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A Dietary Study of the Kamegaoka Culture Population during the Final Jomon Period, Japan, Using Stable Isotope and Lipid Analyses of Ceramic Residues

Published online by Cambridge University Press:  23 February 2016

Akiko Horiuchi ,
Yoshiki Miyata ,
Nobuhiko Kamijo ,
Lucy Cramp  and
Richard P Evershed
Akiko Horiuchi*
Affiliation:
The Graduate School, Division of Natural Sciences, International Christian University, Tokyo 181-8585, Japan
Yoshiki Miyata
Affiliation:
Low Level Radioactivity Laboratory, Institute of Nature and Environmental Technology, Kanazawa University, Ishikawa 923-1224, Japan
Nobuhiko Kamijo
Affiliation:
Archaeology Laboratory, Faculty of Humanity, Hirosaki University, Aomori 036-8560, Japan
Lucy Cramp
Affiliation:
Department of Chemistry, University of Bristol, Bristol BS8 1TS, United Kingdom
Richard P Evershed
Affiliation:
Department of Chemistry, University of Bristol, Bristol BS8 1TS, United Kingdom
*
2Corresponding author. Email: horiuchi@icu.ac.jp.
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Abstract

The Jomon culture is an ancient Japanese society that existed during approximately 14,000 to 400 BC and which is characterized by Jomon (cord pattern) pottery. To investigate the paleodiet of the people of northeastern Tohoku in Japan during the Final Jomon period (about 1000–400 BC), we studied three sites in Aomori Prefecture, the center of the Kamegaoka culture. The Fubinashi site is on the coast and was supported by a rich fishing culture. Imazu was a coastal salt-making site. Sugisawa is a mountainous inland site on the banks of a river. We determined the 14C ages of the interior and exterior surfaces of carbonized material on potsherds and compared the data with pottery typology and age to study the marine reservoir effect. We also analyzed the bulk carbon and nitrogen stable isotopes and C:N ratios to determine the presence of aquatic foodstuffs. The organic residues from pottery typology corresponding to the described analyses provided a general perspective of differences in the ancient diets at each site. When we recovered sufficient lipids, we analyzed compound-specific stable isotopes of fatty acids to obtain a multilateral view of those diets. Our findings indicate that the diets of inhabitants of both Fubinashi and Imazu consisted primarily of marine products and some terrestrial foodstuffs, whereas people from Sugisawa processed mainly C3 plants and some terrestrial animals and aquatic commodities.

Type
Articles
Information
Radiocarbon , Volume 57 , Issue 4 , 2015 , pp. 721 - 736
Copyright
Copyright © 2015 by the Arizona Board of Regents on behalf of the University of Arizona 

