[1] B. Barnabás K, J?ger A. The effect of drought and heat stress on reproductive processes in cereals [J]. Plant Cell Environ., 2008(31): 11–38. [2] Schlenker W, Roberts M J. Nonlinear temperature effects indicate severe damages to US crop yields under climate change[J], Proc. Natl. Acad. Sci. U.S.A. 2009(106):15594–15598 [3] Semenov M A, Shewry P R. Modeling predicts that heat stress, not drought, will increase vulnerability of wheat in Europe[J].Sci. Rep., 2011 (1):66 [4] 李永庚,于振文,张秀杰,等. 小麦产量与品质对灌浆不同阶段高温胁迫的响应[J].植物生态学报,2005,29(3):461-466 [5] Wiegand C L, Cuellar J A. Duration of grain filling and kernel weight of wheat as affected by temperature. Crop Science,1981,21:95-101 [6] 许为钢,胡琳,盖钧镒, 等. 小麦耐热性研究[J]. 华北农学报,1999,14(2) :1-5 [7] 闫长生,肖世和,张秀英,等. 冬小麦品种生育后期的耐热性评价.华北农学报,2003,18(3):15-17 [8] Pinto R S, Matthew P R, Mathews K L, et al. Heat and drought adaptive QTL in a wheat population designed to minimize confounding agronomic effects. Theoretical Applied Genetics, 2010, 121:1001–1021 [9] Yang J, Sears R G, Gill B S et al. Quantitative and molecular characterization of heat tolerance in hexaploid wheat[J]. Euphytica1, 2002, 26: 275–282 [10] 徐如强,孙其信,张树榛.小麦耐热性研究现状与展望[J].中国农业大学学报,1998,3(3):33-40 [11] Fokar M, Nguyen H T, Blum A. Heat tolerance in spring wheat.Ⅰ.Estimating-cellular thermotolerance and heritability [J]. Euphytica,1998,104:1-8 [12] Shanahan J F, Edwards I B,Quick J S, et al. Membrane thermostability and heat tolerance of spring wheat.Crop Sci,1990,30:247-251 [13] Sadalla M M,Quick J F, Shanahan J F. Heat tolerance in winter wheat.1. Hardening and genetic effects on membranes thermo-stability.Crop Science,1990,30:1243-1247 [14] Sadalla M M,Quick J F,Shanahan J F.Heat tolerance in winter wheat 2.Membranes thermostability and field performance.Crop Science,1990,30:1248-1251 [15] Blum A,Ebercon A.Cell membrane stability as a measure of drought and heat tolerance in wheat[J]. Crop Sci, 1981, 21:43-4 [16] 周人纲,樊志和,李晓芝,等. 高温锻炼对小麦细胞膜热稳定性的影响[J].1993,8(3):33-37 [17] Blum A, Klueva N, Nguyen H T. Wheat cellular thermo tolerance is related to yield under heat stress [J]. Euphytica, 2001, 117:117-123 [18] 陈希勇,孙其信,孙长征.春小麦耐热性表现及其评价.中国农业大学学报,2000,5(1):43-49 [19] Reynolds M P, Balota M, Delgado M I B, et al. Physiological and morphological traits associated with spring wheat yield under hot,irrigated conditions. Aust J Plant Physiol.,1994, 21:717-730 [20] 陈小霞,景晓东,梁小娜,尹钧,牛洪斌. R E C法鉴定黄淮麦区1 5个小麦品种的耐热性. 安徽农业科学,2009,37 (31):15189-15190 [21] 张嵩午,刘党校. 冷型小麦品质稳定性的研究[J]. 自然科学进展,2007,17(1) :29-30 [22] Babar M A, van Ginkel M, Klatt AR, et al. The potential of using spectral reflectance indices to estimate yield in wheat grown under reduced irrigation. Euphytica,2006, 150:155–172 [23] Olivares-Villegas J J, Reynolds M P, McDonald G K. Drought-adaptive attributes in the Seri/Babax hexaploid wheat population. Funct Plant Biol,2007,34:189–203 [24] Al-Khatib K, Paulsen GM. Photosynthesis and productivity during high-temperature stress of wheat genotypes from major world regions. Crop Science,1990, 30:1127–1132 [25] Gautam A,SAgrawal D,SSaiPrasad SV,Set al. A quick method to screen high and low yielding wheat cultivars exposed to high temperature. Physiol Mol Biol Plants.S2014,20(4):533-537.S [26] 陈贻竹,李晓萍,夏丽,等.