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Observational Constraints on Mixed-phase Clouds Imply Higher Climate Sensitivity

Overview
Journal Science
Specialty Science
Date 2016 Apr 29
PMID 27124459
Citations 36
Authors
Ivy Tan
Trude Storelvmo
Mark D Zelinka
Affiliations
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Abstract

Global climate model (GCM) estimates of the equilibrium global mean surface temperature response to a doubling of atmospheric CO2, measured by the equilibrium climate sensitivity (ECS), range from 2.0° to 4.6°C. Clouds are among the leading causes of this uncertainty. Here we show that the ECS can be up to 1.3°C higher in simulations where mixed-phase clouds consisting of ice crystals and supercooled liquid droplets are constrained by global satellite observations. The higher ECS estimates are directly linked to a weakened cloud-phase feedback arising from a decreased cloud glaciation rate in a warmer climate. We point out the need for realistic representations of the supercooled liquid fraction in mixed-phase clouds in GCMs, given the sensitivity of the ECS to the cloud-phase feedback.

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