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References

REFERENCES

Bush, RT, McInerney, FA. 2013. Leaf wax n-alkane distributions in and across modern plants: implications for paleoecology and chemotaxonomy. Geochimica et Cosmochimica Acta 117:161–79.Google Scholar
Copley, MS, Hansel, FA, Sadr, K, Evershed, RP. 2004. Organic residue evidence for the processing of marine animal products in pottery vessels from the pre-colonial archaeological site of Kasteelberg D east, South Africa. South African Journal of Science 100:279–83.Google Scholar
Craig, OE, Forster, M, Andersen, H, Koch, E, Crombé, P, Milner, NJ, Stern, B, Heron, CP. 2007. Molecular and isotopic demonstration of the processing of aquatic products in the northern European prehistoric pottery. Archaeometry 49(1):135–52.Google Scholar
Craig, OE, Saul, H, Lucquin, A, Nishida, Y, Taché, 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):351–4.Google Scholar
Cramp, L, Evershed, RP. 2014. Reconstructing aquatic resource exploitation in human prehistory using lipid biomarkers and stable isotopes. In: Holland, K, Turekian, K, editors. Treatise on Geochemistry. 2nd edition. Volume 14, Archaeology and Anthropology. Amsterdam: Elsevier. p 319–39.Google Scholar
Evershed, RP. 2008a. Experimental approaches to the interpretation of absorbed organic residues in archaeological ceramics. World Archaeology 40(1):2647.Google Scholar
Evershed, RP. 2008b. Organic residue analysis in archaeology: the archaeological biomarker revolution. Archaeometry 50(6):895924.Google Scholar
Evershed, RP, Heron, C, Goad, LJ. 1990. Analysis of organic residues of archaeological origin by high-temperature gas chromatography and gas chromatography mass spectrometry. Analyst 115(10):1339–42.Google Scholar
Evershed, RP, Copley, MS, Dickson, L, Hansel, FA. 2008. Experimental evidence for the processing of marine animal products and other commodities containing polyunsaturated fatty acids in pottery vessels. Archaeometry 50(1):101–13.CrossRefGoogle Scholar
Fujinuma, K, Sekine, T, Tsutagawa, T, Mukaide, H, Komukai, R, Fukami, R, Yokoyama, H. 2005. Aomori-ken Higashitsugaru-gun Hiradate-mura Imazu iseki hakkutsu chousa houkokusyo: Tsugaru hanto higashi enganbu niokeru Kamegaoka bunka no iseki (Excavation Report of Imazu Site, Aomori-ken Tsugaru-gun Hiradate-mura: An archaeological site of Kamegaoka Culture on the eastern coast of Tsugaru Peninsula). Japanese Archaeology Department Research Report 2. School of Humanities, Hirosaki University. 273 p. In Japanese.Google Scholar
Fujinuma, K, Akiyama, S, Akasaka, T, Miyamoto, A. 2008. Aomori-ken Sannohe-gun Sannohe-cho Sugisawa iseki hakkutsu chousa houkokusyo: Mabuchi gawa ryuiki ni okeru Kamegaoka bunka no iseki (Aomori-ken Sannohe-gun Sannohe-cho Sugisawa Site Excavation Research Paper: The archaeological sites of Kamagaoka culture on the watershed of Mabuchi River). Japanese Archaeology Department Research Report 6. The Research Center for Kamegaoka Culture, School of Humanities, Hirosaki University. 200 p. In Japanese.Google Scholar
Fujio, S. 2007. The trial of the wiggle matching based on the type of Yayoi pottery. Bulletin of the National Museum of Japanese History 137:157–85. In Japanese with English abstract.Google Scholar
Fujio, S. 2009. The corpus research about the settlement in Jomon and Yayoi period: details of the research, the results and issues. Bulletin of the National Museum of Japanese History 149:130. In Japanese with English abstract.Google Scholar
Fukuda, T. 2014. Tsugaru Kaikyo iki no senshi bunka kenkyu (A Study of Prehistoric Culture of Tsugaru Channel Area). Rokuichi Syobo. 344 p. In Japanese.Google Scholar
Hachinohe Fishery Office. 2014. Prefectural Agency (Japan): Agriculture Forestry and Fisheries Department [accessed 27 December 2014]. Available from http://www.applenet.jp/~sanhachi-nousui/suisan/suisann.htm. In Japanese.Google Scholar
Hansel, FA, Evershed, RP. 2009. Formation of dihydroxy acids from Z-monounsaturated alkenoic acids and their use as biomarkers for the processing of marine commodities in archaeological pottery vessels. Tetrahedron Letters 50(40):5562–4.Google Scholar
Hansel, FA, Copley, MS, Madureira, LAS, Evershed, RP. 2004. Thermally produced ω-(o-alkylphenyl)alkanoic acids provide evidence for the processing of marine products in archaeological pottery vessels. Tetrahedron Letters 45(14):29993002.Google Scholar
Heron, C, Evershed, RP. 1993. The analysis of organic residues and the study of pottery use. Archaeological Method and Theory 5:247–84.Google Scholar
Imamura, M. 2007. On the radiocarbon calibration program RHC3.2. Bulletin of the National Museum of Japanese History 137:7988. In Japanese with English abstract.Google Scholar
Imamura, M, Kobayashi, K, Sakamoto, M, Nishimoto, T. 2001. Study on Jomon chronology by comparison of multiple AMS radiocarbon dates with pottery-type series: a case study of Kanto region, Japan. Archives of Natural Sciences 45:118. In Japanese with English abstract.Google Scholar
