Geoscientific Model Development (Apr 2024)

An overview of cloud–radiation denial experiments for the Energy Exascale Earth System Model version 1

  • B. E. Harrop,
  • J. Lu,
  • L. R. Leung,
  • W. K. M. Lau,
  • K.-M. Kim,
  • B. Medeiros,
  • B. J. Soden,
  • G. A. Vecchi,
  • G. A. Vecchi,
  • B. Zhang,
  • B. Singh

DOI
https://doi.org/10.5194/gmd-17-3111-2024
Journal volume & issue
Vol. 17
pp. 3111 – 3135

Abstract

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The interaction between clouds and radiation is a key process within the climate system, and assessing the impacts of that interaction provides valuable insights into both the present-day climate and future projections. Many modeling experiments have been designed over the years to probe the impact of the cloud radiative effect (CRE) on the climate, including those that seek to disrupt the mean CRE effect and those that only disrupt the covariance of the CRE with the circulation. Seven such experimental designs have been added to the Energy Exascale Earth System Model version 1 (E3SMv1) of the US Department of Energy. These experiments include both the first and second iterations of the Clouds On/Off Klimate Intercomparison Experiment (COOKIE) experimental design, as well as the cloud-locking method. This paper documents the code changes necessary to implement such experiments and also provides detailed instructions for how to run them. Analyses across experiment types provide valuable insights and confirm the findings of prior studies, including the role of cloud radiative heating toward intensifying the monsoon, intensifying rain rates, and poleward expansion of the general circulation owing to cloud feedbacks.