[1] P WU, N CHRISTIDIS, P STOTT. Anthropogenic impact on Earth's Hydrological Cycle. Nature Climate Change, 3, 807-810(2013).

[2] J REN, G XU, W ZHANG et al. Evaluation and improvement of FY-4A AGRI quantitative precipitation estimation for summer precipitation over complex topography of Western China. Remote Sensing, 13, 436621(2021).

[3] W VEERAKACHEN, M RAKSAPATCHARAWONG. Rainfall estimation for real time flood monitoring using geostationary meteorological satellite data. Advances In Space Research, 56, 1139-1145(2015).

[4] H LU, Z HUANG, L DING et al. Calibrating FY4A QPE using CMPA over Yunnan-Kweichow Plateau in summer 2019. European Journal of Remote Sensing, 54, 476-486(2021).

[5] Y SHEN, P ZHAO, Y PAN et al. A High Spatiotemporal Gauge-Satellite merged precipitation analysis over China. Journal Of Geophysical Research-Atmospheres, 119, 3063-3075(2014).

[6] J GOURLEY, Y HONG, Z L FLAMIG et al. Intercomparison of rainfall estimates from Radar， Satellite， Gauge， and Combinations for a season of record rainfall. Journal of Applied Meteorology and Climatology, 49, 437-452(2010).

[7] E N ANAGNOSTOU, V MAGGIONI, E I NIKOLOPOULOS et al. Benchmarking high-resolution global satellite rainfall products to Radar and Rain-Gauge rainfall estimates. Ieee Transactions on Geoscience and Remote Sensing, 48, 1667-1683(2010).

[8] C KIDD, P BAUER, J TURK et al. Intercomparison of high-resolution precipitation products over Northwest Europe. Journal of Hydrometeorology, 13(2012).

[10] G J HUFFMAN, D T BOLVIN, E J NELKIN et al. The TRMM multisatellite precipitation analysis：Quasi-Global， Multiyear，Combined-Sensor precipitation estimates at fine scales. American Meteorological Society(2007).

[11] T KUBOTA, S SHIGE, H HASHIZURNE et al. Global precipitation map using satellite-borne microwave radiometers by the Gsmap Project： Production and validation. IEEE Transactions on Geoscience and Remote Sensing, 45, 2259-2275(2007).

[12] Rongwei LIAO, Dongbin ZHANG. Validation of six satellite derived rainfall estimates over China. Meteorological Monthly, 41, 970-979(2015).

[13] N Y KRAKAUER, S M PRADHANAG, T LAKHANKAR et al. Evaluating satellite products for precipitation estimation in Mountain Regions： A case study for Nepal. Remote Sensing, 5, 4107-4123(2013).

[14] H CHEN, B YONG, Y SHEN et al. Comparison analysis of six purely satellite-derived global precipitation estimates. Journal of Hydrology, 581, 124376(2020).

[15] H WU, B YONG, Z SHEN et al. Comprehensive error analysis of satellite precipitation estimates based on Fengyun-2 and GPM over Chinese Mainland. Atmospheric Research(2021).

[16] Yudong TIAN, Lidard PETERS et al. Component analysis of errors in satellite-based precipitation estimates. Journal of Geophysical Research. Atmospheres, 114(2009).

[17] B YONG, B CHEN, Y TIAN et al. Error-component analysis of trmm-based multi-satellite precipitation estimates over Mainland China. Remote Sensing, 8(2016).

[18] Di XIAN, Suling REN, Jiali SHAO et al. Application of Fengyun meteorological satellite in flood season disaster pevention and mitigation. Satellite Application, 13-18(2020).

[19] Jun YANG, Di XIAN, Shihao TANG. The latest progress and application of Fengyun series meteorological satellites. Satellite Application, 8-14(2018).

[20] Z GAO, B HUANG, Z MA et al. Comprehensive comparisons of State-of-the-Art gridded precipitation estimates for hydrological applications over Southern China. Remote Sensing, 12, 399723(2020).

[21] Yulu ZHONG. Evaluation and verification of FY-4A satellite quantitative precipitation estimation product. Journal of Agricultural Catastropholgy, 11, 96-98(2021).

[22] G YIN, J BAIK, J PARK. Comprehensive analysis of GEO-KOMPSAT-2A and Fengyun satellite-based precipitation estimates across Northeast Asia. Giscience & Remote Sensing, 59, 782-800(2022).

[23] Z SHEN, B YONG. Downscaling the GPM-based satellite precipitation retrievals using gradient boosting decision tree approach over Mainland China. Journal of Hydrology, 602(2021).

[25] Zhiqing ZHANG, Feng LU, Xiang FANG et al. Applicationand development of FY-4 meteorological satellite. Aerospace Shanghai, 34, 8-19(2017).

[26] Yang PAN, Yan SHEN, Jingjing YU et al. Analysis of the combined Gauge-Satellite hourly precipitation over China based on the OI technique. Acta Meteorologica Sinica, 70, 1381-1389(2012).

[27] Jingjing YU, Yan SHEN, Yang PAN et al. Improvement of satellite-based precipitation estimates over China based on probability density function matching method. Journal of Applied Meteorological Science, 24, 544-553(2013).

[28] Yan SHEN, Yang PAN, Jingjing YU et al. Quality assessment of hourly merged precipitation product over China. Transactions of Atmospheric Sciences, 36, 37-46(2013).

[29] Jingjing YU, Yan SHEN, Yang PAN et al. Comparative assessment between the daily merged precipitation dataset over China and the worlds popular counterparts. Acta Meteorologica Sinica, 73, 394-410(2015).

[30] B YONG. 30oducts in Basins beyond its inclined latitude band：A case study in Laohahe Basin，China. Water Resources Research, 46(2010).

[31] Z Shen, B Yong. Downscaling the GPM-based satellite precipitation retrievals using gradient boosting decision tree approach over Mainland China. Journal of Hydrology, 602, 126803(2021).

[32] Y TIAN, C D PETERS-LIDARD, J B EYLANDER et al. Component analysis of errors in satellite-based precipitation estimates. Journal of Geophysical Research-Atmospheres, 114(2009).

[33] G TANG, Y MA, D LONG et al. Evaluation of GPM Day-1 IMERG and TMPA Version-7 legacy products over Mainland China at multiple spatiotemporal scales. Journal of Hydrology, 533, 152-167(2016).

[34] A Y HOU, R K KAKAR, S NEECK et al. The global precipitation measurement mission. Bulletin of The American Meteorological Society, 95, 701(2014).

[35] X LU, G TANG, X WANG et al. Correcting GPM IMERG precipitation data over the Tianshan Mountains in China. Journal of Hydrology, 575, 1239-1252(2019).

[36] Z ZHOU, B GUO, W XING et al. Comprehensive evaluation of latest GPM era IMERG and GSMaP precipitation products over Mainland China. Atmospheric Research, 246(2020).