[1] 程式华,李建.现代中国水稻[M].北京:金盾出版社,2007.
[2] Chen S, Zeng F R, Pao Z Z, et al. Characterization of high- yield performance as affected by genotype and environment in rice[J]. Journal of Zhejiang University SCIENCE B, 2008,9(5):363-370.
[3] Ying J, Peng S, Yang G, et al. Comparison of high- yield rice in tropical and subtropical environments. I. Determinations of grain and dry matter yields[J]. Field Crops Research,1998a(57):71-84.
[4] 杨惠杰,李义珍,杨仁崔,等.超高产水稻的干物质生产特性研究[J].中国水稻科学,2001,15(4):265-270.
[5] 杨从党.不同生态环境下水稻产量差异的生物学基础[D].北京:中国农业科学院,2002.
[6] 王勋,戴廷波,姜东,等.不同生态环境下水稻基因型产量形成与源库特性的比较研究[J].应用生态学报,2005,16(4):615-619.
[7] Li G, Xue L, Gu W, et al. Comparison of yield components and plant type characteristics of high- yield rice between Taoyuan, a‘special eco- site’and Nanjing, China[J]. Field Crops Research, 2009(112):214-221.
[8] Ying J, Peng S, Yang G, et al. Comparison of high- yield rice in tropical and subtropical environments.II. nitrogen accumulation and utilization efficiency[J]. Field Crops Research,1998b(57):85-93.
[9] 翟虎渠,曹树青,唐运来,等.籼型杂交水稻光合性能的配合力及遗传力分析[J].作物学报,2002,28(2):154-160.
[10] Katsura K, Maeda S, Lubis I, et al. The high yield of irrigated rice in Yunnan China: a cross-location analysis[J]. Field Crops Research, 2008(107):1-11.
[11] 杨从党,周能,袁平荣,等.高产水稻品种的物质生长特性[J].西南农业学报,1998(11):89-94.
[12] Lee K, Akita S. Factors causing the variation in the temperature coefficient on dark respiration in rice (Oryza sativa L.) [J].Plant Production Science,2000(3):38-42.
[13] Sheehy J E, Mitchell P L, Ferrer A B. Decline in rice grain yields with temperature: models and correlations can give different estimates[J]. Field Crops Research,2006(98):151-156.
[14] Nagarajan S, Jagadish S V K, Hari Prasad A S, et al. Local climate affects growth, yield and grain quality of aromatic and nonaromatic rice in northwestern India[J]. Agriculture, Ecosystems and Environment,2010(138):274-281.
[15] Peng S, Huang J, Sheehy J E, et al. Rice yields decline with higher night temperature from global warming[J]. PNAS,2004(101):9971- 9975.
[16] Welch J R, Vincent J R, Auffhammer M, et al. Rice yields in tropical/subtropical Asia exhibit large but opposing sensitivities to minimum and maximum temperatures[J]. PNAS,2010(107):14562- 14567.
[17] Kanno K, Mae T, Makino A. High night temperature stimulates photosynthesis, biomass production and growth during the vegetative stage of rice plants[J]. Soil Science and Plant Nutrition, 2009(55):124-131.
[18] Kanno K, Makino A. Increased grain yield and biomass allocation in rice under cool night temperature[J]. Soil Science and Plant Nutrition,2010(56):412-417.
[19] Yoshida S, Satake T, Mackill D S. High-temperature stress in rice [J]. IRRI Research Paper Series,1981(67):1-15.
[20] Rutger J N, Peterson M L. Cold Tolerance of Rice in California[R]. Report of a Rice Cold Tolerance Workshop, International Rice Research Institute, Philippines,1979:101-104.
[21] Mohammed A R, Tarpley L. High nighttime temperatures affect rice productivity through altered pollen germination and spikelet fertility [J]. Agricultural and Forest Meteorology,2009a(149):999-1008.
[22] Guo Y P, Zhou H F, Zhang L C. Photosynthetic characteristics and protective mechanism against photooxidation during high temperature stress in two citrus species[J]. Scientia Horticulture, 2006(108):260-267.
[23] Havaux M, Tardy F. Temperature- dependent adjustment of the thermal stability of photosystem Ⅱ in vivo: possible involvement of xanthophylls-cycle pigments[J]. Planta,1996(198):324-333.
[24] Mohammed A R, Tarpley L. Impact of high nighttime temperature on respiration,membrane stability, antioxidant capacity, and yield of rice plants[J]. Crop Science,2009b(49):313-322.
[25] Larkindale J, Knight M R. Protection against heat stress- induced oxidative damage in Arabidopsis involves calcium, abscisic acid, ethylene, and salicylic acid[J]. Plant Physiology,2002(128):682-695.
[26] Zheng S H, Nakamoto H, Yoshikawa K, et al. Influence of high night temperature on flowering and pod setting in soybean[J]. Plant Production Science,2002(5):215-218.
[27] Cheng W, Sakai H, Yagi K, et al. Interactions of elevated CO2 and night temperature on rice growth and yield[J]. Agricultural and Forest Meteorology,2009(149):51-58.
[28] 徐福荣,戴陆园,张红生,等“ . II优084”在永胜涛源创世界水稻单产新高的栽培模式探讨[J].西南农业学报,2004(17):44-48.
[29] 张凤文.涛源杂交稻单产创世界纪录栽培探讨[J].耕作与栽培, 2002(1):19-20.
[30] 顾伟,李刚华,杨从党,等.特殊生态区水稻超高产生态特征研究[J].南京农业大学学报,2009,32(4):1-6.
[31] 兰华雄,王建明,杨居钿.水稻高产气象生态分析[J].亚热带农业研究,2005,1(2):50-54.
[32] Kennedy A C, Smith K L. Soil microbial diversity and the sustainability of agricultural soils[J]. Plant and Soil,1995,170(1):75- 86.
[33] Tilman D, Wedin D, Knops J. Productivity and sustainability influenced by biodiversity in grassland ecosystems[J]. Nature,1996 (379):718-720.
[34] Griffiths B S, Ritz K, Bardgett R D, et al. Ecosystem response of pasture soil communities to fumigation-induced microbial diversity reductions: an examination of the biodiversity ecosystem function relationship[J]. Oikos,2000,90(2):279-294.
[35] Aboim M C R, Coutinho H L C, Peixoto R S, et al. Soil bacterial community structure and soil quality in a slash-and-burn cultivation system in Southeastern Brazil[J]. Applied Soil Ecology,2008,38(2): 100-108.
[36] 张乃明.环境土壤学[M].北京:中国农业大学出版社,2013.
[37] 段红平,张乃明,李进学,等.超高产水稻根际微生物类群数量初探[J].中国农学通报,2007,23(2):285-289.
[38] 李进学,段红平,张乃明,等.不同生态区水稻根际微生物数量分析[J].耕作与栽培,2007a(1):3-5,26.
[39] 李进学.超高产水稻根际土壤微生物类群数量及其养分状况的变化[D].昆明:云南农业大学,2007.
[40] 张仕颖.丁草胺对高产水稻土微生物多样性的生态效应研究[D].昆明:云南农业大学,2013.
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