Assessing the Remotely Sensed Evaporative Drought Index for Drought Monitoring over Northeast China
暂无分享,去创建一个
Bo Jiang | Kun Jia | Xianhong Xie | Xiaowei Chen | Yunjun Yao | Lilin Zhang | Xiaotong Zhang | Jia Xu | Xiangyi Bei | Ke Shang | B. Jiang | Xiaotong Zhang | K. Jia | Yunjun Yao | Xianhong Xie | Ke Shang | Jia Xu | Lilin Zhang | Xiaowei Chen | Xiangyi Bei
[1] Michael J. Hayes,et al. Appropriate application of the standardized precipitation index in arid locations and dry seasons , 2007 .
[2] Jiyuan Liu,et al. Spatiotemporal characteristics, patterns, and causes of land-use changes in China since the late 1980s , 2014, Journal of Geographical Sciences.
[3] Michael J. Hayes,et al. The effect of the length of record on the standardized precipitation index calculation , 2005 .
[4] S. Goetz,et al. Satellite based analysis of northern ET trends and associated changes in the regional water balance from 1983 to 2005 , 2008 .
[5] Martha C. Anderson,et al. Use of NDVI and Land Surface Temperature for Drought Assessment: Merits and Limitations , 2010 .
[6] Zhi-Qing Jin,et al. Impacts of Changes in Climate and Its Variability on Food Production in Northeast China , 2008 .
[7] Qiming Qin,et al. Monitoring Drought over the Conterminous United States Using MODIS and NCEP Reanalysis-2 Data , 2010 .
[8] Huug van den Dool,et al. Climate Prediction Center global monthly soil moisture data set at 0.5 resolution for 1948 to present , 2004 .
[9] Maosheng Zhao,et al. Drought-Induced Reduction in Global Terrestrial Net Primary Production from 2000 Through 2009 , 2010, Science.
[10] Compton J. Tucker,et al. A Non-Stationary 1981-2012 AVHRR NDVI3g Time Series , 2014, Remote. Sens..
[11] Dan Zhang,et al. Spatial and temporal analysis of drought risk during the crop-growing season over northeast China , 2014, Natural Hazards.
[12] C. Priestley,et al. On the Assessment of Surface Heat Flux and Evaporation Using Large-Scale Parameters , 1972 .
[13] Zongxue Xu,et al. A drought rarity and evapotranspiration-based index as a suitable agricultural drought indicator , 2017 .
[14] G. Jia,et al. Monitoring meteorological drought in semiarid regions using multi-sensor microwave remote sensing data , 2013 .
[15] Martha C. Anderson,et al. Evaluation of Drought Indices Based on Thermal Remote Sensing of Evapotranspiration over the Continental United States , 2011 .
[16] M. S. Moran,et al. Estimating crop water deficit using the relation between surface-air temperature and spectral vegetation index , 1994 .
[17] 沈国强 Shen Guoqiang,et al. Applicability analysis of SPEI for drought research in Northeast China , 2017 .
[18] J. Goudriaan,et al. ON APPROACHES AND APPLICATIONS OF THE WAGENINGEN CROP MODELS , 2003 .
[19] L. Ji,et al. Assessing vegetation response to drought in the northern Great Plains using vegetation and drought indices , 2003 .
[20] Feng Gao,et al. The Evaporative Stress Index as an indicator of agricultural drought in Brazil: An assessment based on crop yield impacts , 2016 .
[21] G. Sun,et al. Effects of spring drought on carbon sequestration, evapotranspiration and water use efficiency in the songnen meadow steppe in northeast China , 2011 .
[22] Jianxi Huang,et al. Assessing the remotely sensed Drought Severity Index for agricultural drought monitoring and impact analysis in North China , 2016 .
[23] S. Liang,et al. MODIS-driven estimation of terrestrial latent heat flux in China based on a modified Priestley-Taylor algorithm , 2013 .
[24] T. Jiang,et al. Spatial Variation and Trends in PDSI and SPI Indices and Their Relation to Streamflow in 10 Large Regions of China , 2010 .
[25] F. Kogan. Droughts of the Late 1980s in the United States as Derived from NOAA Polar-Orbiting Satellite Data , 1995 .
[26] João Paulo Ramos Teixeira,et al. Remote sensing of drought: Progress, challenges and opportunities , 2015 .
[27] Kumud Acharya,et al. Evaluation of drought and wetness episodes in a cold region (Northeast China) since 1898 with different drought indices , 2014, Natural Hazards.
[28] M. Mccabe,et al. Estimating Land Surface Evaporation: A Review of Methods Using Remotely Sensed Surface Temperature Data , 2008 .
[29] K. Trenberth,et al. A Global Dataset of Palmer Drought Severity Index for 1870–2002: Relationship with Soil Moisture and Effects of Surface Warming , 2004 .