叶绿素荧光技术在植物环境胁迫研究中的利用[J].热带亚热带植物学报,1995,3(4):79-86 [27] Mofat J M, Sears G, Cox T S, et al. Wheat high temperature tolerance during reproductive growth. I. Evaluation by chlorophyll fluorescence[J]. Crop Science, 1990,30:881-885 [28] Bennett D, Reynolds M, Mullan D, et al. Detection of two major grain yield QTL in bread wheat(Triticum aestivumL.) under heat, drought and high yield potential environments[J].Theoretical and Applied Genetics, 2012 ,125(7):1473-85 [29] Mason R E, Mondal S, Beecher F W, et al. Genetic loci linking improved heat tolerance in wheat (Triticum aestivumL.) to lower leaf and spike temperatures under controlled conditions. Euphytica , 2011, 180:181–194 [30] Talukder S K, Babar M A, Vijayalakshmi K, et al. Mapping QTL for the traits associated with heat tolerance in wheat (Triticum aestivumL.). BMC Genetics, 2014, 15:97 [31] Vijayalakshmi K, Fritz A K, Paulsen G M, et al. Modeling and mapping QTL for senescence-related traits in winter wheat under high temperature. Molecular Breeding, 2010, 26:163–175 [32] Wang R X, Hai L, Zhang X Y, et al. QTL mapping for grain filling rate and yield-related traits in RILs of the Chinese winter wheat population Heshangmai×Yu8679. Theoretical and Applied Genetics, 2009, 118:313–325 [33] Paliwal R, R?der M S, Kumar U, et al. QTL mapping of terminal heat tolerance in hexaploid wheat (T. aestivumL.). Theoretical and Applied Genetics, 2012, 125:561–575 [34] Ciuca M, Petcu E. SSR markers associated with membrane stability in wheat (Triticum aestivum L.). Romanian Agricultural Research, 2009, 26:21–24 [35]李世平,昌小平,王成社,等.小麦灌浆期耐热性QTL定位分析.中国农业科学,2013,46(10):2119-2129 [36] 李世平,昌小平,王成社,等.小麦幼苗耐热性的QTL定位分析.西北植物学报,2012,32(8):1525-1533 [37] Groos C, Robert N, Bervas E, et al. Genetic analysis of grain protein-content, grain yield and thousand-kernel weight in bread wheat. 2003, Theoretical and Applied Genetics,106:1032–1040 [38] Kumar N, Kulwal P L, Balyan HS, et al. QTL mapping for yield and yield contributing traits in two mapping populations of bread wheat. Molecular Breed, 2007, 19:163-177 [39] Kolluru V, Allan K F,Gary M, et al.Modeling and mapping QTL for senescence-related traits in winter wheat under high temperature. 2010,Molecular Breeding, 26:163–175 [40] Wahid A, Gelani S, Ashraf M, et al. Heat tolerance in plants: an overview. Environmental and Experimental Botany, 2007,61(3):199-223 [41] Fischer R A, Rees D, Sayre K D, et al.Wheat yield progress associated with higher stomatal conductance and photosynthetic rate, and cooler canopies[J]. Crop Science,1998, 38, 1467–1475 [42] Yano M,Sasaki F.Genetic and molecular dissection of quantitative traits in rice[J].1997, Plant Molecular Biology,35:145-153
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