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Environmental and Social Change in Northeast Thailand during the Iron Age

Published online by Cambridge University Press:  01 April 2019

C.F.W. Higham
Affiliation:
Department of Anthropology and Archaeology, University of Otago, P.O. Box 56, Dunedin, New Zealand Email: [email protected]
B.F.J. Manly
Affiliation:
Department of Mathematics, University of Otago, P.O. Box 56, Dunedin, New Zealand & Western Ecosystems Technology Inc., 415 W. 17th St, Suite 200, Cheyenne, WY 8200, USA Email: [email protected]
R. Thosarat
Affiliation:
17, Mu 2, Chomsra Road, Tambon Nai Muang, Amphoe Phimai, Nakhon Ratchasima Province, Thailand 30110 Email: [email protected]
H.R. Buckley
Affiliation:
Department of Anatomy, University of Otago, P.O. Box 56, Dunedin, New Zealand Email: [email protected]
N. Chang
Affiliation:
College of Arts, Society and Education, James Cook University, Townsville QLD 4811, Australia Email: [email protected]
S.E. Halcrow
Affiliation:
Department of Anatomy, University of Otago, P.O. Box 56, Dunedin, New Zealand Email: [email protected]
S. Ward
Affiliation:
Department of Anatomy, University of Otago, P.O. Box 56, Dunedin, New Zealand Email: [email protected]
D.J.W. O'Reilly
Affiliation:
School of Archaeology & Anthropology, Australian National University, Acton ACT 2601, Australia Email: [email protected]
L.G. Shewan
Affiliation:
School of Earth Sciences, University of Melbourne, 253-283 Elgin St, Carlton VIC 3053, Australia Email: [email protected]
K. Domett
Affiliation:
College of Medicine and Dentistry, James Cook University, Townsville QLD 4811, Australia Email: [email protected]

Abstract

The Iron Age of Mainland Southeast Asia began in the fifth century bc and lasted for about a millennium. In coastal regions, the development of trade along the Maritime Silk Road led to the growth of port cities. In the interior, a fall in monsoon rains particularly affected the Mun River valley. This coincided with the construction of moats/reservoirs round Iron Age settlements from which water was channelled into wet rice fields, the production of iron ploughshares and sickles, population growth, burgeoning exchange and increased conflict. We explore the social impact of this agricultural revolution through applying statistical analyses to mortuary samples dating before and after the development of wet rice farming. These suggest that there was a swift formation of social elites represented by the wealth of mortuary offerings, followed by a decline. Two associated changes are identified. The first involved burying the dead in residential houses; the second considers the impact of an increasingly aquatic environment on health by examining demographic trends involving a doubling of infant mortality that concentrated on neonates. A comparison between this sequence and that seen in coastal ports suggests two interconnected instances of rapid pathways to social change responding to different social and environmental stressors.

Type
Research Article
Copyright
Copyright © McDonald Institute for Archaeological Research 2019 

