[1]Guo Xiaoyin, Cheng Guodong. Advances in the application of remote sensing to evapotranspiration research [J].Advances in Earth Science,2004, 19(1): 107-114. [郭晓寅, 程国栋. 遥感技术应用于地表面蒸散发的研究进展 [J].地球科学进展, 2004, (1):107-114.] [2]Zhao Wenzhi, Cheng Guodong. Review of several problems on the study of ecohydrological processes in arid zones [J].Chinese Science Bulletin,2002, 47 (5): 353-360. [赵文智, 程国栋. 干旱区生态水文过程研究若干问题评述 [J]. 科学通报, 2001, 46 (22): 1 851-1 857.] [3]Bowen L S. The ratio of heat losses by conduction and by evaporation from any water surface [J].Physics Review,1926, 27(6): 779-789. [4]Thornthwaite C W, Benjamin Holzman. The determination of evaporation from land and water surfaces [J].Monthly Weather Review,1939, 67:4-11. [5]Penman H L. Natural evaporation from open water, bare soil land and grass [J].Proceedings of the Royal Society of London (Series A), 1948, 193: 120-146. [6]Monteith J L. Evaporation and environment [J].Symposia of the Society for Experimental Biology, 1965, 19: 205-234. [7]Allen R G, Pereira L S, Raes D,et al. Crop Evaportranspiratin Guidelines for Computing Crop Water Requirements [M].Rome: FAO Irrigation and Drainage Paper, 1998. [8]Priestley C H B, Taylor R J. On the ass essment of surface heat flux and evaporation using large-scale parameters [J].Monthly Weather Review,1972, 100: 81-92. [9]Sun Jielun, Mahrt L. Determination of surface fluxes from the surface radiative temperature [J].Journal of the Atmospheric Science,1995, 52(8): 1 096-1 106. [10]Shuttleworth W J, Wallance J S. Evaporation from sparse crops-an energy combination theory [J].Quarterly Journal of the Royal Meteorological Society,1985, 111(469): 839-855. [11]Dolman A J. A multiple-source land surface energy balance model for use in general circulation models [J].Agricultural and Forest Meteorology,1993, 65: 21-45. [12]Choudhury B J, Monteith J L. A four-layer model for the heat budget of homogeneous land surfaces [J].Quarterly Journal of Royal Meteorological Society,1988, 114: 373-398. [13]Blyth E M, Harding R J. Application of aggregation model to surface heat flux from the Sahelian tiger bush [J]. Agricultural and Forest Meteorology,1995, 72: 213-235. [14]Norman J M, Kustas W P, Humes K S. Source approach for estimating soil and vegetation energy fluxes in observations of directional radiometric surface temperature [J].Agricultural and Forest Meteorology,1995, 77: 263-293. [15]Monteith J L, Unsworth M H. Principles of Environmental Physics [M]. London: Edward Arnold, 1990. [16]Tateishi R, Ahn C H. Mapping evaportranspiration and water balance for global land surfaces [J].Journal of Photogrammetry and Remote Sensing,1996, 51: 209-215. [17]Zuo Dakang, Zhou Yunhua. Research on Earth Surface Radiation [M]. Beijing: Science Press, 1991:37-39. [左大康, 周允华.地球表层辐射研究 [M].北京:科学出版社, 1991:37-39.] [18]Liu Huizhi, Tu Gang, Dong Wenjie. Characteristics of micrometeorology in the different surface layers over semi-arid area in Tongyu, northeast of China [J].Chinese Science Bulletin,2008,53(10): 1 220-1 227. [刘辉志, 涂钢, 董文杰. 半干旱区不同下垫面地表反照率变化特征 [J].