Abstract
Phytolith analysis was conducted on soil samples from an archeological profile at the Hehuashan site, located in the upper Qiantang River region, China. This paper focuses on: (1) changes on the morphometric features of Oryza-type bulliform phytoliths from the rice leaves of the Early Neolithic Hehuashan site, (2) human adaptations during the Early Holocene, and (3) the cultivation of rice by Early Neolithic occupants in the upper Qiantang River region. The phytolith assemblage before and during the Early Neolithic Shangshan Culture occupation of the Hehuashan site indicates a landscape composed of reeds (Phragmites australis), rice (Oryza sp.), Bambusoideae, and some woody plants. The amount of Oryza-type bulliform phytoliths and the number of scale-like decorations present along their margins increased from the lowest to the uppermost deposits at the site. The change in the amount and morphology of bulliform phytoliths indicates the presence of wild rice around the site at the time of human occupation, which provides evidence of a shift from the collection and possible manipulation of wild rice to cultivation during the Shangshan Culture period (11400–8600 BP).
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References
AISC (Archaeological Institute of Suzhou City) (2011) Chuodun site in Kunshan. Cultural Relics Publishing House, Beijing (in Chinese with English abstract)
Chang TT (1984) Conservation of rice genetic resources: luxury or necessity? Science 224(4646):251–256. https://doi.org/10.1126/science.224.4646.251
Choi JY, Platts AE, Fuller DQ, Hsing Y-I, Wing RA, Purugganan MD (2017) The rice paradox: multiple origins but single domestication in Asian rice. Mol Biol Evol:msx049. https://doi.org/10.1093/molbev/msx049
Civáň P, Craig H, Cox CJ, Brown TA (2015) Three geographically separate domestications of Asian rice. Nature Plants 1(11):15164. https://doi.org/10.1038/nplants.2015.164
Crawford GW, Shen C (1998) The origins of rice agriculture: recent progress in East Asia. Antiquity 72(278):858–866. https://doi.org/10.1017/S0003598X00087494
Ding JL (2004) The origin of Neolithic rice paddy and rice farming in the lower reaches of Yangtze River. Southeast Culture 2:19–23 (in Chinese)
Dong Y, Liu X, Zheng D (2006) Crops and their wild relatives in China: food crops. China Agriculture Press, Beijing
Fan SG, Zhang ZJ, Liu L, Liu HX, Liang CY (2000) The species, geographical distribution of wild rice and their characteristics in China. J Wuhan Botanical Res 18(5):417–425 (in Chinese with English abstract)
Fujiwara H (1979) Fundamental studies in plant opal analysis (3): estimation of the yield of rice in ancient paddy fields through quantitative analysis of plant opal. Archaeology and Nature Science 12: 29–42 (in Japanese)
Fuller DQ (2007) Contrasting patterns in crop domestication and domestication rates: recent archaeobotanical insights from the Old World. Ann Bot 100(5):903–924. https://doi.org/10.1093/aob/mcm048
Fuller DQ, Allaby RG (2009) Seed dispersal and crop domestication: shattering, germination and seasonality in evolution under cultivation. In: Østergaard L (ed) Annual plant reviews, volume 38: Fruit development and seed dispersal. Blackwell Publishing Ltd, Wiley, pp 238–295
Fuller DQ, Harvey E, Qin L (2007) Presumed domestication? Evidence for wild rice cultivation and domestication in the fifth millennium BC of the Lower Yangtze region. Antiquity 81:316–331
