Bao S D. 2000. Soil Agrochemical Analysis. China Agriculture Press, Beijing. pp. 14–147. (in Chinese)Chen Y T, Peng J, Wang J, Fu P H, Hou Y, Zhang C D, Shah F, Peng S B, Cui K H, Nie L X, Huang J L. 2015. Crop management based on multi-split topdressing enhances grain yield and nitrogen use efficiency in irrigated rice in China. Field Crops Research, 184, 50–57.Cheng S H, Cao L Y, Zhuang J Y, Chen S G, Zhan X D, Fan Y Y, Zhu D F, Min S K. 2007. Super hybrid rice breeding in China: achievements and prospects. Journal of Integrative Plant Biology, 49, 805–810.Dingkuhn M, Schnier H F, De Datta S K, Dörffling K, Javellana C, Pamplona R. 1990. Nitrogen fertilization of direct-seeded flooded vs. transplanted rice. II. Interactions among canopy properties. Crop Science, 30, 1284–1292.Escabarte R S J, Ando H, Kakuda K. 1999. Comparison of growth and 15nitrogen recovery between direct seeded flooded and transplanted rice at early growth stage under conventional and delayed planting. Soil Science and Plant Nutrition, 45, 131–142.Gong J L, Hu Y J, Long H Y, Chang Y, Li J, Zhang H C, Ma R R, Wang X Y, Dai Q G, Huo Z Y, Xu K, Wei H Y, Deng Z Z, Ming Q L. 2012. Study on collaborating characteristics of grain yield components and panicle traits of large panicle hybrid japonica rice. Scientia Agricultura Sinica, 45, 2147–2158. (in Chinese)Hayashi S, Kamoshita A, Yamagishi J, Kotchasatit A, Jongdee B. 2007. Genotypic differences in grain yield of transplanted and direct-seeded rainfed lowland rice (Oryza sativa L.) in northeastern Thailand. Field Crops Research, 102, 9–21.Hideo S. 1962. Study on rice lodging. Kyushu Agricultural Experiment Field of Retribution, 7, 419–495. (in Japanese)Hu Y J, Xing Z P, Gong J L, Liu G T, Zhang H C, Dai Q G, Huo Z Y, Xu K, Wei H Y, Guo B W, Sha A Q, Zhou Y Y, Luo X C, Liu G L. 2014a. Study on population characteristics and formation mechanisms for high yield of pot-seedling mechanical transplanting rice. Scientia Agricultura Sinica, 47, 865–879. (in Chinese)Hu Y J, Zhu D W, Qian H J, Cao W W, Xing Z P, Zhang H C, Zhou Y Y, Chen H C, Wang H Y, Dai Q G, Huo Z Y, Xu K, Wei H Y, Guo B W. 2014b. Some characteristics of mechanically transplanted pot seedlings in super high yielding population of indica-japonica hybrid rice Yongyou 2640. Acta Agronomica Sinica, 40, 2016–2027. (in Chinese)Huang J, Rozelle S, Hu R, Li N. 2001. China’s rice economy and policy: supply, demand, and trade in the 21st century. In: Sombilla M, Hossain M, Hardy B, eds., Developments in the Asian Rice Economy. International Rice Research Institute, Los Banos, Philippines. pp. 33–58.Islam M S, Peng S B, Visperas R M, Ereful N, Bhuiya S U, Julfiquar A W. 2007. Lodging-related morphological traits of hybrid rice in a tropical irrigated ecosystem. Field Crops Research, 101, 240–248.Kamiji Y, Yoshida H, Palta J A, Sakuratani T, Shiraiwa T. 2011. N applications that increase plant N during panicle development are highly effective in increasing spikelet number in rice. Field Crops Research, 122, 242–247.Kano M, Sakai K, Shiohata A. 1986. Studies on the direct underground sowing in the submerged paddy field. Part II. Physiological and ecological characteristics of rice plant in the direct underground sowing in submerged paddy field. Bulletin of the Ibaraki Agricultural Experiment Station, 26, 61–89.Kato T, Takeda K. 1996. Associations among characters related to yield sink capacity in space-planted rice. Crop Science, 36, 1135–1139.Li J, Zhang H C, Dong Y Y, Ni X C, Yang B, Gong J L, Chang Y, Dai Q G, Huo Z Y, Xu K, Wei H Y. 2011. Effects of cultivation methods on yield, growth stage and utilization of temperature and illumination of rice in different ecological regions. Scientia Agricultura Sinica, 44, 2661–2672. (in Chinese)Mann C C. 1999. Crop scientists seek a new revolution. Science, 283, 310–314.Naklang K, Fukai S, Nathabut K. 1996. Growth of rice cultivars by direct seeding and transplanting under upland and lowland conditions. Field Crops Research, 48, 115–123.Pandey S, Mortimer M, Wade L, Tuong T P, Lopez K, Hardy B. 2002. Direct seeding: Research strategies and opportunities. Direct Seeding Research Strategies & Opportunities, 14, 566–585.Peng S, Cassman K G, Virmani S S, Sheehy J, Khush G C. 1999. Yield potential trends of tropical rice since the release of IR8 and the challenge of increasing rice yield potential. Crop Science, 39, 1552–1559.Peng S, Hardey B. 2001. Rice Research for Food Security and Poverty Alleviation. International Rice Research Institute, Los Ban?os, Philippnes.San-oh Y, Mano