The contribution of rice agriculture and livestock pastoralism to prehistoric methane levels: An archaeological assessment
Abstract
We review the origins and dispersal of rice in Asia based on a data base of 443 archaeobotanical reports. Evidence is considered in terms of quality, and especially whether there are data indicating the mode of cultivation, in flooded (‘paddy’ or ‘wet’) or non-flooded (‘dry’) fields. At present it appears that early rice cultivation in the Yangtze region and southern China was based on wet, paddy-field systems from early on, before 4000 bc, whereas early rice in northern India and Thailand was predominantly dry rice at 2000 bc, with a transition to flooded rice documented for India at c. 1000 bc. On the basis of these data we have developed a GIS spatial model of the spread of rice and the growth of land area under paddy rice. This is then compared with a review of the spread of ungulate livestock (cattle, water buffalo, sheep, goat) throughout the Old World. After the initial dispersal through Europe and around the Mediterranean (7000–4000 bc), the major period of livestock expansion is after 3000 bc, into the Sub-Saharan savannas, through monsoonal India and into central China. Further expansion, to southern Africa and Southeast Asia dates mostly after 1000 bc. Based on these two data sets we provide a quantitative model of the land area under irrigated rice, and its likely methane output, through the mid to late Holocene, for comparison to a more preliminary estimate of the expansion of methane-producing livestock. Both data sets are congruent with an anthropogenic source of later Holocene methane after 3000 bc, although it may be that increase in methane input from livestock was most significant in the 3000–1000 bc period, whereas rice paddies become an increasingly significant source especially after 2000 bc.
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References
Ahn S (2010) The emergence of rice agriculture in Korea: Archaeobotanical perspectives. Archaeological and Anthropological Sciences 2(2): 89–98.
An J, Chen H (2010) A study of faunal remains from the Zongri cultural sites. In: Ma X (ed.) Zooarchaeology, Volume 1, Collection of Papers from International Conference of Zooarchaeology in Zhengzhou, China, 2007. Beijing: Cultural Relics, 232–240 (in Chinese).
An Z (1999) The origin and eastward spread or rice-planting culture of China. Wenwu 1999-2: 63–70 (in Chinese).
Aselman I, Crutzen PJ (1989) Global distribution of natural freshwater wetlands and rice paddies, their net primary productivity, seasonality and possible methane emissions. Journal of Atmospheric Chemistry 8: 307–358.
Barich BE (ed.) (1987) Archaeology and Environment in the Libyan Sahara: The Excavations in the Tadrart Acacus, 1978–1983. BAR International Series 368. Cambridge Monographs in African Archaeology 23. Oxford: Archaeopress.
Barton H, Paz V (2007) Subterranean diets in the tropical rainforest of Sarawak, Malaysia. In: Denham TP, Iriarte J, Vrydaghs L (eds) Rethinking Agriculture: Archaeological and Ethnoarchaeological Perspectives. Walnut Creek CA: Left Coast Press, 50–77.
Bellwood P (2005) First Farmers. Origins of Agricultural Societies. Oxford: Blackwell.
Bellwood P (2007) Prehistory of the Indo-Malaysian Archipelago (2nd edition). Canberra: ANU Press.
Boserup E (1965) The Conditions of Agricultural Growth: The Economics of Agrarian Change under Population Pressure. London: Allen & Unwin.
Bouwman AF (1991) Agronomic aspects of wetland rice cultivation and assorted methane emissions. Biogeochemistry 15: 65–88.
Bray F (1986) The Rice Economies. Technology and Development in Asian Societies. Oxford/New York: Blackwell.
Casey J (1998) The ecology of food production in West Africa. In: Connah G (ed.) Transformations in Africa: Essays on Africa’s Later Past. Leicester: Leicester University Press, 46–70.