科学通报,2008, 53(10): 1 220-1 227.] [19]Zhang Guo, Zhou Guangsheng, Yang Fulin. Analysis on dynamic characteristics of surface albedo over a desert steppe in Inner Mongolia [J].Acta Ecologica,2010, 30(24): 6 943-6 951. [张果, 周广胜, 阳伏林. 内蒙古荒漠草原地表反照率变化特征 [J].生态学报, 2010, 30(24): 6 943-6 951.] [20]Wen Lijuan,Lü Shihua, Chen Shiqiang,et al. Observation study on diurnal asymmetry in surface albedo of oasis in arid region [J].Acta Energiae Solaris,2009, 30(7): 953-956. [文莉娟, 吕世华, 陈世强,等. 干旱区绿洲地表反照率不对称观测研究 [J]. 太阳能学报, 2009, 30(7): 953-956.] [21]Wu Aisheng, Zhong Qiang. Relationships between global radiation surface albedo and solar elevation angle for several underlying surfaces in the HeiHe experimental area [J].Plateau Meteorology, 1993, 2(5): 147-155. [吴艾笙, 钟强. 黑河实验区若干下垫面总辐射、地表反射率与太阳高度角的关系 [J]. 高原气象, 1993, 2(5): 147-155.] [22]Chen Jiansui. The distribution and variation of the surface albedo in China [J].Acta Geographica,1964, 30(2): 85-93. [陈建绥.中国地表反射率的分布及变化 [J]. 地理学报,1964,30(2): 85-93.] [23]Chen Yunhao, Li Xiaobing, Xie Feng. Study on surface albedo distribution over northwest China using remote sensing technique [J]. Scientia Geographica,2001, 21(4) : 327-333. [陈云浩, 李晓兵, 谢锋. 我国西北地区地表反照率的遥感研究 [J]. 地理科学, 2001, 21(4): 327-333.] [24]Xiao Yao,Zhao Lin,Li Ren,et al. The characteristics of surface albedo in permafrost regions of northern Tibetan Plateau [J].Journal of Glaciology and Geocryology,2010, 32(3): 480-488. [肖瑶, 赵林, 李韧,等. 藏北高原多年冻土区地表反照率特征分析 [J].冰川冻土, 2010, 32(3): 480-488.] [25]Guo Jianmao, Yu Qiang, Wang Lianxi,et al. Study on regional distribution of land surface parameters and components of surface radiation balance over South Ningxia [J].Geographical Research, 2007, 26(6): 1 127-1 136. [郭建茂,于强,王连喜,等.宁南地区地表特征参数及辐射平衡区域分布 [J].地理研究, 2007, 26(3): 1 127-1 136.] [26]Zhang Jie,Zhang Qiang,Guo Ni,et al. Retrieval of the land surface albedo over arid oasis of Northwest China from EOS-MODIS data [J].Chinese Journal of Atmospheric Sciences,2005, 29(4):510-517. [张杰, 张强, 郭铌,等. 应用EOS-MODIS卫星资料反演西北干旱绿洲的地表反照率 [J].大气科学, 2005, 29(4):510-517.] [27]Wang Jiemin, Gao Feng. Discussion on the problems on land surface albedo retrieval by remote sensing data [J].Remote Sensing Technology and Application,2004, 19(5): 295-300. [王介民,高峰. 关于地表反照率遥感反演的几个问题 [J].遥感技术与应用,2004,19(5):295-300.] [28]Eastwood J A, Yates M G, Thomson A C,et al. The reliability of vegetation indices for monitoring saltmarsh vegetation cover [J].International Journal of Remote Sensing,1997, 18(18): 3 901-3 907. [29]Dymond J R, Stephens P R, Newsome P F,et al. Percentage vegetation cover of a degrading rangeland from SPOT [J].International Journal of Remote Sensing,1992, 13(11): 1 999-2007. [30]Wittich K P, Hansing O. Area-averaged vegetative cover fraction estimated from satellite data [J].International Journal of Biometerology,1995, 38(3): 209-215. [31]Quarmby N A, Townshend J R G, Settle J J,et al. Linear mixture modeling applied to AHVRR data for crop area estimation [J].International Journal of Remote Sensing,1992, 13(3): 415-425. [32]Gutman G,Ignatov A. The derivation of the green vegetation fraction from NOAA/AVHRR data for use in numerical weather prediction models [J].International Journal of Remote Sensing,1998, 19(8): 1 533-1 