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Global Characterization of Inland Water Reservoirs Using ICESat‐2 Altimetry and Climate Reanalysis

Jonathan C. Ryan, L. C. Smith, Sarah Cooley, L. H. Pitcher, Tamlin M. Pavelsky

2020Geophysical Research Letters80 citationsDOIOpen Access PDF

Abstract

Abstract Accurate, transparent knowledge of global reservoir levels is a prerequisite for effective management of water resources. However, no complete database exists because gauge data are not globally available and the current generation of satellite radar altimeters resolves only the world's largest reservoirs. Here, we investigate water level changes in global reservoirs using ICESat‐2, National Aeronautics and Space Administration (NASA)'s new satellite laser altimetry mission. In just the first 12 months of the mission, we find that ICESat‐2 accurately (±14.1 cm) retrieved water level changes for 3,712 global reservoirs having surface areas ranging from <1 to >10,000 km 2 . From this new global data set, we identify distinct regional patterns in reservoir level change that can be attributed to both water availability and management strategy. Our findings demonstrate that ICESat‐2 will form a crucial component of any global reservoir level inventory and enable new insight into how reservoir management responds to climatic variability and increasing human demand.

Topics & Concepts

AltimeterEnvironmental scienceSatelliteRemote sensingWater resourcesWater levelMeteorologyGeologyGeographyCartographyBiologyEcologyAerospace engineeringEngineeringFlood Risk Assessment and ManagementHydrology and Watershed Management StudiesWater resources management and optimization