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Dear Colleagues,
Investigating high-resolution atmosphere–hydrology coupled modeling systems under the influence of intensive climate change/variability and human activities can lay a scientific foundation for water resources security in areas of extensive human activities and it can enhance the basic support capacity to ensure water safety in water-scarce areas. This Special Issue “Modeling applications under changing climatic conditions on water resource security” solicits papers on recent advances and applications in the areas of "natural–social" dualistic water cycle theory and high-resolution atmosphere (e.g., China Meteorological Assimilation Driving Datasets for the SWAT model (CMADS) [http://www.cmads.org] )-hydrology coupled modeling.
These may include, but are not limited to, water disasters, water environment modeling, non-point source pollution modeling, eco-hydrological modeling, climate change research, uncertainty analysis of hydrological modeling, response of water resources under climate change, the impact of agriculture on climate change and anthropogenic activities, meteorological analysis, meteorological verification, model intercomparison, atmosphere–hydrology coupled modeling, watershed surface water–groundwater interactions, virtual water, and reservoir regulation. We especially encourage research manuscripts on theoretical, computational, and field studies on the topics above.
Prof. Dr. Xianyong Meng
Prof. Dr. Ji Chen
Prof. Dr. Reza Soltanian
Prof. Dr. Changbing Yang
Prof. Dr. Yiping Wu
Prof. Dr. Lianqing Xue
Prof. Dr. Bellie Sivakumar
Guest Editors
Keywords
CMADS
Dualistic water cycle
Climate change
Hydrology
Meteorology
Water security
Natural hazards
SWAT
链接:https://www.mdpi.com/journal/atmosphere/special_issues/Climatic_Water
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