Castillo C, Fuller DQ (2010) Still too fragmentary and dependent upon chance? Advances in the study of early Southeast Asian Archaeobotany. In: Bellina B, Wisseman C, Bacus E, Pryce O (eds) 50 Years of Archaeology in Southeast Asia: Essays in Honour of Ian Glover. Bangkok: River Books, 91–111.
Chang K-C (1980) Shang Civilization. New Haven: Yale University Press.
Chang TT (1989) Domestication and spread of the cultivated rices. In: Harris DR, Hillman GC (eds) Foraging and Farming: The Evolution of Plant Exploitation. London: Unwin, 408–417.
Chen S, Lin B-Z, Baig M, Mitra B, Lopes RJ, Santos AM, et al. (2010) Zebu cattle are an exclusive legacy of the South Asia Neolithic. Molecular Biology and Evolution 27(1): 1–6.
Clark JD (ed.) (1976) Epi-palaeolithic Aggregates from Greboun Wadi Aïr, and Adrar Bous, North-western Ténére, Republic of Niger. Addis Ababa: Ministry of Culture.
Clark JD, Carter P, Gifford Gonzalez D, Smith A (2008) The Adrar Bous cow and African cattle. In: Clark JD, Agrilla EJ, Crader DC, Galloway A, Garcea EAA, Gifford-Gonzalez D (general editor) et al. (eds) Adrar Bous. Archaeology of a Central Saharan Granitic Ring Complex in Niger. Tervuren: Royal Museum for Central Africa, 355–368.
Close AE, Wendorf F (1992) The beginning of food production in the eastern Sahara. In: Gebauer AB, Price TD (eds) Transitions to Agriculture in Prehistory. 4th edition. Madison: Prehistory Press, 63–72.
Crawford GW, Lee G (2003) Agricultural origins in the Korean peninsula. Antiquity 77(295): 87–95.
D’Andrea C (1999) The dispersal of domesticated plantrs in north-eastern Japan. In: Gosden C, Hather J (eds) The Prehistory of Food: Appetites for Change. London: Routledge, 164–181.
D’Andrea C, Crawford GW, Yoshizaki M, Kudo T (1995) Late Jomon cultigens in northeastern Japan. Antiquity 69: 146–152.
Denham T (2009) A practice-centered method for charting the emergence and transformation of agriculture. Current Anthropology 50: 661–667.
Denham TP, Haberle SG, Lentfer C, Fullagar R, Field J, Therin M, et al. (2003) Origins of agriculture at Kuk Swamp in the Highlands of New Guinea. Science 301: 189–193.
Deriyanagala SU (1992) The Prehistory of Sri Lanka: An Ecological Perspective. Colombo: Department of Archaeological Survey, Government of Sri Lanka.
Flad R, Li S, Wu X, Zhao Z (2010) Early wheat in China: Results from new studies at Donghuishan in the Hexi Corridor. The Holocene 20: 955–965.
Frachetti MD, Spengler RN, Fritz GJ, Mar’yashev AN (2010) Earliest direct evidence for broomcorn millet and wheat in the central Eurasian steppe region. Antiquity 84: 993–1010.
Fuller DQ (2003) An agricultural perspective on Dravidian historical linguistics: Archaeological crop packages, livestock and Dravidian crop vocabulary. In: Bellwood P, Renfrew C (eds) Examining the Farming/language Dispersal Hypothesis. Cambridge: McDonald Institute for Archaeological Research, 191–213.
Fuller DQ (2006) Agricultural origins and frontiers in South Asia: A working synthesis. Journal of World Prehistory 20: 1–86.
Fuller DQ (2007) Contrasting patterns in crop domestication and domestication rates: Recent archaeobotanical insights from the Old World. Annals of Botany 100(5): 903–924.
Fuller DQ, Qin L (2009) Water management and labour in the origins dispersal of Asian rice. World Archaeology 41: 88–111.
Fuller DQ, Qin L (2010) Declining oaks, increasing artistry, and ncultivating rice: The environmental and social context of the emergence of farming in the Lower Yangtze region. Environmental Archaeology 15: 139–159.
