Hostname: page-component-78c5997874-ndw9j Total loading time: 0 Render date: 2024-11-19T16:23:11.467Z Has data issue: false hasContentIssue false

Feeding ancient cities in South Asia: dating the adoption of rice, millet and tropical pulses in the Indus civilisation

Published online by Cambridge University Press:  21 November 2016

C.A. Petrie*
Affiliation:
Division of Archaeology, University of Cambridge, Downing Street, Cambridge CB2 3DZ, UK
J. Bates
Affiliation:
Division of Archaeology, University of Cambridge, Downing Street, Cambridge CB2 3DZ, UK
T. Higham
Affiliation:
RLAHA, Oxford University, Dyson Perrins Building, South Parks Road, Oxford OX1 3QY, UK
R.N. Singh
Affiliation:
Department of AIHC & Archaeology, Banaras Hindu University, Varanasi 221005, India
*
*Author for correspondence (Email: [email protected])

Abstract

The first direct absolute dates for the exploitation of several summer crops by Indus populations are presented here. These include rice, millets and three tropical pulse species at two settlements in the hinterland of the urban site of Rakhigarhi. The dates confirm the role of native summer domesticates in the rise of Indus cities. They demonstrate that, from their earliest phases, a range of crops and variable strategies, including multi-cropping, were used to feed different urban centres. This has important implications for understanding the development of the earliest cities in South Asia, particularly the organisation of labour and provisioning throughout the year.

