[1] Cai X, Feng L, Hou X et al. Remote sensing of the water storage dynamics of large lakes and reservoirs in the Yangtze River Basin from 2000 to 2014[J]. Scientific Reports, 6, 1-5(2016).

[2] Feng L, Hu C, Chen X et al. Assessment of inundation changes of Poyang Lake using MODIS observations between 2000 and 2010[J]. Remote Sensing of Environment, 121, 80-92(2012).

[3] Han X, Chen X, Feng L. Four decades of winter wetland changes in Poyang Lake based on Landsat observations between 1973 and 2013[J]. Remote Sensing of Environment, 156, 426-437(2015).

[4] Smith L C. Satellite remote sensing of river inundation area, stage and processes: A review[J]. Hydrological Processes, 11, 1427-1439(1997).

[5] Alsdorf D E, Lettenmaier D P. Tracking fresh water from space[J]. Science, 301, 1485-1488(2003).

[6] Cazenave A, Milly P C D, Douville H et al. Space techniques used to measure change in terrestrial waters[J]. Eos Transactions American Geophysical Union, 85, 59-60(2004).

[7] Alsdorf D E, Rodríguez E, Lettenmaier D P. Measuring surface water from space[J]. Reviews of Geophysics, 45, 1-24(2007).

[8] Birkett C M. The contribution of TOPEX/POSEIDON to the global monitoring of climatically sensitive lakes[J]. Journal of Geophysical Research-Oceans, 100, 25179-25204(1995).

[9] Birkett C M, Mertes L A K, Dunne T et al. Surface water dynamics in the Amazon Basin: Application of satellite radar altimetry[J]. Journal of Geophysical Research, 107, 1-26(2002).

[10] Tapley B, Bettadpur S, Ries J et al. GRACE measurements of mass variability in the earth system[J]. Science, 305, 503-505(2004).

[11] Papa F, Prigent C, Aires F et al. Interannual variability of surface water extent at the global scale, 1993-2004[J]. Journal of Geophysical Research, 115, 1-17(2010).

[12] Prigent C, Papa F, Aires F et al. Global inundation dynamics inferred from multiple satellite observations, 1993-2000[J]. Journal of Geophysical Research, 112, 1-13(2007).

[13] Crétaux J F, Kouraev A K, Papa F et al. Water balance of the big Aral Sea from satellite remote sensing and in situ observations[J]. Great Lakes Research, 31, 520-534(2005).

[14] Schwatke C, Dettmering D, Bosch W et al. DAHITI-an innovative approach for estimating water level time series over inland waters using multi-mission satellite altimetry[J]. Hydrology and Earth System Science, 19, 4345-4364(2015).

[15] Birkett C M, Reynolds C, Beckley B et al. From Research to Operations: The USDA global reservoir and lake monitor[J]. Berlin Heidelberg: Springer-verlag(2011).

[16] Berry P A M, Wheeler J L. Development of Algorithms for Exploitation of JASON2-ENISAT Altimetry for the Generation of a River and Lake Product. Product Handbook v3.5[J]. Leicester: De Montfort University(2009).

[17] Crétaux J F, Jelinski W, Calmant S et al. A lake database to monitor in the near real time water level and storage variations from remote sensing data[J]. Advances in Space Research, 4, 1497-1507(2011).

[18] Townshend J R G, Justice C O. Towards operational monitoring of terrestrial systems by moderate-resolution remote sensing[J]. Remote Sensing of Environment, 83, 352-360(2002).

[19] Wessels K J, De Fries R S, Dempewolf J et al. Mapping regional land cover with MODIS data for biological conservation: Examples from the great Yellowstone ecosystem, USA and Pará State, Brazil[J]. Remote Sensing of Environment, 92, 67-83(2004).

[20] Sun F D, Zhao Y Y, Gong P et al. Monitoring dynamic changes of global land cover types: Fluctuations of major lakes in China every 8 days 2000-2010[J]. Chinese Science Bulletin, 59, 171-189(2014).

[21] Frappart F, Seylerb F, Martinezc J M et al. Floodplain water storage in the Negro River basin estimated from microwave remote sensing of inundation area and water levels[J]. Remote Sensing of Environment, 99, 387-399(2005).

[22] Song C, Huang B, Ke L. Modeling and analysis of lake water storage changes on the Tibetan Plateau using multi-mission satellite data[J]. Remote Sensing of Environment, 135, 25-35(2013).

[25] Zheng Y. Prediction of the distribution of C3 and C4 plant species from a GIS-based model: A case study in Poyang Lake, China[J]. Enschede: University of Twente(2009).

[26] Harris J, Zhuang H. An Ecosystem Approach to Resolving Conflicts among Ecological and Economic Priorities for Poyang Lake Wetlands[J]. Gland, Switzerland: Wetlands International-IUCN SSC Crane Specialist Group Publication(2010).

[29] Gong P, Wang J, Yu L et al. Finer resolution observation and monitoring of global land cover: First mapping results with Landsat TM and ETM+ data[J]. International Journal of Remote Sensing, 34, 2607-2654(2013).

[30] Vapnik V. Estimation of dependences based on empirical data (in Russian)[J]. Moscow: Nauka (English translation: Kotz S. New York: Springer-verlag)(1982).

[31] Foody G M, Mathur A. Toward intelligent training of supervised image classifications: Directing training data acquisition for SVM classification[J]. Remote Sensing of Environment, 93, 107-117(2004).

[32] Mountrakis G, Im J, Ogole C. Support vector machines in remote sensing: A review[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 66, 247-259(2011).

[33] Feyisa G L, Meilby H, Fensholt R et al. Automated water extraction index: A new technique for surface water mapping using Landsat imagery[J]. Remote Sensing of Environment, 140, 23-35(2014).

[34] Zheng J, Ke C, Shao Z et al. Monitoring changes in the water volume of Hulun Lake by integrating satellite altimetry data and Landsat images between 1992 and 2010[J]. Journal of Applied Remote Sensing, 10, 016029(2016).