[1]Horie T, Shiraiwa T, Homma K, Katsure K, Maeda Y, Yoshida H. Can yields of lowland rice resume the increases that they showed in the 1980. Crop Science, 2005, 8(3):259-274.[2]凌启鸿. 作物群体质量. 上海: 上海科技出版社, 2000: 42-210.Ling Q H. The Quality of Crop Population. Shanghai: Shanghai Scientific & Technical Publishers, 2000: 42-210. (in Chinese)[3]张洪程, 吴桂成, 吴文革, 戴其根, 霍中洋, 许轲, 高辉, 魏海燕, 黄幸福, 龚金龙. 水稻“精确稳前、控蘖优中、大穗强后”超高产定量栽培模式. 中国农业科学, 2010, 43(13): 2645-2660.Zhong H C, Wu G C, Wu W G, Dai Q G, Huo Z Y, Xu K, Gao H, Wei H Y, Huang X F, Gong J L. The sol model of quantitative cultivation of super-high yield rice. Scientia Agricultura Sinica, 2010, 43(13): 2645-2660.(in Chinese)[4]杨昌达, 熊继文, 钱晓刚, 陆引罡, 熊玉唐. 再论贵州杂交水稻超高产潜力. 种子, 2005(5): 65-69.Yang C D, Xiong J W, Qian X G, Lu Y G, Xiong Y T. Revisiting super-high-yield potential of hybrid rice in Guizhou. Seed, 2005(5): 65-69. (in Chinese)[5]贵州年鉴. 贵州: 贵州年鉴出版社, 2011: 299-301.Guizhou Yearbook. Guizhou: Guizhou Yearbook Publishers, 2011: 299-301. (in Chinese)[6]王绍华, 曹卫星, 丁艳锋, 田永超, 姜东. 水氮互作对水稻氮吸收与利用的影响. 中国农业科学, 2004, 37(4): 497-501.Wang S H, Cao W X, Ding Y F, Tian Y C, Jiang D. Interactions of water management and nitrogen fertilizer on nitrogen absorption and utilization in rice. Scientia Agricultura Sinica, 2004, 37(4): 497-501. (in Chinese)[7]王绍华, 吉志军, 刘胜环, 丁艳锋, 曹卫星. 水稻氮素供需差与不同叶位叶片氮转运和衰老的关系. 中国农业科学, 2003, 36(11): 1261-1265.Wang S H, Ji Z J, Liu S H, Ding Y F, Cao W X. Relationships between balance of nitrogen supply-demand and nitrogen translocation and senescence of leaves at different positions of rice. Scientia Agricultura Sinica, 2003, 36(11): 1261-1265. (in Chinese)[8]马国辉, 龙继锐, 戴清明, 周静. 超级杂交中稻Y两优1号最佳缓释氮肥用量与密度配置研究. 杂交水稻, 2008, 23(6): 73-77.Ma G H, Long J R, Dai Q M, Zhou J. Studies on the optimized allocation of controlled-release nitrogen fertilizer application and planting density for medium super hybrid rice combination Y liangyou 1. Hybrid Rice, 2008, 23(6): 73-77. (in Chinese)[9]李刚华, 张国发, 陈功磊, 王绍华, 凌启鸿, 丁艳锋. 超高产常规粳稻宁粳1号和宁粳3号群体特征对氮的响应. 作物学报, 2009, 35(6): 1106-1114.Li G H, Zhang G F, Chen G L, Wang S H, Ling Q H, Ding Y F. Population characteristics of super japonica rice Ningjing 1 and Ningjing 3 and its responses to nitrogen. Acta Agronomica Sinica, 2009, 35(6): 1106-1114.(in Chinese)[10]张洪程, 吴桂成, 戴其根, 霍中洋, 许轲, 高辉, 魏海燕, 吕修涛, 万靓军, 黄银忠. 水稻氮肥精确后移及其机制. 作物学报, 2011, 37(10): 1837-1851.Zhang H C, Wu G C, Dai Q G, Huo Z Y, Xu K, Gao H, Wei H Y, Lv X T, Wan L J, Huang Y Z. Precise postponing nitrogen application and its mechanism in rice. Acta Agronomica Sinica, 2011, 37(10): 1837-1851. (in Chinese)[11]杨从党, 李刚华, 李贵勇, 夏琼梅, 邓安凤, 刘正辉, 王绍华, 凌启鸿, 丁艳锋. 