Fuller DQ, Weber SA (2005) Formation processes and paleoethnobotanical interpretation in South Asia. Journal of Interdisciplinary Studies in History and Archaeology 2(1): 93–115.
Fuller DQ, Zhang H (2007) A preliminary report of the survey archaeobotany of the upper Ying Valley (Henan Province). (In Chinese and English) In: University and Henan Pronvicial Institute of Archaeology (eds) Dengfeng wangchenggang yizhi de faxian yu yanjiu (2002–2005) (Archaeological Discovery and Research at the Wangchenggang Site in Dengfeng (2002–2005)), 916–958 (in Chinese).
Fuller DQ, Harvey E, Qin L (2007) Presumed domestication? Evidence for wild rice cultivation and domestication in the fifth millennium BC of the Lower Yangzte region. Antiquity 81(312): 316–331.
Fuller DQ, Qin L, Harvey E (2008) Evidence for a late onset of agriculture in the Lower Yangtze region and challenges for an archaeobotany of rice. In: Sanchez-Mazas A, Blench R, Ross MD, Peiros I, Lin M (eds) Past Human Migrations in East Asia: Matching Archaeology, Linguistics and Genetics. London and New York: Routledge, 40–83.
Fuller DQ, Qin L, Zheng Y, Zhao Z, Chen X, Hosoya LA, et al. (2009) The domestication process and domestication rate in rice: Spikelet bases from the Lower Yangtze. Science 323(5921): 1607–1610.
Fuller DQ, Sato Y-I, Castillo C, Qin L, Weisskopf AR, Kingwell-Banham EJ, et al. (2010) Consilience of genetics and archaeobotany in the entangled history of rice. Archaeological and Anthropological Sciences 2(2): 115–131.
Gautier A (1984) Archaeozoology of the Bir Kiseiba region, eastern Sahara. In: Wendorf F, Schild R, Close AE (eds) Prehistory of Arid North Africa: Essays in Honour of Fred Wendorf. Dallas: Southern Methodist University Press, 163–187.
Glover IC (1979) Prehistoric plant remains from Southeast Asia, with special reference to rice. In: Taddei M (ed.) South Asian Archaeology 1977: Papers from the Fourth International Conference of the Association of South Asian Archaeologists in Western Europe, Held in the Istituto universitario orientale. Naples: Istituto universitario orientale, 7–37.
Gorman C (1977) A priori models and Thai prehistory: A reconsideration of the beginnings of agriculture in southeastern Asia. In: Reed CA (ed.) Origins of Agriculture. The Hague: Mouton, 321–355.
Grove CP (1985) On the agriotypes of domestic cattle and pigs in the Indo-Pacific region. In: Misra VN, Bellwood P (eds) Recent Advances in Indo-Pacific Prehistory. New Delhi: Oxford and IBH, 429–438.
Harvey EL, Fuller DQ, Pal JN, Gupta MC (2005) Early agriculture of Neolithic Vindhyas (North-Central India). In: Franke-Vogt U, Weisshaar J (eds) South Asian Archaeology 2003. Proceedings of the European Association for South Asian Archaeology Conference, Bonn, Germany, 7th–11th July 2003. Aachen: Linden Soft, 329–334.
Higham CFW (1975) Aspects of economy and ritual in prehistoric northeast Thailand. Journal of Archaeological Science 2: 245–288.
Higham CFW (2002a) Early Cultures of Mainland Southeast Asia. Bangkok: River Books.
Higham CFW (2002b) Languages and farming dispersals: Austroasiatic languages and rice cultivation. In: Bellwood P, Renfrew C (eds) Examining the Farming/language Dispersal Hypothesis. Cambridge: McDonald Institute for Archaeological Research, 223–232.
Higham CFW, Kijngam A, Manly BFJ, Moore SJE (1981) The bovid third phalanx and prehistoric ploughing. Journal of Archaeological Science 8: 353–365.
