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Full Description
This detailed book introduces China's national dynamic water resources assessment model, presenting its construction, application scenarios, and modern modeling approach to replace traditional statistics-based methods.
The book thoroughly explores the applications of distributed hydrological modeling techniques in national water resources assessment. It presents the successful development of the China Water Assessment Model (CWAM), which is based on the WEP-L hydrological model. CWAM demonstrates broad potential in supporting national water information acquisition, uniquely covering both surveyed and un-surveyed regions. The work highlights the model's ability to account for China's diverse climatic and geological characteristics, while improving the efficiency of water resources assessment and providing solutions to dynamic assessment challenges, especially under climate change and human impacts.
This work will serve as an essential reference for scholars and students in hydrology and water resources, as well as policy makers and engineers involved in water resources management and assessment.
Contents
1. Model architecture design and implementation program of the CWAM model 2. New sub-basin division method for large-scale regions and its application in China 3. Infiltration-runoff modeling for swelling soil under unsteady rainfall condition 4. Hydrological modeling for karst structure and its application in the karst mountain region 5. Hydrothermal coupling modeling for the cold region and its application in the source area of the Yangtze River 6. Development and validation of national-scale dynamic water resources assessment model in China 7. Spatiotemporal patterns of hydrological and water resources variables in China 8. Detection and attribution of streamflow changes in different climatic and geomorphic regions of China 9. Conclusions
