cal BP). There are major differences in the carbon and nitrogen isotope ratios between inland sites (δ13C –26.9 to –30.0‰, δ15N 7.6 to 9.3‰) and coastal sites (δ13C –18.1 to –24.2‰, δ15N 9.5 to 14.9‰). The results show that the diet of inland cultures consisted primarily of freshwater fish and terrestrial animals and plants, whereas that of coastal cultures consisted mainly of marine organisms.

Keywords

radiocarbon datingisotope analysisdietNeolithic
Type
Puzzles in Archaeological Chronologies
Information
Radiocarbon , Volume 59 , Special Issue 2: Proceedings of the 22nd International Radiocarbon Conference (Part 1 of 2) , April 2017 , pp. 565 - 573
Copyright
© 2017 by the Arizona Board of Regents on behalf of the University of Arizona 

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Footnotes

Selected Papers from the 2015 Radiocarbon Conference, Dakar, Senegal, 16–20 November 2015

References

REFERENCES

Batarshev, SV, Popov, AN. 2008. Sergeyevka-1: Neolithic site in the Khanka plain, and the typology of Middle Neolithic sites in Primoyre. Archaeology Ethnology and Anthropology of Eurasia 35(3):213.CrossRefGoogle Scholar
Craig, OE, Saul, H, Lucquin, A, Nishida, Y, Tache, K, Clarke, L, Thompson, A, Altoft, DT, Uchiyama, J, Ajimoto, M, Gibbs, K, Isaksson, S, Heron, CP, Jordan, P. 2013. Earliest evidence for the use of pottery. Nature 496(7445):351354.CrossRefGoogle ScholarPubMed
Heron, C, Craig, OE. 2015. Aquatic resources in foodcrusts: identification and implication. Radiocarbon 57(4):707719.CrossRefGoogle Scholar
Kunikita, D, Yoshida, K, Miyazaki, Y, Matsuzaki, H. 2006. Hokkaido ni okeru dokifutyakubutsu to mokutan no nendaisa. [Difference between radiocarbon ages of charcoal and charred remains on pottery in the Hokkaido island, Japan.] Proceedings of the 9th Symposium of Japanese AMS Society. Tokyo: The University of Tokyo. p 41–6. In Japanese with English abstract.Google Scholar
Kunikita, D, Yoshida, K, Miyazaki, Y, Saito, K, Endo, A, Matsuzaki, H, Ito, S, Kobayashi, T, Fujimoto, T, Kuznetsov, AM, Krupyanko, AA, Tabarev, AM. 2007. Analysis of radiocarbon dates of an archaeological site in the Russian Far East: the marine reservoir effect as seen on charred remains on pottery. Nuclear Instruments and Methods in Physics Research B 259(1):467473.CrossRefGoogle Scholar
Kunikita, D, Shevkomud, IY, Yoshida, K. 2011. Amuru karyuiki ni okeru shinsekkibunka hensen no nendaikenkyu to syokuseibunseki. [A study on the periods of Neolithic cultural transition and an analysis of food habits in the lower reaches of the Amur River.] In: A Study on the Formation and Transformation Process of Sedentary Food Gathering Society in Northeast Asia. Tokyo: The University of Tokyo. p 201236. In Japanese with English summary.Google Scholar
Kunikita, D, Shevkomud, I, Yoshida, K, Onuki, S, Yamahara, T, Matsuzaki, H. 2013. Dating charred remains on pottery and analyzing food habits in the Early Neolithic period in northeast Asia. Radiocarbon 55(2–3):13341340.CrossRefGoogle Scholar
Kuzmin, YV. 2006. Palaeoenvironment and chronology. In:. Archaeology of the Russian Far East: Essays in Stone Age Prehistory. BAR International series 1540. Oxford: Archaeopress. p 1340.Google Scholar
Kuzmin, YV. 2012. Radiocarbon chronology for prehistoric complexes of the Russian Far East: 15 years later. Radiocarbon 54(3–4):727736.CrossRefGoogle Scholar