Ho P-T (1956) Early-ripening rice in Chinese history. The Economic History Review 9(n.s.): 200–218.
Ho P-T (1977) The indigenous origins of Chinese agriculture. In: Reed CA (ed.) The Origins of Agriculture. Chicago: Mouton, 413–484.
Huang F, Zhang M (2000) Pollen and phytolith evidence for rice cultivation during the Neolithic at Longqiuzhuang, eastern Jianghuai, China. Vegetation History and Archaeobotany 9(3): 161–168.
Huang Y (2010) A quantitative analysis of faunal remains and the development of animal domestication. In: Ma X (ed.) Zooarchaeology, Volume 1, Collection of Papers from International Conference of Zooarchaeology in Zhengzhou, China, 2007. Beijing: Cultural Relics, 1–31 (in Chinese).
Huke RE, Huke EH (1997) Rice Area by Type of Culture: South, Southeast, and East Asia. A Revised and Updated Data Base. Los Baños, Philippines: IRRI.
Jacquot M, Courtois B (1987) Upland Rice. The Tropical Agriculturalist series. Paris/Wageningen: CTA.
Kealhofer L, Piperno D (1996) Two phytolith sequences from the Bang Pakong Valley. In: Thompson G (ed.) The Excavation of Khok Phnom Di: A Prehistoric Site in Central Thailand. Volume IV: Subsistence and Environment: The Botanical Evidence. The Biological Remains, Part II. London: The Society of Antiquaries, 227–238.
Keally CT (2004) Bad science and the distortion of history: Radiocarbon dating in Japanese Archaeology. Sophia International Review 26: accessed online 30 March 2010, http://www.t-net.ne.jp/~keally/Reports/sir2004.html.
Klein Goldewijk K, Beusen A, Janssen P (2010) Long-term dynamic modeling of global population and built-up area in a spatially explicit way: HYDE 3.1. The Holocene 20(4): 565–573.
Klein Goldewijk K, Beusen A, de Vos M, van Drecht G (2011) The HYDE 3.1 spatially explicit database of human induced land use change over the past 12,000 years. Global Ecology and Biogeography 20: 73–86.
Koenker R (2009) Quantreg: Quantile Regression. R package version 4.44. http://CRAN.R-project.org/package=quantreg.
Koenker R, Mizera I (2004) Penalized triograms: Total variation regularization for bivariate smoothing. Journal of the Royal Statistical Society Series B 66: 145–163.
Kumar S, Nagarajan M, Sadhu JS, Kumar N, Behl V, Nishanth G (2007) Mitochondrial DNA analyses of Indian water buffalo support a distinct genetic origin of river and swamp buffalo. Animal Genetics 38: 227–232.
Larson G, Liu R, Zhao X, Yuan J, Fuller D, Barton L, et al. (2010) Patterns of East Asian pig domestication, migration, and turnover revealed by modern and ancient DNA. Proceedings of the National Academy of Sciences (USA) 107(17): 7686–7691.
Lau CH, Drinkwater RD, Yusoff K, Tan SG, Hetzel DJS, Barker JSF (2002) Genetic diversity of Asian water buffalo (Bubalus bubalis): Mitochondrial D-loop and cytochrome b sequence variation. Animal Genetics 29: 253–264.
Lee G-A, Crawford GW, Liu L, Chen X (2007) Plants and people from the early Neolithic to Shang periods in north China. Proceedings of the National Academy of Sciences 104: 1087–1092.
Li X, Dodson J, Zhou X, Zhang H, Masutomoto R (2007) Early cultivated wheat and broadening of agriculture in Neolithic China. The Holocene 15: 555–560.
Li X, Dodson J, Zhou J, Zhou X (2009) Increases of population and expansion of rice agriculture in Asia, and anthropogenic methane emissions since 5000 BP. Quaternary International 202: 41–50.
Liu L, Chen X, Jiang L (2004) A study of Neolithic water buffalo remains from Zhejiang. Bulletin of the Indo-Pacific Prehistory Association 24: 113–120.