543. [33]Mohammad A A, Shi Z, Ahmad Y,et al. Application of GIS and remote sensing in soil degradation assessments in the Syrian Coast [J].Journal of Zhejiang University (Agricultural & Life Science),2002, 26(2): 191-196. [34]Zhu Xiaohua, Feng Xiaoming, Zhao Yingshi,et al. Scale effect and error analysis of crop LAI inversion [J].Journal of Remote Sensing,2010, 14(3):579-592. [35]Xiaowen Li, Strahler A H. Geometric-optical bidirectional reflectance modeling of a conifer forest canopy [J]. Geoscience and Remote Sensing,1986, 24(6): 906-919. [36]Chen J M,Leblanc S G. A four-scale bidirectional reflection model based on canopy architecture [J].Geoscience and Remote Sensing,1997, 35(5): 1 316-1 337. [37]Myneni R B, Hoffman S, Knyazikhin Y,et al. Global products of vegetation leaf area and fraction absorbed PAR from year one of MODIS data [J].Remote Sensing of Environment,2002, 83: 214-231. [38]Liang S L. Quantitative Remote Sensing of Land Surface [M]. New York: Wiley, 2004. [39]Gastellu-Etchegorry J P, Gascon F, Esteve P. An interpolation procedure for generalizing a look-up table inversion method [J].Remote Sensing of Environment,2003, 87: 55-71. [40]Fang Xiuqin, Zhang Wanchang. The application of remotely sensed data to the estimation of the Leaf Area Index [J].Remote Sensing for Land and Resources,2003, 57(3): 58-62. [方秀琴,张万昌.叶面积指数(LAI)的遥感定量方法综述 [J]. 国土资源遥感,2003, 57(3): 58-62.] [41]He Lei, Tang Shuya, Miao Fang,et al. Remote sensing model and inversion of Leaf Area Index in the typical area of Minjiang valley upriver [J].Research of Soil and Water Conservation,2010, 17(1): 218-221. [何磊, 唐姝娅, 苗放,等.岷江上游典型流域叶面积指数的遥感模型及反演 [J].水土保持研究, 2010, 17(1): 218-221.] [42]Chen J M, Cihlar J. Retrieving Leaf Area Index of boreal conifer forest using Landsat TM images [J].Remote Sensing of Environment,1996, 55: 153-162. [43]Zhang Xiaoyang,Li Jinfeng. The Derivation of a Reflectance Model for the Estimation of Leaf Area Index using Perpendicular Vegetation Index [J].Remote Sensing Technology and Application,1995, 10(3): 13-18. [张晓阳, 李劲峰. 利用垂直植被指数推算作物叶面积系数的理论模式 [J].遥感技术与应用, 1995, 10(3): 13-18.] [44]Qi J, Kerr Y H, Moran M,et al. Leaf Area Index estimates using remotely sensed data and BRDF models in a semiarid region [J].Remote Sensing of Environment,2000, 73: 18-30. [45]Fang H L, Liang S L. Retrieving Leaf Area Index with a neural network method: Simulation and validation [J]. IEEE Transaction on Geoscience and Remote Sensing,2003, 9: 2 052-2 062. [46]Jose A, SobrinoJuan C, Jiménez-Muoz,et al. Land surface temperature retrieval from landsat TM5 [J].Remote Sensing of Environment,2004, 90(4): 434-400. [47]Ding Feng, Xu Hanqiu. Sensitivity analysis of mono-window and single-channel algorithms to the possible errors in parameter estimation [J].Science of Surveying and Mapping,2007, 32(1): 87-90. [丁凤, 徐涵秋. 单窗算法和单通道算法对参数估计误差的敏感性分析 [J]. 测绘科学, 2007, 32(1): 87-90.] [48]Qin Zhihao, Zhang M, Karnieli A,et al. Mono-window algorithm for retrieving land surface temperature from landsat TM6 data [J].Acta Geographic Sinica,2001, 56(4): 456-466. [覃志豪,Zhang M, Karnieli A,等. 用陆地卫星TM6数据演算地表温度的单窗算法 [J]. 