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Cutting a Gordian Knot: the Bronze Age of Southeast Asia: origins, timing and impact

Published online by Cambridge University Press:  02 January 2015

Charles Higham
Affiliation:
Department of Anthropology, University of Otago, P.O. Box 56, Dunedin, New Zealand (Email: [email protected])
Thomas Higham
Affiliation:
Oxford Radiocarbon Accelerator Unit, Research Laboratory of Archaeology and the History of Art, Dyson Perrins Building, University of Oxford, OX1 3QY, UK (Email: [email protected])
Amphan Kijngam
Affiliation:
Archaeology Division, Fine Arts Department, Sri Ayutthaya Road, Bangkok, Thailand (Email: [email protected])

Extract

Two conflicting theories put the introduction of bronze into Southeast Asia 1000 years apart, one (before China) at 2000 BC, the other at 1000 BC. Both were drawn from radiocarbon dates, the first of pottery, the second of bone. The authors cut the Gordian Knot by showing the earlier dates to be unreliable — but their study has implications way beyond Thailand. The direct dating of pottery, it seems, is full of pitfalls…

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Copyright
Copyright © Antiquity Publications Ltd 2011

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References

Bayliss, A. C., Bronk Ramsey, C., Van Der Plicht, J. & Whittle, A. 2007. Bradshaw and Bayes: towards a timetable for the Neolithic. Cambridge Archaeological Journal 17(1) (Supplement): 128.CrossRefGoogle Scholar
Berstan, R., Stott, A. W., Minnit, S., Bronk Ramsey, C., Hedges, R.E.M. & Evershed, R. P. 2008. Direct dating of pottery from its organic residues: new precision using compound-specific carbon isotopes. Antiquity 82:702–13.CrossRefGoogle Scholar
Bonsall, C., Cook, G., Manson, J. & Anderson, D. 2002. Direct dating of Neolithic pottery: progress and prospects. Documenta Praehistorica 29:4759.CrossRefGoogle Scholar
Brock, F., Higham, T. F.G. & Bronk Ramsey, C. 2010. Pre-screening techniques for identification of samples suitable for radiocarbon dating of poorly preserved bones. Journal of Archaeological Science 37(4): 855–65.CrossRefGoogle Scholar
Bronk Ramsey, C. 2009. Bayesian analysis of radiocarbon dates. Radiocarbon 51:337–60.CrossRefGoogle Scholar
Bronk Ramsey, C., Higham, T. F.G., Bowles, A. & Hedges, R. 2004. Improvements to the pretreatment of bone at Oxford. Radiocarbon 46(1): 155–63.CrossRefGoogle Scholar
Chernykh, E. N. 1992. Ancient metallurgy in the USSR. Cambridge: Cambridge University Press.Google Scholar
Chiou-Peng, T. 2009. Incipient metallurgy in Yunnan: new data for old debates, in Mei, J. & Rehren, Th. (ed.) Metalllurgy and civilization: Eurasia and beyond: 7984. London: Archetype.Google Scholar
Ciarla, R. 2007. Rethinking Yuanglongpo. The case for technological links between Lingnan (PRC) and central Thailand during the Bronze Age. East and West 57:123.Google Scholar
De Atley, S.P. 1980. Radiocarbon dating of ceramic materials: progress and prospects. Radiocarbon 22(3): 987–93.CrossRefGoogle Scholar
Eyre, C. 2006. Prehistoric and proto-historic communities in the eastern Upper Chao Phraya river valley, Thailand: analysis of site chronology, settlement patterns, and land use. Unpublished PhD dissertation, University of Pennsylvania.Google Scholar
Fuller, D., Qin, L., Zheng, Y., Zhao, Z., Chen, X., Hosoya, L. A. & Sun, G. P. 2009. The domestication process and domestication rate in rice: spikelet bases from the Lower Yangtze. Science 323:16071610.CrossRefGoogle ScholarPubMed
Glusker, D. & White, J. 1997. Comment. Archaeometry 39:259–60.Google Scholar
Gorodtsov, V. A. 1916. Kultury bonzovoi epokhi v Srednei Rossii, in Otchety Istoricheskogo muzeya za 1916 g. Moscow.Google Scholar
Hanks, B. K., Epimakhov, A. V. & Renfrew, A. C. 2007. Towards a refined chronology for the Bronze Age of the southern Urals, Russia. Antiquity 81:353–67.CrossRefGoogle Scholar
Hedges, R.E.M., Tiemei, C. & Housley, R. A. 1992. Results and methods in the radiocarbon dating of pottery. Radiocarbon 34(3): 906915.CrossRefGoogle Scholar
Hedges, R.E.M., Pettitt, P. B., Bronk Ramsey, C. & Van Klinken, G. J. 1997. Radiocarbon dates from the Oxford AMS system: Archaeometry datelist 23. Archaeometry 39:247–62.CrossRefGoogle Scholar
Higham, C.F.W. 1996. The Bronze Age of Southeast Asia. Cambridge: Cambridge University Press.Google Scholar
