Litcius/Paper detail

Satellites reveal widespread decline in global lake water storage

Fangfang Yao, Ben Livneh, Balaji Rajagopalan, Jida Wang, Jean‐François Crétaux, Yoshihide Wada, Muriel Bergé‐Nguyen

2023Science439 citationsDOIOpen Access PDF

Abstract

Climate change and human activities increasingly threaten lakes that store 87% of Earth's liquid surface fresh water. Yet, recent trends and drivers of lake volume change remain largely unknown globally. Here, we analyze the 1972 largest global lakes using three decades of satellite observations, climate data, and hydrologic models, finding statistically significant storage declines for 53% of these water bodies over the period 1992-2020. The net volume loss in natural lakes is largely attributable to climate warming, increasing evaporative demand, and human water consumption, whereas sedimentation dominates storage losses in reservoirs. We estimate that roughly one-quarter of the world's population resides in a basin of a drying lake, underscoring the necessity of incorporating climate change and sedimentation impacts into sustainable water resources management.

Topics & Concepts

Climate changeEnvironmental scienceSedimentationGlobal warmingPopulationWater resourcesWater storageSurface waterGlobal changePhysical geographyHydrology (agriculture)GeographyWater resource managementEcologyOceanographyGeologySedimentEnvironmental engineeringBiologyPaleontologyInletDemographySociologyGeotechnical engineeringFlood Risk Assessment and ManagementHydrology and Watershed Management StudiesWater resources management and optimization