MacDonald KC, MacDonald RH (2000) The origins and development of domesticated animals in arid West Africa. In: Blench RM, MacDonald KC (eds) The Origins and Development of African Livestock: Archaeology, Genetics, Linguistics and Ethnography. London: University College London Press, 127–162.
Manning K (2008a) Mobility, climate change and cultural development. A revised view from the Lower Tilemsi Valley, northeastern Mali. University of Oxford, PhD thesis.
Manning K (2008b) Mobility strategies and their social and economic implications for late Stone Age Sahelian pastoral groups: A view from the Lower Tilemsi Valley, Eastern Mali. Archaeological Review from Cambridge 23(2): 125–145.
Meadow R (1996) The origins and spread of agriculture and pastoralism in northwestern South Asia. In: Harris DR (ed.) The Origins and Spread of Agriculture and Pastoralism in Eurasia. London: UCL Press, 390–412.
Meadow R, Patel AK (2003) Prehistoric pastoralism in northwestern South Asia from the Neolithic through theHarappan period. In: Weber SA, Belcher WR (eds) Indus Ethnobiology. New Perspectives from the Field. Lanham: Lexington Books, 65–94.
Mudar KM (1999) How many Dvaravati kingdoms? Locational analysis of first millennium A.D. moated settlements in central Thailand. Journal of Anthropoloigical Archaeology 18: 1–28.
Munson P (1980) Archaeology and the prehistoric origins of the Ghana Empire. Journal of African History 21: 457–466.
Naderi S, Rezai H-Z, Pompanon F, Blum M, Negrinie R, Nagash H-R, et al. (2008) The goat domestication process inferred from large-scale mitochondrial DNA analysis of wild and domestic individuals. Proceedings of the National Academy of Sciences (USA) 105(46): 17 659–17 664.
Nakajima T, Nakajima M, Mizuno T, Sun G-P, He S-P, Yamazaki T (2010b) On the pharyngeal tooth remains of crucian and common carp from the Neolithic Tianluoshan site, Zhejiang Province, China, with remarks on the relationship between freshwater fishing and rice cultivation in the Neolithic Age. International Journal of Osteoarchaeology.
Nakajima T, Nakajima M, Yamazaki T (2010a) Evidence for fish cultivation during the Yayoi period in western Japan. International Journal of Osteoarchaeology 20: 127–134.
Neue H-U (1993) Methane emission from rice fields. BioScience 43(7): 466–474.
Neue H-U, Wassmann R, Kludze HK, Wang B, Lantin RS (1997) Factors and processes controlling methane emissions from rice fields. Nutrient Cycling in Agroecosystems 49: 111–117.
Patel AK (2009) Occupational histories, settlements, and subsistence in Western India: What bones can tell us about the origins and spread of pastoralism. Anthopozoologica 44(1): 173–188.
Patel AK, Meadow R (1998) The exploitation of wild and domestic water buffalo in prehistoric northwestern South Asia. In: Buitenhuis H, Bartosiewicz L, Choyke AM (eds) Archaeozoology of the Near East III. Groningen: Rijksuniversiteit Groningen, Centre for Archaeological Research and Consultancy, 180–199.
Paz V (2002) Island Southeast Asia: Spread or friction zone In: Bellwood P, Refrew C (eds) Examining the Farming/language Dispersal Hypothesis. Cambridge: McDonald Institute for Archaeological Research, 275–286.
Pedrosa S, Uzun M, Arranz J-J, Guitiérrez-Gil B, Primitivo FS, Bayón Y (2005) Evidence of three maternal lineages in near eaatern sheep supporting multiple domestication events. Proceedings of the National Academy of Sciences (USA) 272: 2211–2217.
Qin J, Taylor D, Atahan P, Zhang X, Wu G, Dodson J, et al. (2010) Neolithic agriculture, freshwater resources and rapid environmental changes on the Lower Yangtze, China. Quaternary Research.
