[1]Munns R. Genes and salt tolerance: bringing them together. New Phytologist, 2005, 167: 645-663.[2]关元秀, 刘高焕, 刘庆生, 叶庆华. 黄河三角洲盐碱地遥感调查研究. 遥感学报, 2001, 5(1): 46-52.Guan Y X, Liu G H, Liu Q S, Ye Q H. The study of salt-affected soils in the yellow river delta based on remote sensing. Journal of Remote Sensing, 2001, 5 (1): 46-52. (in Chinese)[3]杨劲松. 中国盐渍土研究的发展历程与展望. 土壤学报, 2008, 45(5): 837-845.Yang J S. Development and prospect of the research on salt-affected soils in China. Acta Pedologica Sinica, 2008, 45(5): 837-845. ( in Chinese)[4]Norbert F T T. Strategies to reduce the impact of salt on crops (rice, cotton and chili) production: A case study of the tsunami-affected area of India. Desalination, 2007, 206: 524-530.[5]Jackson R D, Reginato R J, Idso S B. Wheat canopy temperature: A practical tool for evaluating water requirements. Water Resource Research, 1977, 13(1): 651-656.[6]Idso S B, Jackson R D, Pinter J Jr. Normalizing the stress degree day for environmental variability. Agricultural Meteorology, 1981, 24(1): 45-55.[7]Stark J C, Wright J L. Relationship between foliage temperature and water stress in potatoes. American Potato Journal, 1985, 62(2): 57-68.[8]Gardner B R, Nielsen D C, Shock C C. Infrared thermometry and the Crop Water Stress Index I. History, theory, and baselines. Journal of Production Agronomy, 1992, 5: 462-466.[9]Gardner B R, Nielsen D C, Shock C C. Infrared thermometry and the Crop Water Stress Index. II. Sampling procedures and interpretation. Journal of Production Agronomy, 1992, 5: 466-475.[10]Yuan G F, Luo Y, Sun X M, Tang D Y. Evaluation of a crop water stress index for detecting water stress in winter wheat in the North China Plain. Agricultural Water Management, 2004, 64(1): 29-40.[11]Nielsen D C. Scheduling irrigations for soybeans with the Crop Water Stress Index (CWSI). Field Crops Research, 1990, 23(2): 103-116.[12]Emekli Y, Bastug R, Buyuktas D, Emekli N Y. Evaluation of a crop water stress index for irrigation scheduling of Bermudagrass. Agricultural Water Management, 2007, 90(3): 205-212.[13]Stegman E C, Soderlund M. Irrigation scheduling of spring wheat using infrared thermometry. Transactions of the CSAE, 1992, 35(1): 143-152.[14]Alderfasi A A, Nielsen D C. Use of crop water stress index for monitoring water status and scheduling irrigation in wheat. Agricultural Water Management, 2001, 47(1): 69-75.[15]Erdem Y, Arin L, Erdem T, Polat S, Deveci M, Okursoy H, Gultas H T. Crop water stress index for assessing irrigation scheduling of drip irrigated broccoli (Brassica oleracea L. var. italica). Agricultural Water Management, 2010, 98(1): 148-156.[16]Jackson S H. Relationships between normalized leaf water potential and crop water stress index values for acala cotton. Agricultural Water Management, 1991, 20: 108-118.[17]李国臣, 于海业, 赵红霞, 马成林. 基于叶片空气温差的温室黄瓜水分胁迫指数的应用分析. 吉林农业大学学报, 2006, 28(4): 469-472.Li G C, Yu H Y, Zhao H X, Ma C L. Application analysis of water stress index of greenhouse cucumber based on leaf-air temperature difference. Journal of Jilin Agricultural University, 2006, 28(4): 469-472. (in Chinese)[18]Alves I, Pereira L S. Non-water-stressed baselines for irrigation scheduling with infrared thermometers: A new approach. Irrigation Science, 2000, 19: 101-106.[19]Al-Faraj A, Meye G E, Horst G L. A crop water stress index for tall fescue (Festuca arundinacea Schreb.) irrigation decision-making -a traditional method. Computers and Electronics in Agriculture, 2001, 31: 107-124.