Fuller DQ, Qin L, Harvey E (2008) A critical assessment of early agriculture in East Asia, with emphasis on Lower Yangzte rice domestication. Pragdhara 18:17–52
Fuller DQ, Qin L, Zheng Y, Zhao Z, Chen X, Hosoya LA, Sun G (2009) The domestication process and domestication rate in rice: spikelet bases from the Lower Yangtze. Science 323(5921):1607–1610. https://doi.org/10.1126/science.1166605
Fuller DQ, Sato Y-I, Castillo C, Qin L, Weisskopf AR, Kingwell-Banham EJ, Song J, Ahn S-M, van Etten J (2010) Consilience of genetics and archaeobotany in the entangled history of rice. Archaeol Anthropol Sci 2(2):115–131. https://doi.org/10.1007/s12520-010-0035-y
Fuller DQ, Weisskopf AR, Castillo C (2016) Pathways of rice diversification across Asia. Archaeol Int 19:84–96. https://doi.org/10.5334/ai.1915
Gao LZ, Zhang SZ, Zhou Y, Ge S, Hong DY (1996) A survey of the current status of wild rice in China. Chinese Biodiversity 4(3):160–166 (in Chinese with English abstract)
Gao LZ, Hong S (2000) Allozyme variation and population genetic structure of common wild rice Oryza rufipogon Griff. in China. Theor Appl Genet 101(3):494–502. https://doi.org/10.1007/s001220051508
Gu Y, Zhao Z, Pearsall DM (2013) Phytolith morphology research on wild and domesticated rice species in East Asia. Quatern Int 287:141–148. https://doi.org/10.1016/j.quaint.2012.02.013
Huan X, Lu H, Wang C, Tang X, Zuo X, Ge Y, He K (2015) Bulliform phytolith research in wild and domesticated rice paddy soil in South China. PLoS One 10(10):e0141255. https://doi.org/10.1371/journal.pone.0141255
Innes JB, Zong Y, Chen Z, Chen C, Wang Z, Wang H (2009) Environmental history, palaeoecology and human activity at the early Neolithic forager/cultivator site at Kuahuqiao, Hangzhou, eastern China. Quaternary Sci Rev 28(23–24):2277–2294. https://doi.org/10.1016/j.quascirev.2009.04.010
Jane WN, Chiang SHT (1991) Morphology and development of bulliform cells in around-formosana hack. Taiwania 36:85–97
Jiang L, Liu L (2006) New evidence for the origins of sedentism and rice domestication in the Lower Yangze River, China. Antiquity 80(308):355–361. https://doi.org/10.1017/S0003598X00093674
Jiang LP, Sheng DP (2007) Shangshan site and Shangshan Culture: the Neolithic archaeology research in Zhejiang Province. In: Mo D, Cao J, Zheng W, Yuan J, Cao B (eds) Researches of environmental archaeology (4). Peking University Press, Beijing, pp 25–42 (in Chinese)
Jiang L (2013) The Early Neolithic Age of the Qiantangjiang Basin and its cultural lineage. Southeast Culture 6:44–53 (in Chinese with English abstract)
Khush GS (1997) Origin, dispersal, cultivation and variation of rice. Plant Mol Biol 35(1–2):25–34. https://doi.org/10.1023/A:1005810616885
Liu L, Field J, Weisskopf A, Webb J, Jiang L, Wang H, Chen X (2010) The exploitation of acorn and rice in Early Holocene Lower Yangzi River,China. Acta Anthropol Sin 29(3): 317–333
Liu L, Lee GA, Jiang L, Zhang J (2007a) Evidence for the early beginning (c. 9000 cal. BP) of rice domestication in China: a response. The Holocene 17(8):1059–1068. https://doi.org/10.1177/0959683607085121
Liu L, Lee GA, Jiang L, Zhang J (2007b) The earliest rice domestication in China. Antiquity 81: [online project gallery, no. 313]. Available at: http://antiquity.ac.uk/projGall/liu1/index.html. (Accessed: 16th Augest 2014)
Lu H, Liu Z, Wu N, Berne S, Saito Y, Liu B, Wang L (2002) Rice domestication and climatic change: phytolith evidence from East China. Boreas 31(4):378–385. https://doi.org/10.1080/030094802320942581
