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A global multi catchment and multi dataset synthesis for water fluxes and storage changes on land

Mohanna Zarei, Georgia Destouni

2024Scientific Data11 citationsDOIOpen Access PDF

Abstract

Water on land is essential for all societal, ecosystem, and planetary health aspects and conditions, and all life as we know it. Many disciplines consider and model similar terrestrial water phenomena and processes, but comparisons and consistent validations are lacking for the datasets used by various science communities for different world parts, scales, and applications. Here, we present a new global data synthesis that includes and harmonises four comparative datasets for main terrestrial water fluxes and storage changes, and the catchment-wise water balance closure they imply for the 30-year period 1980-2010 in 1561 non-overlapping hydrological catchments around the world. This can be used to identify essential agreements and disagreements of the comparative datasets for spatial variations and temporal changes of runoff, evapotranspiration, water storage, and associated water-balances around the global land area, e.g., for pattern recognition and hypothesis/model testing. The facilitated direct dataset comparison can advance a more coherent, realistic cross-disciplinary understanding of Earth's water states and changes across regions and scales, from local and up to continental and global.

Topics & Concepts

EvapotranspirationSurface runoffWater storageEnvironmental scienceWater balanceGlobal changeDrainage basinTemporal scalesHydrology (agriculture)Earth system scienceLand useWater cycleLand use, land-use change and forestryClimate changePhysical geographyEcologyGeographyGeologyOceanographyCartographyGeotechnical engineeringInletBiologyHydrology and Watershed Management StudiesFlood Risk Assessment and ManagementGeophysics and Gravity Measurements
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