參考文獻

[1]Wilhite D.Drought monitoring and early warning:Concepts，progress and future challenges[R]. WMO-No.1006，2006:6-9.

[2]American Meteorological Society.Meteorological drought policy statement[J].Bulletin of American Meteorological Society，1997(78):847-849.

[3]R.R.Heim Jr.A review of twentieth-century drought indices used in the United States[J]，Bulletin of the American Meteorological Society，2002，83(8):11491165.

[4]QX/T 81—2007小麥干旱災害等級[S].北京:中國氣象局.

[5]SL 424—2008旱情等級標準[S].北京:中國水利水電出版社，2008.

[6]劉寧.中國干旱預警水文方法探析[J].水科學進展，2014，25(5):444-450.

[7]張強，張良，崔顯成，等.干旱監測與評價技術的發展及其科學挑戰[J].地球科學進展，2011， 26(7):763-778.

[8]國家防汛抗旱總指揮部辦公室，水利部南京水文水資源研究所.中國水旱災害[M].北京:中國水利水電出版社，1997.

[9]國家防汛抗旱總指揮部.中國水旱災害公報2015[M].北京:中國水利水電出版社，2016.

[10]李紀人，黃詩峰，等.“3S”技術水利應用指南[M].北京:中國水利水電出版社，2003.

[11]Kogan F N.Remote sensing of weather impacts on vegetation in non-homogeneous areas[J].International Journal of Remote Sensing，1990，11(8):1405-1419.

[12]Kogan F.Application of vegetation index and brightness temperature for drought detection[J].Advances in Space Research，1995，15(11):91-100.

[13]Kogan F.World droughts in the new millennium from AVHRR‐based vegetation health indices [J].Eos，Transactions American Geophysical Union，2002.83(48):557-563.

[14]馮強，田國良，王昂生，等.基于植被狀態指數的土壤濕度遙感方法研究[J].自然災害學報， 2004(03):81-88.

[15]Anyamba A and C.Tucker.Historical Perspectives on AVHRR NDVI and Vegetation Drought Monitoring.In Remote Sensing of Drought Innovative Monitoring Approaches.edited by B.D.Wardlow， M.C.Andersen，and J.P.Verdin，23-50.Boca Raton，FL:CRC Press，2012.

[16]Brown J F，B.D.Wardlow，T.Tadesse，M.J.Hayes，B.C.Reed.The Vegetation Drought Response Index (Vegdri):A New Integrated Approach for Monitoring Drought Stress in Vegetation[J].Giscience&Remote Sensing 2008，45(1):16-46.doi:10.2747/1548-1603.45.1.16.

[17]Rossi S and S.Niemeyer.“Drought Monitoring Using Fraction of Absorbed Photosynthetically Active Radiation Estimates Derived from MERIS.”In Remote sensing of Drought Innovative Monitoring Approaches，edited by B.Wardlow，M.C.Andersen，and J.P.Verdin，95-120.Boca Raton，FL:CRC press，2012.

[18]雷志棟，胡和平，楊詩秀.土壤水研究進展與評述[J].水科學進展，1999(03):311-318.

[19]劉昌明.土壤-植物-大氣系統水分運行的界面過程研究[J].地理學報，1997(04):80-87.

[20]劉志明，張柏，晏明.土壤水分與干旱遙感研究的進展與趨勢[J].地球科學進展，2003(04): 576-583.

[21]陳書林，劉元波，溫作民.衛星遙感反演土壤水分研究綜述[J].地球科學進展，2012(11): 1192-1203.

[22]Petropoulos G P，Carlson T N，H.Griffiths.Turbulent Fluxes of Heat and Moisture at the Earth’s Land Surface:Importance，Controlling Parameters and Conventional Measurement，Chapter 1，pp 28.In“Remote Sensing of Energy Fluxes and Soil Moisture Content”，by G.P.Petropoulos，Taylor and Francis，2013.

[23]李建龍，蔣平，劉培君.利用遙感光譜法進行農田土壤水分遙感動態監測[J].生態學報，2003 (8):1498-1504.

[24]毛克彪，唐華俊，周清波.被動微波遙感土壤水分反演研究綜述[J].遙感技術與應用，2007 (3):466-470.

[25]施建成，杜陽，杜今陽.微波遙感地表參數反演進展[J].中國科學:地球科學，2012(6):814-842.

[26]田輝，文軍，史小康.主動微波遙感黃河上游瑪曲地區夏季土壤水分[J].水科學進展，2011 (1):59-66.

[27]楊立娟，武勝利，張鐘軍.利用主被動微波遙感結合反演土壤水分的理論模型分析[J].國土資源遙感，2011(2):53-58.

[28]Hain C R，et al.An intercomparison of available soil moisture estimates from thermal infrared and passive microwave remote sensing and land surface modeling[J].Journal of Geophysical Research: Atmospheres(1984—2012)，2011，116(D15).

[29]Petropoulos G，et al.A review of Ts/VI remote sensing based methods for the retrieval of land surface energy fluxes and soil surface moisture[J].Progress in Physical Geography，2009，33(2): 224-250.

[30]趙天杰，張立新，蔣玲梅，等.利用主被動微波數據聯合反演土壤水分[J].地球科學進展， 2009(7):769-775.

[31]李新，馬明國，王建，等.黑河流域遙感-地面觀測同步試驗，科學目標與試驗方案[J].地球科學進展，2008，23(9):897-914.

[32]Mu Q，et al.Evaluating water stress controls on primary production in biogeochemical and remote sensing based models[J].Journal of Geophysical Research，2007，112(G1).

[33]Mu Q，M.Zhao，S.W.Running.Improvements to a MODIS global terrestrial evapotranspiration algorithm[J].Remote Sensing of Environment，2011，115(8):1781-1800.

[34]Miralles D G，Holmes T R H，De Jeu R A M，et al.Global land-surface evaporation estimated from satellite based observations[J].Hydrology and Earth System Sciences，2011，15(2):453-469.

[35]Wang K，Dickinson R E，Wild M，et al.Evidence for decadal variation in global terrestrial evapotranspiration between 1982 and 2002:1.Model development[J].Journal of Geophysical Research: Atmospheres，2010，115(D20).

[36]Mu Q，et al.A Remotely Sensed Global Terrestrial Drought Severity Index[J].Bulletin of the A-merican Meteorological Society，2013，94(1):83-98.

[37]Anderson M C，et al.Evaluation of drought indices based on thermal remote sensing of evapotranspiration over the continental United States[J].Journal of Climate，2011，24(8):2025-2044.

[38]Anderson M C，et al.A climatological study of evapotranspiration and moisture stress across the continental United States based on thermal remote sensing:2.Surface moisture climatology[J]. Journal of Geophysical Research-Atmospheres，2007，112(D11112):1-13.

[39]Anderson M C，et al.A climatological study of evapotranspiration and moisture stress across the continental United States based on thermal remote sensing:1.Model formulation[J].Journal of Geophysical Research-Atmospheres，2007，112(D10117):1-17.