4.7 Article

Opposing trends of cloud coverage over land and ocean under global warming

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ATMOSPHERIC CHEMISTRY AND PHYSICS
卷 23, 期 11, 页码 6559-6569

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COPERNICUS GESELLSCHAFT MBH
DOI: 10.5194/acp-23-6559-2023

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Clouds have a crucial impact on Earth's energy balance and water cycle. Their response to global warming is the biggest source of uncertainty in climate prediction. By analyzing 42 years of global cloud coverage reanalysis data, we have identified a clear trend and El Nino-Southern Oscillation-related patterns. The trend reveals decreasing cloud coverage over most continents and increasing coverage over tropical and subtropical oceans. The reduction in near-surface relative humidity can explain the declining cloud coverage over land. Our findings suggest potential impacts on the terrestrial water cycle and changes in energy partitioning between land and ocean, all linked to global warming.
Clouds play a key role in Earth's energy budget and watercycle. Their response to global warming contributes the largest uncertaintyto climate prediction. Here, by performing an empirical orthogonal functionanalysis on 42 years of reanalysis data of global cloud coverage, we extractan unambiguous trend and El-Nino-Southern-Oscillation-associated modes.The trend mode translates spatially to decreasing trends in cloud coverageover most continents and increasing trends over the tropical and subtropicaloceans. A reduction in near-surface relative humidity can explain thedecreasing trends in cloud coverage over land. Our results suggest potentialstress on the terrestrial water cycle and changes in the energy partitionbetween land and ocean, all associated with global warming.

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