[20]张国伟, 张雷, 唐明星, 路海玲, 周玲玲, 周治国. 土壤盐分对棉花(Gossypium hirsutum L.)功能叶气体交换参数和叶绿素荧光参数日变化的影响. 应用生态学报, 2011, 22(8): 2045-2053.Zhang G W, Zhang L, Tang M X, Lu H L, Zhou L L, Zhou Z G. Salt tolerance evaluation of cotton (Gossypium hirsutum L) at its germinating and seedling stages and selection of related indices. Chinese Journal of Applied Ecology, 2011, 22(8): 2045-2053. (in Chinese)[21]王卫星, 罗锡文, 区颖刚, 洪添胜, 胡洪斌. 基于冠层温度的菜心缺水指数模型初步试验研究. 农业工程学报, 2003, 19(5): 47-50.Wang W X, Luo X W, Qu Y G, Hong T S, Hu H B. Preliminary research on model for determining crop water stress index of flowering Chinese cabbage based on canopy temperature. Transactions of the Chinese Society of Agricultural Engineering, 2003, 19(5): 47-50. (in Chinese)[22]屈卫群, 王邵华, 陈兵林, 王友华, 周治国. 棉花主茎叶SPAD值与氮素营养诊断研究. 作物学报, 2007, 33(6): 1010-1017.Qu W Q, Wang S H, Chen B L, Wang Y H, Zhou Z G. SPAD value of cotton leaves on main stem and nitrogen diagnosis for cotton growth. Acta Agronomica Sinica, 2007, 33(6): 1010-1017. (in Chinese)[23]Kao W Y, Tasi T T, Tasi H C. Response of three Glyeine species to salt stress. Environmental and Experimental Botany, 2006, 56: 120-125.[24]杨淑萍, 危常州, 梁永超. 盐胁迫对不同基因型海岛棉光合作用及荧光特性的影响. 中国农业科学, 2010, 43(8): 1585-1593.Yang S P, Wei C Z, Liang Y C. Effects of NaCl stress on the characteristics of photosynthesis and chlorophyll fluorescence at seedlings stage in different Sea Island cotton genotypes. Scientia Agricultura Sinica, 2010, 43(8): 1585-1593. (in Chinese)[25]杨晓慧, 蒋卫杰, 魏珉, 余宏军. 植物对盐胁迫的反应及其抗盐机理研究进展. 山东农业大学学报:自然科学版, 2006, 37(2): 302-305.Yang X H, Jiang W J, Wei M, Yu H J. Review on plant response and resistance mechanism to salt stress. Journal of Shandong Agriculture University: Natural Science Edition, 2006, 37(2): 302-305. (in Chinese)[26]Kluitenberg G J, Biggar J W. Canopy temperature as a measure of salinity stress on sorghum. Irrigation Science, 1992, 13(3): 115-121.[27]梁银丽, 张成娥. 冠层温度-气温差与作物水分亏缺关系的研究. 生态农业研究, 2000, 8(1): 24-26.Liang Y L, Zhang C E. The relationship between discrepancy of canopy and air temperature and crop water deficiency. Ecological Agriculture Research, 2000, 8(1): 24-26. (in Chinese)[28]石培华, 梅旭荣, 冷石林, 杜宝华. 冠层温度与冬小麦农田系统水分状况的关系. 应用生态学报, 1997, 8(3): 332-334.Shi P H, Mei X R, Leng S L, Du B H. Relationship between canopy temperature and water condition of winter wheat farmland ecosystem. Chinese Journal of Applied Ecology, 1997, 8(3): 332-334. (in Chinese)[29]黄晓林, 李妍, 李国强. 冠层温度与作物水分状况关系研究进展. 安徽农业科学, 2009(4): 1511-1512.Huang X L, Li Y, Li G Q. Research advance in relationship between canopy temperature and crop water status. Journal of Anhui Agricultural Sciences, 2009(4): 1511-1512. (in Chinese)[30]Reginato R J. Field quantification of crop water stress. Transactions of the CSAE, 1983, 25(6): 1651-1655.[31]袁国富, 罗毅, 孙晓敏, 唐登银. 作物冠层表面温度诊断冬小麦水分胁迫的试验研究. 农业工程学报, 2002, 18(6): 13-17.Yuan G F, Luo Y, Sun X M, Tang D Y. Winter wheat water stress detection based on canopy surface temperature. Transactions of the Chinese Society of Agricultural Engineering, 2002, 18(6): 13-17. (in Chinese)[32]李雪, 顾明, 张晓东, 毛罕平, 左志宇. 基于冠层温度的温室葡萄CWSI模型试验研究. 农机化研究, 2009(2): 129-130.Li X, Gu M, Zhang X D, Mao H P, Zuo Z Y. Preliminary research on model for determining crop water stress index of grape in a greenhouse based on canopy temperature. Journal of Agriculture Mechanization Research, 2009(2): 129-130. (in Chinese) |