立体生态区水稻定量促控栽培技术的增产机理. 中国农业科学, 2012, 45(10): 1904-1913.Yang C D, Li G H, Li G Y, Xia Q M, Deng A F, Liu Z H, Wang S H, Ling Q H, Ding Y F. Research on the mechanism of grain yield increase of rice by quantitative intensifying and controlling cultivation under an erect ecology in Yunnan Province of China. Scientia Agricultura Sinica, 2012, 45(10):1904-1913.(in Chinese)[12]凌启鸿, 张洪程, 戴其根, 丁艳锋, 凌励, 苏祖芳, 徐茂, 阙金华, 王绍华. 水稻精确定量施氮研究. 中国农业科学, 2005, 38(12): 2457-2467.Ling Q H, Zhang H C, Dai Q G, Ding Y F, Ling L, Su Z F, Xu M, Que J H, Wang S H. Study on precise and quantitative nitrogen application in rice. Scientia Agricultura Sinica, 2005, 38(12): 2457-2467. (in Chinese)[13]李景蕻, 李刚华, 张应贵, 罗启荣, 杨从党, 王绍华, 刘正辉, 王强盛, 丁艳锋. 精确定量栽培对高海拔寒冷生态区水稻株型及产量的影响. 中国农业科学, 2009, 42(9): 3067-3077.Li J H, Li G H, Zhang Y G, Luo Q R, Yang C D, Wang S H, Liu Z H, Wang Q S, Ding Y F. Effects of precise and quantitative cultivation on plant type and yield of rice in high altitude and cold ecological area. Scientia Agricultura Sinica, 2009, 42(9): 3067-3077. (in Chinese)[14]凌启鸿, 张洪程, 蔡建中, 苏祖芳, 凌励. 水稻高产群体质量及其优化控制探讨. 中国农业科学, 1993, 26(6): 1-11.Ling Q H, Zhang H C, Cai J Z, Su Z F, Ling L. Investigation on the population quality of high yield and its optimizing control programme in rice. Scientia Agricultura Sinica, 1993, 26(6): 1-11. (in Chinese)[15]王丰, 张国平, 白朴. 水稻源库关系评价体系研究进展与展望. 中国水稻科学, 2005, 19(6): 556-560.Wang F, Zhang G P, Bai P. Achievement and prospects of research on evaluation of the relationship between source and sink in rice. Chinese Journal of Rice Science, 2005, 19(6): 556-560. (in Chinese)[16]柯建国, 江海东, 陆建飞, 吴春, 陈绍尚. 水稻不同源库类型品种灌浆特点及源库协调关系的研究. 南京农业大学学报, 1998, 21(3): 15-20.Ke J G, Jiang H D, Lu J F, Wu C, Chen S H. The characteristics of grain filling and coordination of source and sink during filling period in relation to different source-sink types of rice. Journal of Nanjing Agricultural University, 1998, 21(3): 15-20. (in Chinese)[17]Sala R G, Westgate M E, Andrade F H. Source/sink ratio and the relationship between maximum water content, maximum volume, and final dry weight of maize kernels. Field Crops Research, 2007, 101: 19-25.[18]马均, 黎汉云, 李仕贵, 田彦华, 高克铭. 重穗型杂交稻冈优527的生理特性及高产栽培技术研究. 西南农业学报, 2001, 14(4): 29-33.Ma J, Li H Y, Li S G, Tian Y H, Gao K M. Physiological characteristics and high-yielding practices of the heavy panicle hybrid rice Gangyou 527. Southwest China Journal of Agricultural Sciences, 2001, 14(4): 29-33. (in Chinese)[19]杨建昌, 杜永, 吴长付, 刘立军, 王志琴, 朱庆森. 