Luo Kaisheng, PhD, Associate Professor, His research interests include remote sensing, geographic information systems and interference hydrology. He has long been committed to the application of remote sensing and GIS, the improvement of interference hydrology theory, the response and adaptation mechanism of hydrological system to human disturbance, model simulation and control countermeasures. He published the first scientific monograph on interference hydrology at home and abroad:《Interference hydrology》, which first proposed the concept of "Interference hydrology" and clarified its connotation, determined the research object, theoretical basis, core research content, research methods, basic framework and branch system of interference hydrology, and put forward the theory of human hydrological interference process in 3 stages and 5 links；Quantify the subject human activities and reveal the process and mechanism of their interference to the hydrological system; The interference process and mechanism of human activities on hydrological system in typical branches such as land use, ecological protection project construction and agricultural management are revealed, and the game comparison between them and climate change is also revealed. As the first author/sole author, he has published more than 25 in top journals such as Gondwana Research, Landscape and Urban Planning, Journal of Environmental Management, Remote Sensing. The research results have been widely recognized by academicians, Ministry of Natural Resources and colleagues at home and abroad. Presided over/participated in 4 national projects and 1 ministerial project; He is also the editorial board member/youth editorial board member of academic journals such as Soil Bulletin, People's Pearl River and Shanxi Agricultural Science.

Remote Sensing

Geographic information system (GIS)

Hydrological processes

urban flood

Water Resources

Editor of Journal of Wuhan University (Science Edition);

Editor of Soil Bulletin;

Editor of Journal of Hunan Normal University (Science Edition)

(1) In 2021, won the title of "Excellent Employee" of Chongqing Institute of Green and Intelligent Technology, Chinese Academy of Sciences;

(2) In 2017, he was awarded the title of "Zhu Liyuehua Outstanding Doctoral Student" by the Chinese Academy of Sciences.

（1）Kaisheng Luo*, Xuejun Zhang. Increasing urban flood risk in China over recent 40 years induced by LUCC, Landscape and Urban Planning, 2022,219, 104317. (CiteScore=14.4, IF=9.1；ESI Highly cited paper)

（2）Kaisheng Luo, Interference Hydrology, China Meteorological Press, 2021.

（3）Kaisheng Luo*, Juana P. Moiwo. Sensitivity of the land surface hydrological cycle to human activities in China, Gondwana Research, 2023, 123:255-264. (CiteScore=10.4, IF=6.1)

（4）Kaisheng Luo*. Response of hydrological systems to the intensity of ecological engineering. Journal of Environmental Management, 2021, 296, 113173. (CiteScore=9.8, IF=6.789)

（5）Kaisheng Luo*, Juana P. Moiwo. Rapid monitoring of abandoned farmland and information on regulation achievements of government based on remote sensing technology. Environmental Science & Policy, 2022, 132:91-100. (CiteScore=10.5, IF=6.00)

（6）Kaisheng Luo*, Yuanzheng Li. Assessing rainwater harvesting potential in a humid and semi-humid region based on a hydrological model. Journal of Hydrology:Regional Studies, 2021, 37, 100912. (CiteScore=7.3, IF=5.023)

（7）Kaisheng Luo*. Contribution of ecological conservation programs and climate change to hydrological regime change in the source region of the Yangtze River in China. Regional Environmental Change, 2022, 22(10):1-24. (CiteScore=8.2, IF=4.20)

（8）Kaisheng Luo*, Philip M. P. Mornya. Fine Monitoring of Wetlands at Provincial Large-scale Using Object-based Technique and Medium-resolution Image. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 2019，12（8）:2878-2888. (CiteScore=7.2, IF=3.784)

（9）Kaisheng Luo*. Spatial Pattern of Forest Carbon Storage in the Vertical and Horizontal Directions Based on HJ-CCD Remote Sensing Imagery. Remote Sensing. 2019, 12(11), 788-792. (CiteScore=6.6, IF=4.848)

（10）Kaisheng Luo, Fulu Tao*, Xiangzheng Deng, Moiwo Juana P. Changes in potential evapotranspiration and surface runoff in 1981-2010 and the driving factors in Upper Heihe River Basin in Northwest China. Hydrological Processes, 2017,31(1):90-103. (CiteScore=5.8, IF=3.565)