地理学报,2001, 56(4): 456-466.] [49]Jiménez-Munöz J C, Sobrino J A. A generalized single-channel method for retrieving land surface temperature from remote sensing data [J].Journal of Geophysical Research,2003, 108(22): 1-9.[50]Sobrino J A, Juan C, Jiménez-Munöz,et al. Land surface temperature retrieval from LANDSAT TM5 [J].Remote Sensing of Environment,2004, 90(4): 434-44. [51]Anding D, Kauth R. Estimation of sea surface temperature from space [J].Remote Sensing of Environment,1970, 1(4): 217-220. [52]Prabhakara C, Dalu G, Kunde V G. Estimation of sea temperature from remote sensing in the 11 to 12 μm window region [J].Journal of Geophysical Research,1974, 79(33): 5 039-5 044. [53]Price John C. Land surface temperature measurements from the split window channel of the NOAA7/AVHRR [J].Journal of Geophysical Research,1984, 89(5): 7 231-7 237. [54]Coll C, Caselles V, Sobrino J A,et al. On the atmosphere dependence of the split window equation for land temperature [J]. International Journal of Remote Sensing, 1994, 15(1): 105-122. [55]Becker F. The impact of spectral emissivity on the measurement of land surface temperature from a satellite [J].International Journal of Remote Sensing, 1987, 8(10): 1 509-1 522. [56]Yin Nan, Zhou Yunxuan, Wang Liming,et al. An application of split window algorithm to the retrieval of land surface temperature with NOAA/AVHRR data [J].Geomatics and Spatial Information Technology,2005, 28(4): 8-11. [尹楠,周云轩,王黎明,等. NOAA/AVHRR的分裂窗算法在地表温度反演中的应用[J]. 测绘与空间地理信息, 2005, 28(4): 8-11.] [57]Mao Kebiao, Qin Zhihao, Shi Jiancheng.Retrieval of land surface temperature of Shandong peninsula using MODIS image and split window algorithm [J].Journal of China University of Mining and Technology,2005, 34(1):46-50. [毛克彪, 覃志豪, 施建成. 用MODIS影像和劈窗算法反演山东半岛的地表温度 [J]. 中国矿业大学学报, 2005, 34(1): 46-50.] [58]Qin Zhihao, Gao Maofang, Qin Xiaomin,et al. Methodology to retrieve land surface temperature from MODIS data for agricultural drought monitoring in China [J].Journal of Natural Disasters,2005, 14(4): 64-71. [覃志豪, 高懋芳, 秦晓敏,等.农业旱灾监测中的地表温度遥感反演方法-以MODIS数据为例 [J]. 自然灾害学报, 2005,14(4): 64-71.] [59]Wan Zhengming, Li Zhaoliang. A physics-based algorithm for retrieving land-surface emissivity and temperature from EOS/MODIS data [J].IEEE Transactions on Geoscience and Remote Sensing,1997, 35(4): 980-996. [60]Gillespie A R, Rokugawa S, Matsunaga. A temperature and emissivity separation algorithm for Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) images [J].IEEE Transactions on Geoscience and Remote Sensing,1998, 36(4):1 113-1 126. [61]Mao Kebiao, Qin Zhihao. The transmission model of atmospheric radiation and the computation of transmittance of MODTRAN [J].Geomatics and Spatial Information Technology,2004, 27(2): 1-3. [毛克彪, 覃志豪. 大气辐射传输模型及MODTRAN中大气透过率计算 [J].空间与测绘, 2004, 27(2): 1-3.] [62]Jacob F. Comparison of land surface emissivity and radiometric temperature derived from. MODIS and ASTER sensors [J].Remote Sensing of Environment, 2004, 90(2): 137-152. [63]Zhao Xiaoyan, Shen Shuanghe, Yang Shenbin,et al. Land surface temperature of Nanjing retrieved from ASTER data [J].Journal of Nanjing Institute of Meteorology,2009, 32(1): 128-133. [赵小艳, 申双和, 杨沈斌,等.