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Realistic representation of mixed-phase clouds increases projected climate warming

Stefan Hofer, Lily Hahn, Jonah Shaw, Zachary McGraw, Olimpia Bruno, Franziska Hellmuth, Marianne Pietschnig, Idunn Aa. Mostue, Robert O. David, Tim Carlsen, Trude Storelvmo

2024Communications Earth & Environment27 citationsDOIOpen Access PDF

Abstract

Abstract Clouds are the main source of uncertainties when projecting climate change. Mixed-phase clouds that contain ice and supercooled-liquid particles are especially hard to constrain, and climate models neither agree on their phase nor their spatial extent. This is problematic, as models that underestimate contemporary supercooled-liquid in mixed-phase clouds will underestimate future warming. Furthermore, it has recently been shown that supercooled-liquid water in mixed-phase clouds is not homogeneously-mixed, neither vertically nor horizontally. However, while there have been attempts at observationally constraining mixed-phase clouds to constrain uncertainties in future warming, all studies only use the phase of the interior of mixed-phase clouds. Here we show, using novel satellite observations that distinguish between cloud-top and interior phase in mixed-phase clouds, that mixed-phase clouds are more liquid at the cloud top globally. We use these observations to constrain the cloud top phase in addition to the interior in a global climate model, leading to +1 °C more 21 st century warming in NorESM2 SSP5-8.5 climate projections. We anticipate that the difference between cloud top and interior phase in mixed-phase clouds is an important new target metric for future climate model development, because similar mixed-phase clouds related biases in future warming are likely present in many climate models.

Topics & Concepts

Phase (matter)Environmental scienceRepresentation (politics)Mixed phaseClimatologyWarming upMeteorologyAtmospheric sciencesGeographyGeologyPolitical sciencePhysicsMedicineQuantum mechanicsLawPoliticsPhysical therapyAtmospheric aerosols and cloudsAtmospheric chemistry and aerosolsAtmospheric and Environmental Gas Dynamics
Realistic representation of mixed-phase clouds increases projected climate warming | Litcius