Type
Research
Copyright
Copyright © Antiquity Publications Ltd, 2016 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Agrawal, D.P. 2007. The Indus civilisation: an interdisciplinary perspective. Delhi: Aryan.Google Scholar
Bates, J. 2016. Social organization and change in Bronze Age South Asia: a multi-proxy approach to urbanisation, de-urbanisation and village life through phytolith and macrobotanical analysis. Unpublished PhD dissertation, University of Cambridge.Google Scholar
Bates, J., Singh, R.N. & Petrie, C.A.. 2016. Exploring Indus crop processing: combining phytoliths and macrobotanical analysis to consider the organisation of agriculture in northwest India c. 3200–1500 BC. Vegetation History and Archaeobotany. http://dx.doi.org/10.1007/s00334-016-0576-9 Google Scholar
Bates, J., Petrie, C.A. & Singh, R.N.. In press a. Approaching rice domestication in South Asia: new evidence from Indus settlements in northern India. Journal of Archaeological Science.Google Scholar
Bates, J., Petrie, C.A. & Singh, R.N.. In press b. Cereals, calories and change: exploring approaches to quantification in Indus archaeobotany. Archaeological and Anthropological Science.Google Scholar
Chakrabarti, D.K. 1988. Theoretical issues in Indian archaeology. Delhi: Munshiram Manoharlal.Google Scholar
Chakrabarti, D.K. 1999. India: an archaeological history, Palaeolithic beginnings to early historic foundations. Delhi: Oxford University Press.Google Scholar
Fuller, D.Q. 2002. Fifty years of archaeobotanical studies in India: laying a solid foundation, in Settar, S. & Korisettar, R. (ed.) Indian archaeology in retrospect III: archaeology and interactive disciplines: 247364. Delhi: Manohar.Google Scholar
Fuller, D.Q. 2006. Agricultural origins and frontiers in South Asia: a working synthesis. Journal of World Prehistory 20: 186. http://dx.doi.org/10.1007/s10963-006-9006-8 Google Scholar
Fuller, D.Q. 2011. Finding plant domestication in the Indian subcontinent. Current Anthropology 52 (S4): S347–62. http://dx.doi.org/10.1086/658900 Google Scholar
Fuller, D.Q. & Madella, M.. 2002. Issues in Harappan archaeobotany: retrospect and prospect, in Settar, S. & Korisettar, R. (ed.) Indian archaeology in retrospect II: protohistory: 317–90. Delhi: Manohar.Google Scholar
Fuller, D.Q. & Murphy, C.. 2014. Overlooked but not forgotten: India as a center for agricultural domestication. General Anthropology 21 (2): 18. http://dx.doi.org/10.1111/gena.01001 Google Scholar
Fuller, D.Q. & Qin, L.. 2009. Water management and labour in the origins and dispersal of Asian rice. World Archaeology 41: 88111. http://dx.doi.org/10.1080/00438240802668321 Google Scholar
Fuller, D.Q., Sato, Y.-I., Castillo, C., Qin, L., Weisskopf, A.R., Kingwell-Banham, E.J., Song, J., Ahn, S.-M. & van Etten, J.. 2010. Consilience of genetics and archaeobotany in the entangled history of rice. Archaeological and Anthropological Sciences 2: 115–31. http://dx.doi.org/10.1007/s12520-010-0035-y Google Scholar
Joshi, J.P., Bala, M. & Ram, J.. 1984. The Indus civilisation: a reconsideration on the basis of distribution maps, in Lal, B.B. & Gupta, S.P. (ed.) Frontiers of the Indus civilisation: 511–30. Delhi: Books and Books.Google Scholar
Kashyap, A. & Weber, S.A.. 2010. Harappan plant use revealed by starch grains from Farmana, India. Antiquity 84(326) Project Gallery. Available at: http://antiquity.ac.uk/projgall/kashyap326/ (accessed 18 August 2016).Google Scholar
Kenoyer, J.M. 1998. Ancient cities of the Indus valley civilisation. Karachi: Oxford University Press.Google Scholar
Kingwell-Banham, E., Petrie, C.A. & Fuller, D.Q.. 2015. Early agriculture in South Asia, in Barker, G. & Goucher, C. (ed.) Cambridge world history (volume 2): 261–88. Cambridge: Cambridge University Press. http://dx.doi.org/10.1017/CBO9780511978807.011 Google Scholar
Kumar, M. 2009. Harappan settlements in the Ghaggar-Yamuna divide. Linguistics, Archaeology and the Human Past 7: 176.Google Scholar
Lal, B.B. 1997. The earliest civilisation of South Asia. Delhi: Aryan.Google Scholar
Lawrence, D. & Wilkinson, T.J.. 2015. Hubs and upstarts: pathways to urbanism in the northern Fertile Crescent. Antiquity 89: 318–44. http://dx.doi.org/10.15184/aqy.2014.44 Google Scholar
Liu, X., Lister, D.L., Zhao, Z., Staff, R.A., Jones, P.J., Zhou, L., Pokharia, A.K., Petrie, C.A., Pathak, A., Lu, H., Motuzaite Matuzeviciute, G., Bates, J., Pilgram, T. & Jones, M.K.. 2016. The virtues of small grain size: potential pathways to a distinguishing feature of Asian wheat. Quaternary International (special issue). http://dx.doi.org/10.1016.j.quaint.2016.02.059.Google Scholar
Madella, M. 2014. Of crops and food: a social perspective on rice in the Indus civilisation, in Madella, M., Lancelotti, C. & Savard, M. (ed.) Ancient plants and people: contemporary trends in archaeobotany: 218–36. Tucson: University of Arizona Press.Google Scholar
Madella, M. & Fuller, D.Q.. 2006. Palaeoecology and the Harappan civilisation of South Asia: a reconsideration. Quaternary Science Reviews 25: 1283–301. http://dx.doi.org/10.1016/j.quascirev.2005.10.012 Google Scholar
Meadow, R.H. 1996. The origins and spread of agriculture and pastoralism in northwestern South Asia, in Harris, D. (ed.) The origins and spread of agriculture and pastoralism in Eurasia: 390412. London: UCL Press.Google Scholar
Nath, A. n.d. Excavations at Rakhigarhi [1997–1998 to 1999–2000]. New Delhi: Archaeological Survey of India.Google Scholar
Nath, A., Garge, T. & Law, R.. 2014. Defining the economic space of Harappan Rakhigarhi: an interface of local subsistence mechanism and geologic provenience studies. Puratattva 44: 83100.Google Scholar