Issar, AS. 2003. International Hydrology Series: Climate Changes during the Holocene and their Impact on Hydrological Systems. Cambridge: Cambridge University Press. 127 p.Google Scholar
Kobayashi, K. 2004. New Perspective of Study on Jomon Society: Applied Radiocarbon Dating to Archaeology Methodology. Tokyo: Rokuichi Syobou. In Japanese with English abstract.Google Scholar
Kobayashi, K. 2006. Radiocarbon dating for archaeological studies of the Jomon period. Bulletin of the National Museum of Japanese History 133:5170. In Japanese with English abstract.Google Scholar
Kobayashi, K. 2008. Nendai sokutei, Jomon jidai no rekinendai (Dating: The calendar age of Jomon Period). In: Kosugi, Y, Taniguchi, Y, Nishida, Y, Mizunoe, K, Yano, K, editors. Jomon jidai no kokogaku (Archaeology of Jomon period). Volume 2. Rekishi no monosashi: Jomon jidaikenkyu no hennen taikei (The scale of history: the study of Jomon era chronology). Tokyo: Doseisya. 282 p. In Japanese.Google Scholar
Kobayashi, K, Imamura, M, Sakamoto, M, Nishimoto, T, Shitara, H, Kobayashi, S, Matsuzaki, H. 2005. 14C age determination of Final Jomon Period, Eastern Japan [abstract]. 22nd meeting of Japan Society for Scientific Studies on Cultural Properties; 9–10 July 2015. Sapporo: Japan Society for Scientific Studies on Cultural Properties. p 45. In Japanese.Google Scholar
Koyama, S, Sugito, S. 1984. A study of Jomon population-computer simulation analysis. Bulletin of the National Museum of Ethnology 9(5):139. In Japanese with English abstract.Google Scholar
Miyata, Y, Horiuchi, A, Paleo Labo AMS Dating Group, Nishimoto T. 2009. Traces of sea mammals on pottery from the Hamanaka 2 archaeological site, Rebun Island, Japan: implications from sterol analysis, stable isotopes, and radiocarbon dating. Researches in Organic Geochemistry 25:1527.Google Scholar
Miyata, Y, Minami, M, Onbe, S, Sakamoto, M, Matsuzaki, H, Nakamura, T, Imamura, M. 2011. Difference in radiocarbon ages of carbonized material from the inner and outer surfaces of pottery from a wetland archaeological site. Proceedings of the Japan Academy Series B 87(8):518–28.Google Scholar
Obayashi, T. 1985. Depopulation and ambilocal residence: problems in the application of cross-cultural studies to the reconstruction of Jomon Society. Bulletin of the Department of Archaeology, the University of Tokyo 4(10):7592. In Japanese with English abstract.Google Scholar
Reimer, PJ, Bard, E, Bayliss, A, Beck, JW, Blackwell, PG, Bronk Ramsey, C, Buck, CE, Cheng, H, Edwards, RL, Friedrich, M, Grootes, PM, Guilderson, TP, Haflidason, H, Hajdas, I, Hatté, C, Heaton, TJ, Hoffmann, DL, Hogg, AG, Hughen, KA, Kaiser, KF, Kromer, B, Manning, SW, Niu, M, Reimer, RW, Richards, DA, Scott, EM, Southon, JR, Staff, RA, Turney, CSM, van der Plicht, J. 2013. IntCal13 and Marine13 radiocarbon age calibration curves 0–50,000 years cal BP. Radiocarbon 55(4):1869–87.Google Scholar
Sakamoto, M. 2007. Characterization of charred materials on potsherds by means of stable isotope analysis. Bulletin of the National Museum of Japanese History 137:305–15. In Japanese with English abstract.Google Scholar
Sekine, T, Kamijo, N. 2009. Fubinashi iseki (The Fubinashi site). The Research Center for Kamegaoka Culture, School of Humanities, Hirosaki University. 15 p. In Japanese.Google Scholar
Sekine, T, Kamijo, N. 2012. Shimokita hanto niokeru Kamegaoka bunka no kenkyu, Aomori-ken Mutsu-shi, Fubinashi iseki hakkutsu chousa houkokusyo (Aomori-ken Mutsu-shi Fubinashi Site excavation research report, a research of Kamegaoka culture of Shimokita Peninsula). Japanese Archaeology Department Research Report. School of Humanities, Hirosaki University 8:44–5. In Japanese.Google Scholar
Toizumi, T. 1999. Doubutsu itai karamita kankyo, seigyou, syokuseikatsu: Sannai Maruyama Iseki nimiru hitoto shizen no kankeishi (The study of environment, vocation and diet from animal remains: relationship between men and nature in Sannai-Maruyama Site). In: Syoku no fukugen (Reconstruction of Diet). Yamanashi Research Institute of Cultural Properties, Teikyo University. 234 p. In Japanese.Google Scholar
Yamamoto, N. 2010. Climate changes and earthenware-type changes in the Final Jomon Period. The Journal of the Faculty of Letters. History, Nagoya University 56:5967. In Japanese with English abstract.Google Scholar
Yoneda, M. 2004. Tanso chisso doitai niyoru kosyokusei fukugen (Reconstruction of paleodiet from carbon and nitrogen isotopes). In: Yasuda, K, editor. Kankyou koukogaku handobukku (Environmental Archaeology Handbook). Tokyo: Asakura shoten. p 411–8. In Japanese.Google Scholar
Yoneda, M, Suzuki, R, Shibata, Y, Morita, M, Sukegawa, T, Shigehara, N, Akazawa, T. 2004. Isotopic evidence of inland-fishing by a Jomon population excavated from the Boji site, Nagano, Japan. Journal of Archaeological Science 31(1):97107.Google Scholar