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Earth's water reservoirs in a changing climate

Graeme L. Stephens, Julia Slingo, Eric Rignot, J. T. Reager, Maria Z. Hakuba, Paul J. Durack, John R. Worden, Remy Rocca

2020Proceedings of the Royal Society A Mathematical Physical and Engineering Sciences97 citationsDOIOpen Access PDF

Abstract

Progress towards achieving a quantitative understanding of the exchanges of water between Earth's main water reservoirs is reviewed with emphasis on advances accrued from the latest advances in Earth Observation from space. These exchanges of water between the reservoirs are a result of processes that are at the core of important physical Earth-system feedbacks, which fundamentally control the response of Earth's climate to the greenhouse gas forcing it is now experiencing, and are therefore vital to understanding the future evolution of Earth's climate. The changing nature of global mean sea level (GMSL) is the context for discussion of these exchanges. Different sources of satellite observations that are used to quantify ice mass loss and water storage over continents, how water can be tracked to its source using water isotope information and how the waters in different reservoirs influence the fluxes of water between reservoirs are described. The profound influence of Earth's hydrological cycle, including human influences on it, on the rate of GMSL rise is emphasized. The many intricate ways water cycle processes influence water exchanges between reservoirs and thus sea-level rise, including disproportionate influences by the tiniest water reservoirs, are emphasized.

Topics & Concepts

Water cycleEarth system scienceEnvironmental scienceContext (archaeology)Earth scienceClimate changeForcing (mathematics)Water massGreenhouse gasClimatologyGeologyOceanographyEcologyPaleontologyBiologyGeophysics and Gravity MeasurementsClimate variability and modelsOceanographic and Atmospheric Processes
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