Lu H, Wu N, Liu KB, Jiang H, Liu TS (2007) Phytoliths as quantitative indicators for the reconstruction of past environmental conditions in China II: palaeoenvironmental reconstruction in the Loess Plateau. Quat Sci Rev 26(5–6):759–772. https://doi.org/10.1016/j.quascirev.2006.10.006
Ma XL, Fang JY (2007) Silicas in leaves of eight wild rice species. Acta Bot Borea1-Occident Sin 27(8):1531–1536 (in Chinese with English abstract)
Madella M, Alexandre A, Ball T (2005) International code for phytolith nomenclature 1.0. Ann Bot 96(2): 253–260
Mao L, Mo D, Jiang L, Jia Y, Liu X, Li M, Zhou K, Shi C (2008) Environmental change since mid-Pleistocene recorded in Shangshan achaeological site of Zhejiang. J Geogra Sci 18(2):247–256. https://doi.org/10.1007/s11442-008-0247-6
Parry DW, Smithson F (1958) Silicification of bulliform cells in grasses. Nature 181(4622):1549–1550. https://doi.org/10.1038/1811549b0
Pearsall DM, Piperno DR, Dinan EH, Umlauf M, Zhao Z, Benfer RA Jr (1995) Distinguishing rice (Oryza sativa Poaceae) from wild Oryza species through phytolith analysis: results of preliminary research. Econ Bot 49(2):183–196. https://doi.org/10.1007/BF02862923
Piperno DR, Pearsall DM (1998) The silica bodies of tropical American grasses: morphology, taxonomy, and implications for grass systematics and fossil phytolith identification. Smithsonian Institution Press, Washington. https://doi.org/10.5962/bhl.title.103722
Piperno DR (1988) Phytolith analysis: an archaeological and geological perspective. Academic Press, San Diego
Piperno DR (2006) Phytoliths: a comprehensive guide for archaeologists and paleoecologists. Altamira Press, Lanham, Maryland
Qiu Z, Jiang H, Ding J, Hu Y, Shang X (2014) Pollen and phytolith evidence for rice cultivation and vegetation change during the Mid-Late Holocene at the Jiangli site, Suzhou, East China. PLoS One 9(1):e86816. https://doi.org/10.1371/journal.pone.0086816
Qiu Z, Shang X, Ferguson DK, Jiang H (2016) Archaeobotanical analysis of diverse plant food resources and palaeovegetation at the Zhumucun site, a late Neolithic settlement of the Liangzhu Culture in east China. Quatern Int 426:75–85. https://doi.org/10.1016/j.quaint.2016.01.010
Qu B, Zhu M, Chen X, Zhang C, Xu Y, Ding W, Li T (2010) Morphological character of bulliform cells in 22 species of Poaceae. Acta Botan Boreali-Occiden Sin 30:1595–1601
Tang SX, Sato YI, Yu WJ (1994) Discovery of wild rice grains (O. rufipogon) in the Hemudu ancient carbonized rice. Agric Archaeol (3): 88-91 (in Chinese with English abstract)
Vaughan DA (1994) The wild relatives of rice: a genetic resources handbook. International Rice Research Institute, Manila
Vecchia FD, Asmar TE, Calamassi R, Rascio N, Vazzana C (1998) Morphological and ultrastructural aspects of dehydration and rehydration in leaves of Sporobolus stapfianus. Plant Growth Regul 24(3):219–228. https://doi.org/10.1023/A:1005853527769
Wang WM, Ding JL, Shu JW, Chen W (2010) Exploration of early rice farming in China. Quatern Int 227(1):22–28. https://doi.org/10.1016/j.quaint.2010.06.007
Wang Y (2005) The bulliform cells of Poaceae. Biology Teaching 30:7–9
Wu Y, Jiang L, Zheng Y, Wang C, Zhao Z (2014) Morphological trend analysis of rice phytolith during the early Neolithic in the Lower Yangtze. J Archaeol Sci 49:326–331. https://doi.org/10.1016/j.jas.2014.06.001
Wu Z (1993) The vegetation of China. Ocean Press, Beijing
Yi S, Saito Y, Yang DY (2006) Palynological evidence for Holocene environmental change in the Changjiang (Yangtze River) delta, China. Palaeogeogra, Palaeoclimatol, Palaeoecol 241(1):103–117. https://doi.org/10.1016/j.palaeo.2006.06.016