Y, Ookawa T, Hirasawa T. 2004. Comparison of dry matter production and associated characteristics between direct-sown and transplanted rice plants in a submerged paddy field and relationships to planting patterns. Field Crops Research, 87, 43–58.San-oh Y, Tomizawa Y, Mano Y, Ookawa T, Hirasawa T. 2002. Characteristics of dry matter production in rice plants, cultivar Takanari sown directly in submerged paddy field compared with conventionally transplanted plants. Japanese Journal of Crop Science, 71, 317–327.Schnier H F, Dingkuhn M, De Datta S K, Mengel K, Faronilo J E. 1990. Nitrogen fertilization of direct-seeded flooded vs. transplanted rice. I. Nitrogen uptake, photosynthesis, growth and yield. Crop Science, 31, 1276–1284.Senbokukoku K. 1989. The research on the evolution of large-scale rice. Agricultural Management Research, 15, 29–43. (in Japanese).Shrestha S, Asch F, Dusserre J, Ramanantsoanirina A, Brueck H. 2012. Climate effects on yield components as affected by genotypic responses to variable environmental conditions in upland rice systems at different altitudes. Field Crops Research, 134, 216–228.Wang M H. 2010. Strategic consideration on speeding up entire mechanization of rice production. Agriculture Machinery Technology Extension, 12, 9–10. (in Chinese).Wei H H, Li C, Xing Z P, Wang W T, Dai Q G, Zhou G S, Wang L, Xu K, Huo Z Y, Guo B W, Wei H Y, Zhang H C. 2016. Suitable growing zone and yield potential for late-maturity type of Yongyou japonica/indica hybrid rice in the lower reaches of Yangtze River. Journal of Integrative Agriculture, 15, 50–62.Xu K, Chang Y, Zhang Q, Huo Z Y, Zhang H C, Dai Q G. 2014. Optimal mechanical transplanting method for high-yield rice in Huaibei Area. Transactions of the Chinese Society for Agricultural Machinery, 45, 117–125. (in Chinese)Xu Z J, Chen W F, Huang R D, Zhang W Z, Ma D R, Wang J Y, Xu H, Zhao M H. 2010. Genetical and physiological basis of plant type model of erect and large panicle japonica super rice in northern China. Agricultural Sciences in China, 9, 457–462.Xue Y F, Zhang F, Gao J Y. 2015. Advances in machine-transplanted rice in Jiangsu Province. Jiangsu Agricultural Mechanization, 4, 13–15. (in Chinese)Yang J C, Du Y, Wu C F, Liu L J, Wang Z Q, Zhu Q S. 2006. Growth and development characteristics of super-high-yielding mid-season japonica rice. Scientia Agricultura Sinica, 39, 1336−1345. (in Chinese)Yang J C, Peng S B, Zhang Z J, Wang Z Q, Visperas R M, Zhu Q S. 2002. Grain and dry matter yields and partitioning of assimilates in japonica/indica hybrid rice. Crop Science, 42, 766–772.Yang Z Y, Li N, Ma J, Sun Y J, Xu H. 2014. High-yielding traits of heavy panicle varieties under triangle planting geometry: A new plant spatial configuration for hybrid rice in China. Field Crops Research, 168, 135–147.Yoshida S, Forno D, Cock J, Gomez K. 1976. Laboratory Manual for Physiological Studies of Rice. International Rice Research Institute, the Philippines.Yuan L P. 1994. Increasing yield potential in rice by exploitation of heterosis. In: Virmani S S, ed., Hybrid Rice Technology, New Developments and Future Prospects. International Rice Research Institute, Los Ban?os, Philippnes. pp. 1–6.Zhang H C, Gong J L. 2014. Research status and development discussion on high-yield agronomy of mechanized planting rice in China. Scientia Agricultura Sinica, 47, 1273–1289. (in Chinese)Zhang H C, Guo B W, Gong J L. 2013a. Speed up development of high yield mechanization cultivation of rice, steadily improve the cultivation modernization of rice in China. China Rice, 19, 3–6. (in Chinese)Zhang H C, Wang X Q, Dai Q G, Huo Z Y, Xu K. 2003b. Effect of N-application rate on yield, quality and characters of nitrogen uptake of hybrid rice variety Liangyoupeijiu. Scientia Agricultura Sinica, 36, 800−1558. (in Chinese)Zhang H C, Wu G C, Li D J, Xiao Y C, Gong J L, Li J, Dai Q G, Huo Z Y, Xu K, Gao H, Wei H Y, Sha A Q, Zhou Y Y, Wang B J, Wu A G. 2010. Population characteristics and formation mechanism for super-high-yielding hybrid japonica rice (13.5 t ha−1). Acta Agronomica Sinica, 36, 1547−1558. (in Chinese)Zhang Z J, Chu G, Liu L J, Wang Z Q, Wang X M, Zhang H, Yang J C, Zhang J H. 2010. Mid-season nitrogen application strategies for rice varieties differing in panicle size. Field Crops Research, 150, 9–18.Zhang Z J, Xie C L, Xie R K, Lang Y Z, Yang L, Zhang J F, Zhu Q S. 2011. Population production capacity of direct-seeding rice in central Jiangsu region and effects of nitrogen application. Acta Agronomica Sinica, 37, 677–685. (in Chinese) |