R Development Core Team (2010) R: A Language and Environment for Statistical Computing. Vienna: R Foundation for Statistical Computing, http://www.R-project.org.
Reeburgh WS (2003) Global methane biogeochemistry. In: Keeling HF, Holland HD, Turekian KK (eds) Treatise on Geochemistry, Vol. 2. Amsterdam: Elsevier, 65–94.
Rosen A (2001) Phytolith evidence for agro-pastoral economies in the Scythian period of southern Kazakhstan. In: Meunier JD, Colin F, Faure-Denard L (eds) The Phytoliths: Applications in Earth Science and Human History. Aix en Provence: CEREGE, 183–198.
Rosen A (2008) The impact of environmental change and human land use on alluvial valleys on the loess plateau of China during the mid-Holocene. Geomorphology 101: 298–307.
Rowley-Conwy P (2004) How the West was lost: A reconsideration of agricultural origins in Britain, Ireland and southern Scandinavia. Current Anthropology 45(S4): 83–113.
Ruddiman WF (2003) The anthropogenic greenhouse era began thousands of years ago. Climate Change 61: 261–293.
Ruddiman WF (2007) The early anthropogenic hypothesis: Challenges and responses. Reviews of Geophysics 45: RG4001.
Ruddiman WF, Ellis EC (2009) Effect of per-capita land use changes on Holocene forest clearance and CO2 emissions. Quaternary Science Reviews 28: 3011–3015.
Ruddiman WF, Thomson JS (2001) The case for human causes of increased atmospheric CH4 over the last 5000 years. Quaternary Science Reviews 20: 1769–1777.
Ruddiman WFZ, Guo X, Zhou H, Wu Y (2008) Early rice farming and anomalous methane trends. Quaternary Science Reviews 27: 1291–1295.
Sang T, Ge S (2007) The puzzle of rice domestication. Journal of Integrative Plant Biology 49: 760–768.
Saraswat KS (2004) Plant economy of early farming communities. In: Singh BP (ed.) Early Farming Communities of the Kaimur (Excavations at Senuwar). Jaipur: Publication Scheme, 416–535.
Sato Y (1996) DNA-ga Kataru Inasaku Bunmaei Kingento Tenkai (The Origins of Rice Culture inferred from DNA Analysis). Tokyo: NHK Books (in Japanese).
Shaw J, Sutcliffe J (2003) Water management, patronage networks and religious change: New evidence from the Sanchi dam complex and counterparts in Gujarat and Sri Lanka. South Asian Studies 19: 73–104.
Shaw J, Sutcliffe J, Lloyd-Smith L, Scwenninger J-L, Chauhan MS (2007) Ancient irrigation and Buddhist history in Central India: Optically stimulated luminescence dates and pollen sequences from the Sanchi Dams. Asian Perspectives 46: 166–201.
Shaw T (1977) Hunters, gatherers and first farmers in West Africa. In: Megaw JVS (ed.) Hunters, Gatherers and First Farmers Beyond Europe: An Archaeological Survey. Leicester: Leicester University Press, 69–125.
Shu J, Wang W, Jiang L, Takahara H (2010) Early Neolithic vegetation history, fire regime and human activity at Kuahuqiao, Lower Yangtze River, East China: New and improved insight. Quaternary International 227: 10–21.
Singh IB (2005) Quaternary palaeoenvironments of the Ganga Plain and anthropogenic activity. Man and Environment 30(1): 1–35.
Slicher van Bath BH (1966) (Dutch original: 1960). The Agrarian History of Western Europe, A.D. 500–1850. London: E. Arnold.
Spencer JE (1966) Shifting Cultivation in Southeastern Asia. Berkeley: SAGE Publications.