Higham, C.F.W. 2008. Recasting Thailand: new discoveries at Ban Non Wat. Current World Archaeology 31:3841.Google Scholar
Higham, C.F.W. & Higham, T.F.G. 2009. A new chronological framework for prehistoric Southeast Asia, based on a Bayesian model from Ban Non Wat. Antiquity 82:125–44.CrossRefGoogle Scholar
Higham, C.F.W. & Kijngam, A. 2009. The origins of the civilization of Angkor, Volume 3. The excavation of Ban Non Wat: introduction. Bangkok: Fine Arts Department.Google Scholar
Higham, T.F.G., Jacobi, R. M. & Bronk Ramsey, C. 2006. AMS radiocarbon dating of ancient bone using ultrafiltration. Radiocarbon 48(2): 179–95.CrossRefGoogle Scholar
Kuzmin, Y. V. 2002. The earliest centers of pottery origin in the Russian Far East and Siberia: review of chronology for the oldest Neolithic cultures. Documenta Praehistorica 29:3746.CrossRefGoogle Scholar
Kuzmin, Y. V., Hall, S., Tite, M. S., Bailey, R., O'Malley, J. M. & Medvedev, V. E. 2001. Radiocarbon and thermoluminescence dating of the pottery from the early Neolithic site of Gasya (Russian Far East): initial results. Quaternary Science Reviews 20:945–48.CrossRefGoogle Scholar
Linduff, K.M & Mei, J. 2009. Metallurgy in eastern Eurasia: retrospect and prospects. Journal of World Prehistory 22:265–81.CrossRefGoogle Scholar
Manning, K., Pelling, R., Higham, T.F.G., Schwenniger, J.-L. & Fuller, D. Q. 2011. 4500-year-old Domesticated Pearl Millet (Pennisetum glaucum) from the Tilemsi Valley, Mali: new insights into an alternative cereal domestication pathway in Africa: Journal of Archaeological Science 38:312322.CrossRefGoogle Scholar
Masanari, N. & Nguyen, K.D. 2002. Excavation of An Son: a Neolithic mound site in the middle reach of the Vam Co Dong river, southern Vietnam. Bulletin of the Indo-Pacific Prehistory Association 22:101109.Google Scholar
Mei, J. 2003. Cultural interaction between China and Central Asia during the Bronze Age. Proceedings of the British Academy 121:139.Google Scholar
Movius, H. L. 1960. Radiocarbon dates and Upper Palaeolithic archaeology in Central and Western Europe. Current Anthropology 1:355–91.CrossRefGoogle Scholar
Mulholland, S. C. & Prior, C. 1993. AMS radiocarbon dating of phytoliths, in Pearsall, D. M. & Piperno, D. R. (ed.) Current research in phytolith analysis: applications in archaeology and paleoecology (MASCA Research Papers in Science and Archaeology 10): 2123. Philadelphia (PA): The University Museum of Archaeology and Anthropology, University of Pennsylvania.Google Scholar
Pietrusewsky, M. & Douglas, M.T. 2002. Ban Chiang, a prehistoric village site in northeast Thailand I: the human skeletal remains. Philadelphia (PA): The Museum of Archaeology and Anthropology, University of Pennsylvania.Google Scholar
Pigott, V. C. & Ciarla, R. 2007. On the origins of metallurgy in prehistoric Southeast Asia: a view fromThailand, in La Niece, S., Hook, D. & Craddock, P. (ed.) Metals and mines. Studies in Archaeometallurgy: 7688. London: Archetype in association with the British Museum.Google Scholar
Roberts, B. W., Thornton, C. P. & Pigott, V. C. 2009. Development of metallurgy in Eurasia. Antiquity 83:10121022.CrossRefGoogle Scholar
Santos, G.M., Alexandre, A., Coe, H.H.G., Reyerson, P. E., Southon, J. R. & De Carvalho, C. N. 2010. The Phytolith 14C puzzle: a tale of background determinations and accuracy tests. Radiocarbon 52(1): 113–28.CrossRefGoogle Scholar
White, J. C. 1997. A brief note on new dates for the Ban Chiang cultural tradition. Bulletin of the Indo-Pacific Prehistory Association 16:103106.CrossRefGoogle Scholar
White, J. C. 2008. Dating early bronze at Ban Chiang, Thailand, in Pautreau, J.-P., Coupey, A.-S., Zeitoun, V. & Rambault, E. (ed.) From Homo erectus to the living traditions: 91110. Bougon: European Association of Southeast Asian Archaeologists.Google Scholar
White, J.C. & Hamilton, E. 2009. The transmission of early Bronze Age technology to Thailand: new perspectives. Journal of World Prehistory 22:357–97.CrossRefGoogle Scholar
Xie, G.M., Lin, Q. & Peng, C. L. 2003. Gexinqiao Neolithic site in Baise City, Guangxi. Archaeology 12:36 (with English abstract).Google Scholar
Xie, G.M. & Peng, C. L. 2006. An important discovery from the excavation of Baida site in Baise, Guangxi. China Cultural Relics News 1409 (in Chinese).Google Scholar
Zhang, C. & Hung, H.-C. 2010. The emergence of agriculture in southern China. Antiquity 84:1125.Google Scholar