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Precipitation scaling with temperature in warm and cold climates: an analysis of CMIP5 simulations

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Li, G., Harrison, S. P. orcid id iconORCID: https://orcid.org/0000-0001-5687-1903, Izumi, K. and Prentice, I. C. (2013) Precipitation scaling with temperature in warm and cold climates: an analysis of CMIP5 simulations. Geophysical Research Letters, 40 (15). pp. 4018-4024. ISSN 0094-8276 doi: 10.1002/grl.50730

Abstract/Summary

We investigate the scaling between precipitation and temperature changes in warm and cold climates using six models that have simulated the response to both increased CO2 and Last Glacial Maximum (LGM) boundary conditions. Globally, precipitation increases in warm climates and decreases in cold climates by between 1.5%/°C and 3%/°C. Precipitation sensitivity to temperature changes is lower over the land than over the ocean and lower over the tropical land than over the extratropical land, reflecting the constraint of water availability. The wet tropics get wetter in warm climates and drier in cold climates, but the changes in dry areas differ among models. Seasonal changes of tropical precipitation in a warmer world also reflect this “rich get richer” syndrome. Precipitation seasonality is decreased in the cold-climate state. The simulated changes in precipitation per degree temperature change are comparable to the observed changes in both the historical period and the LGM.

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Item Type Article
URI https://reading-clone.eprints-hosting.org/id/eprint/33668
Identification Number/DOI 10.1002/grl.50730
Refereed Yes
Divisions Interdisciplinary Research Centres (IDRCs) > Walker Institute
Science > School of Archaeology, Geography and Environmental Science > Earth Systems Science
Science > School of Archaeology, Geography and Environmental Science > Department of Geography and Environmental Science
Interdisciplinary centres and themes > Centre for Past Climate Change
Uncontrolled Keywords global water cycle; precipitation scaling; Clausius-Clapeyron relationship; evaporation; land-surface model; paleoclimate reconstructions
Publisher American Geophysical Union
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