Takahashi R (2009) Symbiotic relations between paddy-field rice cultivators and hunter-gatherer-fishers in Japanese prehistory: Archaeological considerations on the transition from the Jomon Age to the Yayoi Age. In: Ikeyea K, Ogawa H, Mithcell P (eds) Interactions Between Hunter-gatherers and Farmers: From Prehistory to Present. Senri Ethnological Studies 73. Osaka: National Museum of Ethnology, 71–98.
Tanaka K, Honda T, Ishikawa R (2010) Rice archaeological remains and the possibility of DNA archaeology: Examples from Yayoi and Heian periods of Northern Japan. Archaeological and Anthropological Sciences 2(2): 69–78.
Tewari R, Srivastava RK, Saraswat KS, Singh IB, Singh KK (2008) Early farming at Lahuradewa. Pragdhara 18: 347–373.
Thompson GB (1996) The Excavation of Khok Phanom Di. A Prehistoric Site in Central Thailand. Vol. IV: Subsistence and Environment: the Botanical Evidence. Research Reports of the Society of Antiquaries of London No. LIII. London: Society of Antiquaries.
Vaughan D, Lu B-R, Tomoka N (2008) The evolving story of rice evolution. Plant Science 174: 394–408.
Weber S, Lehman H, Barela T, Hawks S, Harriman D (2010) Rice or millets: Early farming strategies in central Thailand. Archaeological and Anthropological Sciences 2(2): 79–88.
White JC (1995) Modeling the development of early rice agriculture: Ethnoecological perspectives from northeast Thailand. Asian Perspectives 34(1): 37–68.
Xiong X, Houweling S, Wei J, Maddy E, Sun F, Barnet C (2009) Methane plume over South Asia during the monsoon season: Satellite observation and model simulation. Atmospheric Chemistry and Physics 9: 783–794.
Yan X, Akiyama H, Yagi K, Akimoto H (2009) Global estimations of the inventory and mitigation potential of methane emissions from rice cultivation conducted using the 2006 Intergovernmental Panel on Climate Change Guidelines. Global Biogeochemical Cycles 23: GB2002.
Yang DY, Liu L, Chen X, Speller CF (2008) Wild or domesticated: DNA analysis of ancient water buffalo remains from north China. Journal of Archaeological Science 35: 2778–2785.
Young R, Coningham R (2006) Botanical remains. In: Coningham R (ed.) Anuradhapura. The British-Sri Lankan Excavations Anuradhapura Salagha Watta 2. Volume II. The Artefacts. BAR International Series 1508. Oxford: Archaeopress, 629–641.
Yuan J (2010) Zooarchaeological study on domestic animals in ancient China. Disiji Yanjiu (Quaternary Sciences) 30(2): 306–317 (in Chinese).
Yuan J, Campbell R (2009) Recent archaeometric research on ‘the origins of Chinese civilization’. Antiquity 83: 96–109.
Yuan J, Flad RK (2002) Pig domestication in ancient China. Antiquity 76: 724–732.
Yuan J, Flad R, Luo Y (2008) Meat-acquisition patterns in the Neolithic Yangzi river valley, China. Antiquity 82: 351–366.
Zeder MA (2005) New perspectives on livestock domestication in the Fertile Crescent as viewed from the Zagros Mountains. In: Vigne J-D, Peters J, Helmer D (eds) The First Steps of Animal Domestication: New Archaeozoological Approaches. Oxford: Oxbow Press, 125–146.
Zeder MA (2008) Domestication and early agriculture in the Meditrranean Basin: Origins, diffusion, and impact. Proceedings of the National Academy of Sciences(USA) 105: 11 597–11 604.
Zhang LB, Zhu Q, Wu ZQ, Ross-Ibarra J, Gaut B, Ge S, et al. (2009) Selection on grain shattering genes and rates of rice domestication. New Phytologist 184: 708–720.
Zheng Y, Sun GP, Qin L, Li C, Wu X, Chen XG (2009) Rice fields and modes of rice cultivation between 5000 and 2500 BC in east China. Journal of Archaeological Science 36(12): 2609–2616.
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