利用ASTER数据反演南京城市地表温度 [J]. 南京气象学院学报, 2009, 32(1): 128-133.] [64]Shi Qingsan, Xiao Jidong, Xiong Heigang,et al. Research on the cold-island effect—Base on the Qital Oasis [J].Journal of Xinjiang University(Natural Science Edition),2006, 23(3): 334-337. [师庆三, 肖继东, 熊黑钢,等.绿洲冷岛效应的遥感研究——以奇台绿洲为例 [J]. 新疆大学学报:自然科学版, 2006,23(3): 334-337.] [65]Bastiaanssen W G M, Menenti M, Feddes R A,et al. A remote sensing Surface Energy Balance Algorithm for Land (SEBAL) 1. Formulation [J].Journal of Hydrology,1998,(212/213): 198-212. [66]Bastiaanssen W G M, Pelgrum H, Wang J,et al. A remote sensing Surface Energy Balance Algorithm for Land (SEBAL) 2. Validation [J].Journal of Hydrology,1998,(212/213): 213-229. [67]Liu Zhiwu, Lei Zhidong, Dang Anrong,et al. Remote sensing and the SEBAL model for estimating evaportranspiration in arid regions [J].Journal of Tsinghua University(Science and Technology),2004, 44(3): 421-424. [刘志武, 雷志栋, 党安荣,等. 遥感技术和SEBAL模型在干旱区腾发量估算中的应用 [J]. 清华大学学报:自然科学版,2004, 44(3): 421-424.] [68]Guo Yuchuan, Dong Xinguang. The SEBAL model for estimating regional evaportranspiration in arid regions [J].Remote Sensing Information,2007,(3): 75-78. [郭玉川, 董新光. SEBAL模型在干旱区区域蒸散发估算中的应用 [J]. 遥感信息,2007,(3): 75-78.] [69]Su Z. The Surface Energy Balance System (SEBS) for estimation of turbulent heat fluxes [J].Hydrology and Earth System Sciences,2002,6: 86-100. [70]Zhan Zhiming, Feng Zhaodong, Qin Qiming. Study on land surface evapotranspiration based on remote sensing data on Longxi Loess Plateau of China [J].Geography and Geo-Information Science,2004, 20(1): 16-19. [詹志明, 冯兆东, 秦其明. 陇西黄土高原陆面蒸散的遥感研究[J]. 地理与地理信息科学, 2004, 20(1): 16-19.] [71]Zhang Wei, Lin Wenjing, Wang Guiling. Study on the distribution of the real evaportranspiration in Hetao Plain based on remote sense [J].Remote Sensing Information,2009,(6): 28-31. [张薇, 蔺文静, 王贵玲. 基于遥感反演河套平原区域蒸发蒸腾量研究 [J]. 遥感信息, 2009,(6): 28-31.] [72]Yang Yongmin, Feng Zhaodong, Zhou Jian. Evapotranspiration in Heihe River Basin based on SEBS model [J].Journal of Lanzhou University(Natural Sciences),2008, 44(5): 1-6. [杨永民,冯兆东,周剑. 基于SEBS模型的黑河流域蒸散发 [J].兰州大学学报:自然科学版, 2008, 44(5): 1-6.] [73]Jackson R D, Idso S B, Reginato R J,et al. Canopy temperature as a crop water stress indication [J].Water Resource Research,1981, 17(4): 1 133-1 138. [74]Wang Ling, Ni Jianhua. Research of actual evaportranspiration in farmland: A case study in Huanghuaihai River region [J].Acta Meteorological Sinica,2001, 59(6): 784-793. [王菱, 倪建华. 以黄淮海为例研究农田实际蒸散量 [J].气象学报,2001,59(6): 784-793.] [75]Bouchet R J.Evapotranspiration reele et potentielle, signification climatique. Publ, General Assembly Berkeley [J].International Association of Hydrological Sciences, 1963, 62: 134-142. [76]Brulsaerl W, Stricker H. An advection—Aridity approach to estimate actual regional evapotranspiration [J].Water Resources Research,1979, 15(2): 443-450. [77]Morton F I. Operational estimates of areal evapotranspiration and their significance to the science and practice of hydrology [J].Journal of Hydrology,1983, 66: 1-76. [78]Granger R J.A complementary relationship approach for evaporation from unsaturated surfaces [J].Journal of Hydrology,1989, 111: 31-38. [79]Liu S, Bai J, Jia Z,et al. Estimation of evapotranspiration in the Mu Us Sandland of China [J].Hydrology and Earth System Sciences,2010, 14: 573-584. [80]Zhou Huizhen, Liu Shaomin, Yu Xiaofei,et al. Study on estimation of regional evapotranspiration by remote sensing in the Mu Us Sandland—A case study of Wushen County in Inner Mongolia [J].Progress in Geography,2006, 25(4): 79-87. [周惠珍, 刘绍民,于小飞,等.