Yi S, Saito Y, Zhao Q, Wang P (2003) Vegetation and climate changes in the Changjiang (Yangtze River) Delta, China, during the past 13,000 years inferred from pollen records. Quaternary Sci Rev 22(14):1501–1519. https://doi.org/10.1016/S0277-3791(03)00080-5
Zhang WX, Wang LL (1998) Phytoliths in leaves of 7 Oryza species. Journal of China Agricultural University 3(3):21–25 (in Chinese with English abstract)
Zhao Z (2010) New data and new issues for the study of origin of rice agriculture in China. Archaeol Anthropol Sci 2(2):99–105. https://doi.org/10.1007/s12520-010-0028-x
Zhao Z, Jiang L (2016) Analysis of floated plant remains from the Shangshan site, Pujiang county, Zhejiang Province. Relics from South 3:109–116 (in Chinese with English abstract)
Zhao ZJ, Pearsall DM, Benfer RA, Piperno DR (1998) Distinguishing rice (Oryza sativa Poaceae) from wild Oryza species through phytolith analysis, II, finalized method. Econ Bot 52(2):34–45
Zheng Y, Sun G, Qin L, Li C, Wu X, Chen X (2009) Rice fields and modes of rice cultivation between 5000 and 2500 BC in east China. J Archaeol Sci 36(12):2609–2616
Zheng YF, Liu B, Matsui A, Udatsu T, Fujiwara H (2002) Studies on subspecies changes of rice in the Neolithic age by analysis of morphological characteristics of plant opal from Nanzhuangqiao site. J Zhejiang Univ (Agric & Life Sci) 28(3):107–113 (in Chinese with English abstract)
Zheng YF, Sun GP, Chen XG (2007) Characteristics of the short rachillae of rice from archaeological sites dating to 7000 years ago. Chin Sci Bull 52(12):1654–1660. https://doi.org/10.1007/s11434-007-0258-1
Zhou HF, Xie ZW, Ge S (2003) Microsatellite analysis of genetic diversity and population genetic structure of a wild rice (Oryza rufipogon Griff.) in China. Theor Appl Genet 107(2):332–339. https://doi.org/10.1007/s00122-003-1251-y
Zong Y, Chen Z, Innes JB, Chen C, Wang Z, Wang H (2007) Fire and flood management of coastal swamp enabled first rice paddy cultivation in east China. Nature 449(7161):459–462. https://doi.org/10.1038/nature06135
Zong Y, Wang Z, Innes JB, Chen Z (2012) Holocene environmental change and Neolithic rice agriculture in the lower Yangtze region of China: a review. The Holocene 22(6):623–635. https://doi.org/10.1177/0959683611409775
Zou H, Gu J, Li M, Tang L, Ding J, Yao Q (2000) Rice paddies of Majiabang Culture excavated at Caoxieshan, Jiangsu Province. In: Yan W, Yasuda Y (eds) The origin of rice, pottery and city. Cultural Relics Publishing House, Beijing, pp 97–114 (in Chinese)
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We are grateful to our referees for helpful suggestions which have greatly improved the paper.
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This study was supported by grants from National Basic Research Program of China (no. 2015CB953803), National Natural Science Foundations of China (no.41472145&41702186), State Key Laboratory of Palaeobiology and Stratigraphy (Nanjing Institute of Geology and Palaeontology, CAS) (no.143112), and Youth Innovation Promotion Association of Chinese Academy of Sciences (to Yan Wu).
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Qiu, Z., Jiang, L., Wang, C. et al. New evidence for rice cultivation from the Early Neolithic Hehuashan site. Archaeol Anthropol Sci 11, 1259–1272 (2019). https://doi.org/10.1007/s12520-018-0602-1
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DOI: https://doi.org/10.1007/s12520-018-0602-1