Kuzmin, YV, Jull, AJT, Orlova, LA, Sulerzhitsky, LD. 1998. 14C chronology of Stone Age cultures in the Russian Far East. Radiocarbon 40(2):675686.CrossRefGoogle Scholar
Kuzmin, YV, Burr, GS, Jull, AJT. 2001. Radiocarbon reservoir correction ages in the Peter the Great Gulf, Sea of Japan, and eastern coast of the Kunashir, southern Kuriles (northwestern Pacific). Radiocarbon 43(2A):477481.CrossRefGoogle Scholar
Kuzmin, YV, Richards, MP, Yoneda, M. 2002. Palaeodietary patterning and radiocarbon dating of Neolithic populations in the Primorye Province, Russian Far East. Ancient Biomolecules 4(2):5358.CrossRefGoogle Scholar
Kuzmin, YV, Vasilevski, AA, Gorbunov, SV, Burr, GS, Jull, AJT, Orlova, LA, Shubina, OA. 2004. Chronology of prehistoric cultural complexes of Sakhalin Island (Russian Far East). Radiocarbon 46(1):353362.CrossRefGoogle Scholar
Kuzmin, YV, Burr, GS, Gorbunov, SV, Rakov, VA, Razjigaeva, NG. 2007. A tale of two seas: reservoir age correction values (R, ΔR) for the Sakhalin Island (Sea of Japan and Okhotsk Sea). Nuclear Instruments and Methods in Physics Research B 259:460462.CrossRefGoogle Scholar
Lucquin, A, Gibbs, K, Uchiyama, J, Saul, H, Ajimoto, M, Eley, Y, Radini, A, Heron, CP, Shoda, S, Nishida, Y, Lundy, J, Jordan, P, Isaksson, S, Craig, O. 2016. Ancient lipids document continuity in the use of early hunter-gatherer pottery through 9,000 years of Japanese prehistory. Proceedings of the National Academy of Sciences of the United States of America 113(15):39913996.CrossRefGoogle Scholar
Moreva, OL. 2005. Keramika Boismanskoi Kultury (po Materialam Pamyatnika Boismana-2). [The pottery of Boisman culture (based on materials from the Boisman 2 site)]. Synopsis of the Candidate of Historical Sciences Dissertation. Vladivostok: Dalevostochny Gosudarstvenny Universitet. 25 p. In Russian.Google Scholar
Morisaki, K, Sato, H. 2015. Hunter-gatherer responses to abrupt environmental change from the terminal Pleistocene to the Early Holocene in the Lower Amur region. In: Sázelová S, Novák M, Mizerová A, editors. Forgotten Times and Spaces: New Perspectives in Paleoanthropological, Paleoetnological and Archeological Studies. Institute of Archeology of the Czech Academy of Sciences: Masaryk University, Brno. p 418434.CrossRefGoogle Scholar
Popov, AN. 2008. Burial assemblages of Boisman-2—a stratified site in Southern Primorye. Archaeology Ethnology and Anthropology of Eurasia 34(2):6876.CrossRefGoogle Scholar
Shevkomud, IY, Kuzmin, YV. 2009. Khronologiya kamennogo veka Nizhnego Priamurya (Dalny Vostok Rossii). [Chronology of the Stone Age of Lower Amur River basin (Russian Far East)]. In: Shevkomud IY, editor. Kulturnaya Khronologiya i Drugie Problemy v Issledovaniyakh Drevnostei Vostoka Azii. Khabarovsk: Khabarovsk Kraevoi Muzei. p 746. In Russian.Google Scholar
Yoshida, K, Nishida, Y. 2009. Koukokagaku ga saguru kaendoki. [Study of Kaen pottery by archaeological science.] In: Country of ‘Kaen pottery.’ Niigata: Niigata Prefectural Museum of History. p 8799. In Japanese.Google Scholar
Yoshida, K, Ohmichi, J, Kinose, M, Iijima, H, Oono, A, Abe, N, Miyazaki, Y, Matsuzaki, H. 2004. The application of 14C dating to potsherds of the Jomon period. Nuclear Instruments and Methods in Physics Research B 223–224:716722.CrossRefGoogle Scholar
Yoshida, K, Kunikita, D, Miyazaki, Y, Nishida, Y, Miyao, T, Matsuzaki, H. 2013. Dating and stable isotope analysis of charred residues on the Incipient Jomon Pottery (Japan). Radiocarbon 55(2–3):13221333.CrossRefGoogle Scholar