Validation results suggest that our proposed scheme can well reproduce the storage variations of China''s major reservoirs, and the coupled model exhibits a satisfactory
AI Customer ServiceTo obtain reliable water storage estimates for each reservoir and derive the
AI Customer ServiceModel estimates of China''s terrestrial water storage variation due to reservoir operation
AI Customer Service2 天之前· NANJING, Dec. 13 (Xinhua) -- China''s reservoirs have witnessed a total increase in storage capacity of approximately 470 billion cubic meters, or 90.8 percent, since the year 2000.
AI Customer ServiceChina''s fresh water resources include 2500 cubic kilometers of mean annual run-off in its rivers and 828.8 cubic kilometers of groundwater recharge.As pumping water draws water from nearby rivers, the total available resource is less than
AI Customer ServiceThe enhanced monthly water coverage data can therefore provide a more accurate and continuous estimation on water level and water storage change for China''s lakes and reservoirs. Note, for enhanced monthly water coverage
AI Customer ServiceIn contrast, anthropogenic activities (agricultural irrigation, industrial water use, etc.) and accelerated glacial melting due to global warming are the dominant factors in the
AI Customer ServiceAttributing terrestrial water storage variations across china to changes in
AI Customer ServiceOur study uncovered the spatiotemporal characteristics of water storage change in China''s lakes and reservoirs and also demonstrated the advantage of combining Landsat derived products,
AI Customer ServiceModel estimates of China''s terrestrial water storage variation due to reservoir
AI Customer ServiceTo obtain reliable water storage estimates for each reservoir and derive the total reservoir water storage in China, we developed and selected optimal multi-parameter fitting
AI Customer ServiceThe project diverts natural resources to one mega-region at the expense of another, adversely impacting the social well-being of the southern water-supplying region and challenging China''s domestic stability in the long
AI Customer Serviceand its role in China''s terrestrial water storage (TWS) over recent decades. W e estimate that, ov er a seasonal cycle, China''s RW S variation is 15%, 16%, and 25% of TWS variation during
AI Customer ServiceTerrestrial water storage (TWS) which includes groundwater, soil moisture, surface water bodies, glaciers, snow water equivalent, and canopy water play a key role in
AI Customer ServiceOur findings unveiled compelling insights into the seasonal dynamics of reservoir water storage across diverse regions of China. We observed a consistent pattern of
AI Customer ServiceThe two GHMs are selected because they are two of the few GHMs that simulate human effects on water storage. WaterGAP simulates global water storage and
AI Customer ServiceWith all these unsolved issues, the water storage dynamics of China''s reservoirs and its interaction with China''s terrestrial water cycle over the long term have not been well
AI Customer ServiceHere, we quantify the effect of coal mine closure on terrestrial water storage (TWS) in China using satellite data and a staggered difference-in-differences approach. Our
AI Customer Servicespatio-temporal evolution of terrestrial water storage and its components in nine major watersheds in China. The random forest method was used for analyzing the relative contribution rate of...
AI Customer ServiceAttributing terrestrial water storage variations across china to changes in groundwater and human water use
AI Customer ServiceMonitoring the variation of terrestrial water storage in North China using GRACE and GRACE-FO gravity satellite data. Progress in Geophysics (in Chinese), 37(5): 1854-1862,
AI Customer Serviceand its role in China''s terrestrial water storage (TWS) over recent decades. We estimate that, over a seasonal cycle, China''s RWS variation is 15%, 16%, and 25% of TWS variation during
AI Customer ServiceNote Green box = "North China" as reflected in the figure above; Red box = North China Plain. Source Google Earth; authors'' analysis. Groundwater levels are falling by a
AI Customer ServiceOur study uncovered the spatiotemporal characteristics of water storage change in China''s
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