[1] 张效龙,孙永福,刘敦武.黄河三角洲地区地下水分析[J].海洋地质动态,2005,21(6):26-28. Zhang X L,Sun Y F,Liu D W.Analysis of groundwater in the Yellow River Delta areas[J].Marine Geology Letters,2005,21(6):26-28.[2] 陈利顶,傅伯杰.黄河三角洲地区人类活动对景观结构的影响分析[J].生态学报,1996,16(4):337-344. Chen L X,Fu B J.Analysis of impact of human activity on landscape structure in Yellow River Delta[J].Acta Ecologica Sinica,1996,16(4):337-344.[3] 郗金标,宋玉民.黄河三角洲生态系统特征与演替规律[J].东北林业大学学报,2002,30(6):100-102. Xi J B,Song Y M.The characteristics and succession law of ecosystem in Yellow River Delta[J].Journal of Northeast Forestry University,2002,30(6):100-102.[4] 姚荣江,杨劲松,刘广明.黄河三角洲地区典型地块地下水特征的空间变异性研究[J].土壤通报,2006,37(6):1071-1075. Yao R J,Yang J S,Liu G M.Spatial variability of groundwater properties in some typical areas of the Yellow River Delta[J].Chinese Journal of Soil Science,2006,37(6):1071-1075.[5] 阿布都瓦斯提·吾拉木,秦其明.地下水遥感监测研究进展[J].农业工程学报,2004,20(1):184-188. Ghulam A,Qin Q M.Overview on methods and theories of remote sensing monitoring and exploration of groundwater[J].Transactions of the Chinese Society of Agricultural Engineering,2004,20(1):184-188.[6] Finch J W.Location of high yielding groundwater sites in zimbabwe use of remote sensed data[C]//Remote Sensing:An Operational Technology for the Mining and Petroleum Industries,1990,147-152.[7] Groeneveld D.Remotely-sensed groundwater evapotranspiration from alkaliscrubaffected by declining water table[J].Journal of Hydrology,2008,356(3-4):294-303.[8] 塔西普拉提·特依拜,阿布都瓦斯提·吾拉木.绿洲—荒漠交错带地下水位分布的遥感模型研究[J].遥感学报,2002,6(4):299-305. Tiyip T,Ghulam A.Research on model of groundwater level distribution in the oasis and desert ecotone using remote sensing[J].Journal of Remote Sensing,2002,6(4):299-305.[9] Huo A D,Chen X H,Li H K,et al.Development and testing of a remote sensing-based model for estimating groundwater levels in Aeolian desert areas of China[J].Canadian Journal of Soil Science,2011,91(1):29-37.[10] 郭娇,石建省,叶浩,等.黄河三角洲地下水位分布的遥感模型研究[J].水文地质工程地质,2009,36(2):19-24. Guo J,Shi J S,Ye H,et al.Remote sensing modeling of groundwater level distribution in the Yellow River Delta[J].Hudrogeology and Engineering Geology,2009,36(2):19-24.[11] 刘高焕,Drost H J.黄河三角洲可持续发展图集[M].北京:测绘出版社,1997:6-7. Liu G H,Drost H J.Atlas of the Yellow River Delta[M].Beijing:The Publishing House of Serveying and Mapping, 1997:6-7.[12] 范晓梅.黄河三角洲土壤盐渍化时空动态及水盐运移过程模拟[D].北京:中国科学院研究生院,2010. Fang X M.The soatiotemporal dynamics of saline soils and combing water and salt siimulation in the Yellow River Delta[D].Beijing:Chinese Academy of Sciences,2010.[13] 陈维峰,周维芝,史衍玺.黄河三角洲湿地面临的问题及其保护[J].农业环境科学学报,2003,22(4):499-5024. Chen W F,Zhou W Z,Shi Y X.Crisis of wetlands in the Yellow River Delta and its protection[J].Journal of Agro-Environmental Science,2003,22(4):499-502.[14] 姚春生,张增祥,汪潇.使用温度植被干旱指数法(TVDI)反演新疆土壤湿度[J].遥感技术与应用,2004,19(6):473-478. Yao C S,Zhang Z X,Wang X.Evaluating soil moisture status in Xinjiang using the temperature vegetation dryness index[J].Remote Sensing Technology and Application,2004,19(6):473-478.[15] Son N T,Chen C F,Chen C R,et al.Monitoring agricultural drought in the Lower Mekong Basin using MODIS NDVI and land surface temperature data[J].International Journal of Applied Earth Observation and Geoinformation,2012,18:417-427.[16] 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. Qin Z H,Gao M F,Qin X M,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.[17] 毛克彪,覃志豪,施建成,等.针对MODIS影像的劈窗算法研究[J].武汉大学学报信息科学版,2005,30(8):703-707. Mao K B,Qin Z H,Shi J C,et al.The Research of split-window algorithm on the MODIS[J].Editorial Board of Geomatics and Information Science of Wuhan University,2005,30(8):703-707.[18] 俞宏,石汉青.利用分裂窗算法反演陆地表面温度的研究进展[J].气象科学,2002,22(4):494-499. Yu H,Shi H Q.Progress in split-window algorithms for retrieving land surface temperature[J].Scientia Meteorological Sinica,2002,22(4):494-499.[19] Goetz S J.Multi-sensor analysis of NDVI,surface temperature and biophysical variables at a mixed grassland site[J].International Journal of Remote Sensing,1997,18(1):71-79.[20] Moran M S,Clarke T R,Inoue Y,et al.Estimating crop water deficit using the relation between surface-air temperatureand spectural vegetation index[J].Remote Sensing of Environment,1994,49(3):246-263.[21] Sandholt I,Rasmussen K,Andersen J.A simple interpretation of the surface temperature/vegetation index space for assessment of surface moisture status[J].Remote Sensing of Environment,2002,79(2/3):213-224.[22] Carlson T N,Gillies R R,Perry M A.A method to make use of thermal infrared temperature and NDVI measurements to infer surface soil water content and fractional vegetation cover[J].Remote Sensing Reviews,1994,9(1/2):161-173.[23] Price J C.The limited utility of apparent thermal inertia original research article[J].Remote Sensing of Environment,1985,18(1):59-73.[24] Watson K,Pohn H A.Thermal inertia mapping from satellites discrimination of geologic units in Oman[J].Journal of Research of U.S.Geological Survey,1974,2(2):147-158.[25] Pratt D A,Foster S J,Ellyett C D.A calibration procedure for fourier series thermal inertia model[J].Photogram-metric Engineering and Remote Sensing,1980,46(4):529-538.[26] Price J C.Using spatial context in satellite data to infer regional scale evapotranspi-ration[J] .IEEE Transactions on Geoscience and Remote Sensing,1990,28(5):940-948.[27] Price J C.Thermal inertia mapping:A new view of the earth[J].Journal of Geophysical Research,1982,82(18):2582-2590.[28] 冉琼.全国土壤湿度及其变化的遥感反演与分析[D].北京:中国科学院研究生院,2005. Ran Q.Retrieval of soil moisture status in China and analysis of spatial and temporal distribution characteristics[D].Beijing:Chinese Academy of Sciences,2005. |