超高产粳型水稻生长发育特性的研究. 中国农业科学, 2006, 39(7): 1336-1345. Yang J C, Du Y, Wu C F, Liu L J, Wang Z Q, Zhu Q S. Development characteristics of super-high-yielding mid-season japonica rice. Scientia Agricultura Sinica, 2006, 39(7): 1336-1345. (in Chinese)[20]马均, 朱庆森, 马文波, 田彦华, 杨建昌, 周开达. 重穗型水稻光合作用、物质积累与运转的研究. 中国农业科学, 2003, 36(4): 375-381.Ma J, Zhu Q S, Ma W B, Tian Y H, Yang J C, Zhou K D. Studies on the photosynthetic characteristics and accumulation and transformation of assimilmation product in heavy panicle type of rice. Scientia Agricultura Sinica, 2003, 36(4): 375-381. (in Chinese)[21]Zhang Y B, Tang Q Y, Zhou Y B, Li D Q, Qin J Y, Yang S H, Chen L J, Xia B, Peng S B. Yield potential and radiation use efficiency of “super” hybrid rice grown under subtropical conditions. Field Crops Research, 2009, 114: 91-98.[22]吴桂成, 张洪程, 戴其根, 霍中洋, 许轲, 高辉, 魏海燕, 沙安勤, 徐宗进, 钱宗华, 孙菊英. 南方粳型超级稻物质生产积累及超高产特征的研究. 作物学报, 2010, 36(11): 1921-1930.Wu G C, Zhang H C, Dai Q G, Huo Z Y, Xu K, Gao H, Wei H Y, Sha A Q, Xu Z J, Qian Z H, Sun J Y. Characteristics of dry matter production and accumulation and super-high yield of japonica super rice in South China. Acta Agronomica Sinica, 2010, 36(11): 1921-1930. (in Chinese)[23]Peng S B, Cassman K G, Virmani S S, Sheehy J, Khush G S. Yield potential trends of tropical rice since the release of IR8 and the challenge of increasing rice yield potential. Crop Sciences, 1999, 39: 1552-1559.[24]Peng S B, Khush G S, Virk P, Tang Q Y, Zou Y B. Progress in ideotype breeding to increase rice yield potential. Field Crops Research, 2008, 108: 32-38.[25]张洪松, 岩田忠寿, 佐腾勉. 粳型杂交稻与常规稻的物质生产及营养特性的比较. 西南农业学报, 1995, 8(4):11-16. Zhang H S, Tadatoshai I, Sato B. Comparison of matter production and nutrition characteristics for japonica hybrid rice and convention rice. Southwest China Journal of Agricultural Sciences, 1995, 8(4): 11-16. (in Chinese)[26]杨建昌, 陈忠辉, 杜永. 水稻超高产群体特征及其栽培技术. 中国农业科技导报, 2004, 6(4): 37-41. Yang J C, Chen Z H, Du Y. Characteristics of super high-yielding population of rice and cultivation techniques. Review of China Agricultural Science and Technology, 2004, 6(4): 37-41. (in Chinese)[27]霍中洋, 魏海燕, 张洪程, 龚振恺, 戴其根, 许轲. 穗肥运筹对不同秧龄机插超级稻宁粳1号产量及群体质量的影响. 作物学报, 2012, 38(8): 1460-1470.Huo Z Y, Wei H Y, Zhang H C, Gong Z K, Dai Q G, Xu K. Effect of panicle nitrogen fertilizer quality in mechanical transplanted seedling ages. Acta Agronomica Sinica, 2012, 38(8): 1460-1470. (in Chinese) |