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References

Acabado, S., 2013. Defining Ifugao social organization: ‘house,’ field, and self-organizing principles in the northern Philippines. Asian Perspectives 52, 161–89.Google Scholar
Adams, R.L. & King, S. M., 2011. Residential burial in global perspective, in Residential Burial: A multiregional exploration, eds. Adams, R.L. & King, S.M.. (Archeological Papers of the American Anthropological Association 20.) Arlington (VA): American Anthropological Association, 116.Google Scholar
Bellina, B. (ed.), 2017. Khao Sam Kaeo. An early port-city between the Indian Ocean and the South China Sea. Paris: École Française d'Extrême Orient.Google Scholar
Binford, L., 1971. Mortuary practices: their study and their potential. Memoirs of the Society for American Archaeology 25 (Approaches to the Social Dimensions of Mortuary Practices), 629.Google Scholar
Castillo, C.C., Higham, C.F.W., Miller, K., Chang, N., Douka, K., Higham, T.F.G. & Fuller, D.Q, 2018. Social responses to climate change in Iron Age northeast Thailand: new archaeobotanical evidence. Antiquity 92, 1274–91.Google Scholar
Chai, J-Y., Sohn, W-M., Na, B-K. & Van De, N., 2011. Echinostoma revolutum: Metacercariae in Filopaludina snails from Nam Dinh Province, Vietnam, and adults from experimental hamsters. Korean Journal of Parasitology 49, 449–55.Google Scholar
Duangsong, R., Promthet, S. & Thaewnongiew, K., 2013. Development of a community-based approach to Opisthorchiasis control. Asian Pacific Journal of Cancer Prevention 14, 7039–43.Google Scholar
Fox, J.J., 1968. The Rotinese: A Study of the Social Organisation of an Eastern Indonesian People. DPhil dissertation, University of Oxford.Google Scholar
Goody, J.R., 1971. Technology, Tradition and the State in Africa. London: Hutchinson.Google Scholar
Graczyk, T.K. & Fried, B., 1998. Echinostomiasis: a common but forgotten food-borne disease. American Journal of Tropical Medicine and Hygiene 58, 501–4.Google Scholar
Halcrow, S.E., Tayles, N. & King, C.L., 2016. Infant and child health and disease with agricultural intensification in mainland Southeast Asia, in The Routledge Handbook of Bioarchaeology in Southeast Asia and the Pacific Islands, eds. Oxenham, M. & Buckley, H.. Abingdon: Routledge, 158–86.Google Scholar
Halcrow, S.E., Tayles, N. & Elliott, G.E., 2017. The bioarchaeology of fetuses, in The Anthropology of the Fetus: Biology, culture, and society, eds. Han, S., Betsinger, T.K. & Scott, A.B.. New York (NY): Berghahn Books, 83111.Google Scholar
Hawken, S., 2011. Metropolis of Ricefields: A Topographic Classification of a Dispersed Urban Complex. PhD thesis, University of Sydney.Google Scholar
Higham, C.F.W., 2004. Before Devanika. Social change and state formation in the Mekong Valley, in Explaining Social Change. Studies in honour of Colin Renfrew, eds. Cherry, J., Scarre, C. & Shennan, S.. Cambridge: McDonald Institute for Archaeological Research, 203–14.Google Scholar
Higham, C.F.W. 2011. The Iron Age of the Mun Valley, Thailand. The Antiquaries Journal 91, 144.Google Scholar
Higham, C.F.W., 2015. From site formation to social structure in prehistoric Thailand. Journal of Field Archaeology 40, 383–96.Google Scholar
Higham, C.F.W., Cameron, J., Chang, N., et al. , 2014. The excavation of Non Ban Jak, northeast Thailand –- a report on the first three seasons. Journal of Indo-Pacific Archaeology 34, 141.Google Scholar
Higham, C.F.W. & Kijngam, A. (eds.), 2012. The Origins of the Civilization of Angkor. Volume V. The Excavation Ban Non Wat: The Iron Age, Summary and Conclusions. Bangkok: The Fine Arts Department of Thailand.Google Scholar
Higham, C.F.W. & Manly, B.F.J., 2012. A statistical analysis of Iron Age burials, in The Origins of the Civilization of Angkor. Volume V. The Excavation Ban Non Wat: The Iron Age, Summary and Conclusions, eds. Higham, C.F.W & Kijngam, A.. Bangkok: Fine Arts Department of Thailand, 353–62.Google Scholar
