Affiliation:
1. Laboratoire de Météorologie Dynamique Institut Pierre Simon Laplace (LMD IPSL), Sorbonne Université, CNRS 75005, Paris, France
2. University of Hamburg, 20148 Hamburg, Germany
Abstract
The response of trade cumulus clouds to warming remains a major source of uncertainty for climate sensitivity. Recent studies have highlighted the role of the cloud–convection coupling in explaining this spread in future warming estimates. Here, using observations from an instrumented site and an airborne field campaign, together with high-frequency climate model outputs, we show that i) over the course of the daily cycle, a cloud transition is observed from deeper cumuli during nighttime to shallower cumuli during daytime, ii) the cloud evolution that models predict from night to day reflects the strength of cloud sensitivity to convective mass flux and exhibits many similarities with the cloud evolution they predict under global warming, and iii) those models that simulate a realistic cloud transition over the daily cycle tend to predict weak trade cumulus feedback. Our findings thus show that the daily cycle is a particularly relevant testbed, amenable to process studies and anchored by observations, to assess and improve the model representation of cloud–convection coupling and thus make climate projections more reliable.
Publisher
Proceedings of the National Academy of Sciences
Cited by
5 articles.
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