Paleo-Labo AMS Dating Group. 2012. AMS radiocarbon dating, in Kharakwal, J.S., Rawat, Y.S. & Osada, T. (ed.) Excavation at Kanmer 2005–2006—2008–2009: 819–26. Kyoto: RIHN.Google Scholar
Petrie, C.A. 2013. South Asia, in Clark, P. (ed.) The Oxford handbook of cities in world history: 83104. Oxford: Oxford University Press.Google Scholar
Petrie, C.A. In press. Crisis, what crisis? Adaptation, resilience and transformation in the Indus civilisation, in Dreisen, J. & Cunningham, T. (ed.) Crisis to collapse: the archaeology of social breakdown. Louvain-la-Neuve: Aegis.Google Scholar
Petrie, C.A. & Bates, J.. In press. Double-cropping, multi-cropping and adaptation to variable environments in the Indus civilisation. Journal of World Prehistory.Google Scholar
Petrie, C.A., Singh, R.N. & Singh, A.K.. 2009. Investigating changing settlement patterns on the plains: the 2009 survey and excavations at Masudpur (Hissar district, Haryana). Puratattva 39: 3849.Google Scholar
Petrie, C.A., Singh, R.N., Bates, J., Dixit, Y., French, C.A.I., Hodell, D., Jones, P.J., Lancelotti, C., Lynam, F., Neogi, S., Pandey, A.K., Parikh, D., Pawar, V., Redhouse, D.I. & Singh, D.P.. In press. Adaptation to variable environments, resilience to climate change: investigating land, water and settlement in northwest India. Current Anthropology.Google Scholar
Pokharia, A.K., Kharakwal, J.S., Rawat, Y.S., Osada, T., Nautiyal, C.M. & Srivastava, A.. 2011. Archaeobotany and archaeology at Kanmer, a Harappan site in Kachchh, Gujarat: evidence for adaptation in response to climatic variability. Current Science 100: 1833–46.Google Scholar
Pokharia, A., Kharakwal, J.S. & Srivastava, A.. 2014. Archaebotanical evidence of millets in the Indian subcontinent with some observations on their role in the Indus civilisation. Journal of Archaeological Science 42: 442–55. http://dx.doi.org/10.1016/j.jas.2013.11.029 Google Scholar
Possehl, G.L. 1982. The Harappan civilisation: a contemporary perspective, in Possehl, G.L. (ed.) Harappan civilisation: a contemporary perspective: 1528. Delhi: IBH and the American Institute of Indian Studies.Google Scholar
Possehl, G.L. 1999. Indus age: the beginnings. Philadelphia: University of Pennsylvania Press.Google Scholar
Possehl, G.L. 2002. The Indus civilization: a contemporary perspective. Walnut Creek (CA): AltaMira.Google Scholar
Saraswat, K.S. 2002. Balu (29°40’ N; 76°22’ E), district Kaithal. Indian Archaeology—a Review 1996–1997: 198203.Google Scholar
Saraswat, K.S. 2004/2005. Agricultural background of the early farming communities in the Middle Ganga Plain. Pragdhara 15: 145–77.Google Scholar
Saraswat, K.S. & Pokharia, A.K.. 2002. Harappan plant economy at ancient Balu, Haryana. Pragdhara 12: 153–71.Google Scholar
Saraswat, K.S. & Pokharia, A.K.. 2003. Palaeoethnobotanical investigations at Early Harappan Kunal. Pragdhara 13: 105–39.Google Scholar
Saraswat, K.S., Srivastava, C. & Pokharia, A.K.. 2000. Palaeobotanical and pollen analytical investigations. Indian Archaeology—a Review 1994–1995: 96.Google Scholar
Singh, R.N. & Petrie, C.A.. 2009. Lost rivers and life on the plains—approaches to understanding human/environment interaction between the collapse of Indus urbanism and the rise of the Early Historic cities (The Land, Water and Settlement Project), in Sarasvati River—a perspective: 102–11. Kurukshetra: Kurukshetra University.Google Scholar
Singh, R.N., Petrie, C.A., French, C.A.I., Goudie, A.S., Gupta, S., Tewari, R., Singh, A.K., Srivastava, R., Yadav, S. & Singh, V.K.. 2008. Settlements in context: reconnaissance in western Uttar Pradesh and Haryana, April and May 2008. Man and Environment 33: 7187.Google Scholar
Singh, R.N., Petrie, C.A., Pawar, V., Pandey, A.K., Neogi, S., Singh, M., Singh, A.K., Parikh, D. & Lancelotti, C.. 2010. Changing patterns of settlement in the rise and fall of Harappan urbanism: preliminary report on the Rakhigarhi Hinterland Survey 2009. Man and Environment 35: 3753.Google Scholar
Bahn, Suraj. 1975. Excavation at Mitathal and other explorations in the Sutlej-Yamuna divide. Kurukshetra: Kurukshetra University.Google Scholar
Tewari, R., Srivastava, R.K., Saraswat, K.S., Singh, I.B. & Singh, K.K.. 2008/2009. Early farming at Lahuradewa. Pragdhara 19: 347–73.Google Scholar
Vishnu-Mittre & Savithri, R.. 1982. Food economy of the Harappans, in Possehl, G.L. (ed.) Harappan civilisation: 205–21. Warminster: Aris & Philips.Google Scholar
Weber, S.A. 1991. Plants and Harappan subsistence: an example of stability and change from Rojdi. New Delhi: Oxford & IBH.Google Scholar
Weber, S.A. 1999. Seeds of urbanism: palaeoethnobotany and the Indus civilisation. Antiquity 73: 813–26. http://dx.doi.org/10.1017/S0003598X00065558 Google Scholar
Weber, S.A. 2003. Archaeobotany at Harappa: indications for change, in Weber, S.A. & Belcher, B. (ed.) Indus ethnobiology: 175–98. Lexington (KY): Lanham.Google Scholar
Weber, S.A. & Kashyap, A.. 2016. The vanishing millets of the Indus civilization. Archaeological and Anthropological Sciences 8: 915. http://dx.doi.org/10.1007/s12520-013-0143-6 Google Scholar
Weber, S.A., Barela, T. & Lehman, H.. 2010. Ecological continuity: an explanation for agricultural diversity in the Indus civilisation and beyond. Man and Environment 35: 6275.Google Scholar
Weber, S.A., Kashyap, A. & Mounce, L.. 2011. Archaeobotany at Farmana: new insights into Harappan plant use strategies, in Shinde, V., Osada, T. & Kumar, M. (ed.) Excavations at Farmana, district Rohtak, Haryana, India, 2006–8: 808–25. Kyoto: Research Institute for Humanity and Nature.Google Scholar
Wright, R.P. 2010. The ancient Indus: urbanism, economy and society. Cambridge: Cambridge University Press.Google Scholar
Supplementary material: PDF

Petrie supplementary material

Petrie supplementary material 1

Download Petrie supplementary material(PDF)
PDF 344.4 KB