Janowksi, M., 1995. The hearth-group, the conjugal couple and the symbolism of rice meal among the Kelabit of Sarawak, in About the House: Lévi-Strauss and beyond, eds. Carsten, J. & Hugh-Jones, S.. Cambridge: Cambridge University Press, 84104.Google Scholar
King, C.L, Halcrow, S.E., Tayles, N.G. & Shkrum, S., 2017. Considering the palaeoepidemiological implications of socieconomic and environmental change in Southeast Asia. Archaeological Research in Asia 11, 2737.Google Scholar
Malleret, L., 1959–63. L'Archéologie du Delta du Mekong. Paris: École Française d'Extrême Orient.Google Scholar
O'Reilly, D., 2008. Multivallate sites and socio-economic change: Thailand and Britain in their Iron Ages. Antiquity 82, 377–89.Google Scholar
O'Reilly, D., 2014. Increasing complexity and the political economy model: a consideration of Iron Age moated sites in Thailand. Anthropological Archaeology 35, 298309.Google Scholar
O'Reilly, D.J.W. & Scott, G., 2015. Moated sites of the Iron Age in the Mun River Valley, Thailand: new discoveries using Google Earth. Archaeological Research in Asia 3, 918.Google Scholar
O'Reilly, D.J.W. & Shewan, L., 2016. Phum Lovea: a moated precursor to the pura of Cambodia? Sociopolitical transformation from Iron Age settlements to early state society. Journal of Southeast Asian Studies 47, 468–83.Google Scholar
Parry, J., 1992. The investigative role of Landsat-TM in the examination of pre- and proto-historic water management sites in northeast Thailand. Geocarto International 7, 524.Google Scholar
Petney, T., Sithithaworn, P., Andrews, R., Kiatsopit, N., Tesana, S., Grundy-Warr, C. & Ziegler, A., 2012. The ecology of the Bithynia first intermediate hosts of Opisthorchis viverrini. Parasitology International 61, 3845.Google Scholar
Scott, G. & O'Reilly, D., 2015. Rainfall and circular moated sites in northeast Thailand. Antiquity 89, 1125–38.Google Scholar
Setasuban, P., Nuamtanong, S., Rojanakittikoon, V., Yaemput, S., Dekumyoy, P., Akahane, H. & Kojima, S., 1991. Gnathostomiasis in Thailand: a survey on intermediate hosts of Gnathostoma spp. with special reference to a new type of larvae found in Fluta alba. Southeast Asian Journal of Tropical Medicine and Public Health 22 Suppl., 220–24.Google Scholar
Tayles, N.G. & Buckley, H.R., 2004. Leprosy and tuberculosis in Iron Age Southeast Asia? American Journal of Physical Anthropology 125, 239–56.Google Scholar
Tayles, N.G., Halcrow, S.E. & Domett, K., 2007. The people of Noen U-Loke, in The Origins of the Civilization of Angkor Volume 2: the Excavation of Noen U-Loke and Non Muang Kao, eds. Higham, C.F.W. & Kijngam, A.. Bangkok: The Fine Arts Department of Thailand, 244304.Google Scholar
Vickery, M., 1998. Society, Economics and Politics in Pre-Angkor Cambodia. Tokyo: Centre for East Asian Cultural Studies/UNESCO.Google Scholar
Wang, Y.C., Ho, R.C., Feng, C.C., Namsanor, J. & Sithithaworn, P., 2015. An ecological study of Bithynia snails, the first intermediate host of Opisthorchis viverrini in northeast Thailand. Acta Tropica 141(Pt B), 244–52.Google Scholar
Waterson, R., 1990. The Living House: An anthropology of architecture in Southeast Asia. Kuala Lumpur: Oxford University Press.Google Scholar
Weisskopf, A., Qin, L., Ding, J., Ding, P., Sun, G. & Fuller, D.Q, 2015. Phytoliths and rice: from wet to dry and back again in the Neolithic Lower Yangtze. Antiquity 89, 1051–63.Google Scholar
White, N.J., 2003. Malaria, in Manson's Tropical Diseases, eds. Cook, G.C. & Zumla, A.. London: W.B. Sanders, 1205–95.Google Scholar
Wohlfarth, B., Higham, C.F.W., Yamoah, K.A., Chabangborn, A., Chawchai, S. & Smittenberg, R.H., 2016. Human adaptation to mid- to late-Holocene climate change in northeast Thailand. The Holocene 26, 614–26.Google Scholar