[30] S. Idso,et al. Measuring yield-reducing plant water potential depressions in wheat by infrared thermometry , 1981, Irrigation Science.
[31] R. Heim. A Review of Twentieth-Century Drought Indices Used in the United States , 2002 .
[32] Martha C. Anderson,et al. An Intercomparison of Drought Indicators Based on Thermal Remote Sensing and NLDAS-2 Simulations with U.S. Drought Monitor Classifications , 2013 .
[33] Wayne C. Palmer,et al. Keeping Track of Crop Moisture Conditions, Nationwide: The New Crop Moisture Index , 1968 .
[34] P. Jones,et al. Global warming and changes in drought , 2014 .
[35] Kun Jia,et al. Spatial and Decadal Variations in Potential Evapotranspiration of China Based on Reanalysis Datasets during 1982–2010 , 2014, ATMOS 2014.
[36] Shaohua Zhao,et al. onitoring global land surface drought based on a hybrid vapotranspiration model , 2011 .
[37] Qiming Qin,et al. Evaluation of EDI derived from the exponential evapotranspiration model for monitoring China’s surface drought , 2011 .
[38] Yafen Zhu,et al. Climate Change in China from 1880 to 1998 and its Impact on the Environmental Condition , 2001 .
[39] Guadalupe Sepulcre-Cantó,et al. Assessment of the EUMETSAT LSA-SAF evapotranspiration product for drought monitoring in Europe , 2014, Int. J. Appl. Earth Obs. Geoinformation.
[40] Jianjun Wu,et al. Drought hazard assessment and spatial characteristics analysis in China , 2011 .
[41] V. Singh,et al. Drought modeling-A review , 2011 .
[42] Maosheng Zhao,et al. Improvements to a MODIS global terrestrial evapotranspiration algorithm , 2011 .
[43] S. Robinson,et al. Food Security: The Challenge of Feeding 9 Billion People , 2010, Science.
[44] S. Liang,et al. A satellite-based hybrid algorithm to determine the Priestley–Taylor parameter for global terrestrial latent heat flux estimation across multiple biomes , 2015 .
[45] Nengcheng Chen,et al. Multi-sensor integrated framework and index for agricultural drought monitoring , 2017 .
[46] Tao Wang,et al. Drought variability in Inner Mongolia of northern China during 1960–2013 based on standardized precipitation evapotranspiration index , 2016, Environmental Earth Sciences.
[47] Jia Xu,et al. Satellite-Derived Spatiotemporal Variations in Evapotranspiration over Northeast China during 1982-2010 , 2017, Remote. Sens..
[48] A. Aghakouchak,et al. A near real-time satellite-based global drought climate data record , 2012 .
[49] G. Carbone,et al. Monitoring agricultural drought for arid and humid regions using multi-sensor remote sensing data , 2010 .
[50] Jie He,et al. On downward shortwave and longwave radiations over high altitude regions: Observation and modeling in the Tibetan Plateau , 2010 .
[51] S. Vicente‐Serrano,et al. A Multiscalar Drought Index Sensitive to Global Warming: The Standardized Precipitation Evapotranspiration Index , 2009 .
[52] V. Singh,et al. An Overview of Drought Monitoring and Prediction Systems at Regional and Global Scales , 2017 .
[53] Jay Gao,et al. Land cover changes during agrarian restructuring in Northeast China , 2006 .
[54] Tiziana Simoniello,et al. On the relevance of accurate correction and validation procedures in the analysis of AVHRR‐NDVI time series for long‐term monitoring , 2004 .
[55] Wanchang Zhang,et al. Monitoring and Assessment of Drought Focused on Its Impact on Sorghum Yield over Sudan by Using Meteorological Drought Indices for the Period 2001-2011 , 2018, Remote. Sens..
[56] N. McDowell,et al. Numerical Terradynamic Simulation Group 1-2013 A Remotely Sensed Global Terrestrial Drought Severity Index , 2017 .
[57] R. Dickinson,et al. A review of global terrestrial evapotranspiration: Observation, modeling, climatology, and climatic variability , 2011 .
[58] N. Guttman. COMPARING THE PALMER DROUGHT INDEX AND THE STANDARDIZED PRECIPITATION INDEX 1 , 1998 .
[59] G. Senay,et al. A comprehensive evaluation of two MODIS evapotranspiration products over the conterminous United States: Using point and gridded FLUXNET and water balance ET , 2013 .
[60] J. Dracup,et al. The Quantification of Drought: An Evaluation of Drought Indices , 2002 .
[61] B. Lloyd‐Hughes,et al. A drought climatology for Europe , 2002 .
[62] W. Alley. The Palmer Drought Severity Index: Limitations and Assumptions , 1984 .