Context for interpreting equilibrium climate sensitivity and transient climate response from the CMIP6 Earth system models
Citations Over TimeTop 1% of 2020 papers
Abstract
For the current generation of earth system models participating in the Coupled Model Intercomparison Project Phase 6 (CMIP6), the range of equilibrium climate sensitivity (ECS, a hypothetical value of global warming at equilibrium for a doubling of CO2) is 1.8°C to 5.6°C, the largest of any generation of models dating to the 1990s. Meanwhile, the range of transient climate response (TCR, the surface temperature warming around the time of CO2 doubling in a 1% per year CO2 increase simulation) for the CMIP6 models of 1.7°C (1.3°C to 3.0°C) is only slightly larger than for the CMIP3 and CMIP5 models. Here we review and synthesize the latest developments in ECS and TCR values in CMIP, compile possible reasons for the current values as supplied by the modeling groups, and highlight future directions. Cloud feedbacks and cloud-aerosol interactions are the most likely contributors to the high values and increased range of ECS in CMIP6.
Related Papers
- → Missing iris effect as a possible cause of muted hydrological change and high climate sensitivity in models(2015)233 cited
- → The Evolution of Climate Sensitivity and Climate Feedbacks in the Community Atmosphere Model(2011)170 cited
- → The dependence of equilibrium climate sensitivity on climate state: Applications to studies of climates colder than present(2013)46 cited
- → Increasingly Sophisticated Climate Models Need the Out‐Of‐Sample Tests Paleoclimates Provide(2022)18 cited
- Climate of Illinois and Central U.S.: Comparison of Model Simulations of the Current Climate, Comparison of Model Sensitivity to Enhanced Greenhouse Gas Forcing and Regional Climate Models(2004)