毛乌素沙地蒸散量的遥感研究——以内蒙古乌审旗为例 [J]. 地理科学进展, 2006, 25(4): 79-87.] [81]Shang Songhao, Sun Liyan, Hao Zengchao.Using complementary relationship to estimate monthly evapotranspiration in arid oasis [J].Journal of China Hydrology,2008, 28(3): 67-69. [尚松浩,孙丽艳, 郝增超.互补相关原理在绿洲月蒸发量估算中的应用 [J]. 水文, 2008, 28(3): 67-69.] [82]Liu Shaomin, Sun Rui, Sun Zhongping,et al. Comparison of different complementary relationship models for regional evapotranspiration estimation [J].Acta Geographica Sinica,2004, 59(3): 331-340. [刘绍民,孙睿,孙中平,等.基于互补相关原理的区域蒸散量估算模型比较 [J]. 地理学报,2004, 59(3): 331-340.] [83]Bella C M Di, Rebella C M, Paruelo J M. Evaportranspiraion estimates using NOAA/AVHRR image in the Pampa region of Argentina [J].International Journal of Remote Sensing,2000, 21(4): 791-797. [84]Kerr Y H, Imbernon J, Dedieu G,et al. NOAA/AVHRR and its uses for rainfall and evapotranspiraion monitoring [J].International Journal of Remote Sensing,1989, 10(4/5): 847-854. [85]Le J, Shafiqul I. A methodology for estimation of surface evaporation over large areas using remote sensing observations [J].Geopgysical Research Letters,1999, 26(17):2 773-2 776. [86]Le J, Shafiqul I. Estimating of surface evaporation map over southern Great Plain using remote sensing data [J].Water Resources Research,2001, 37(2): 329-340. [87]Tang Ronglin, Li Zhaoliang, Tang Bohui. An application of the Ts-VI triangle method with enhanced edges determination for evapotranspiration estimation from MODIS data in arid and semiarid regions: Implementation and validation [J].Remote Sensing of Environment,2010, 114: 540-551. [88]Jackson R D, Hatfield J L. Estimation of daily evaportranspiration from one time of day measurement [J].Agricultural Water Management,1983, 7(1/3): 351-362. [89]Lagouarde J P, McAneney K J. Daily sensible heat flux estimation from a single measurement of surface temperature and maximum air temperature [J].Bound-Layer Meteorology,1992, 59(4): 341-362. [90]Liu Shaomin, Li Xiaowen, Shi Shengjin,et al. Measurement analysis and application of surface energy and water vapor fluxes at large scale [J].Advances in Earth Science, 2010, 25(11): 1 113-1 126. [刘绍民, 李小文, 施生锦,等.大尺度地表水热通量的观测、分析与应用 [J].地球科学进展, 2010, 25(11): 1 113-1 126.] [91]Jia Zhenzhen,Liu Shaomin,Mao Defa,et al. A study of the validation method of remotely sensed evapotranspiraion based on observation data [J].Advances in Earth Science,2010, 25(11): 1 248-1 260. [贾贞贞, 刘绍民, 毛德发,等.基于地面观测的遥感监测蒸散量验证方法研究 [J].地球科学进展, 2010, 25(11):1 248-1 260.] [92]Chávez J L, Neale C M U, Hipps L E,et al. Comparing Aircraft-based remotely sensed energy balance fluxes with eddy covariance tower data using heat flux source area functions [J].Journal of Hydrometeorology-Special Section,2005, 6: 923-940. |