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Temperature‐Dependence of the Clear‐Sky Feedback in Radiative‐Convective Equilibrium

Lukas Kluft, Sally Dacie, Manfred Brath, Stefan A. Buehler, Björn Stevens

2021Geophysical Research Letters36 citationsDOIOpen Access PDF

Abstract

Abstract We quantify the temperature‐dependence of the clear‐sky climate sensitivity in a one‐dimensional radiative‐convective equilibrium model. The atmosphere is adjusted to fixed surface temperatures between 280 and 330 K while preserving other boundary conditions in particular the relative humidity and the CO 2 concentration. We show that an out‐of‐bounds usage of the radiation scheme rapid radiative transfer model for GCMs (RRTMG) can lead to an erroneous decrease of the feedback parameter and an associated “bump” in climate sensitivity as found in other modeling studies. Using a line‐by‐line radiative transfer model, we find no evidence for a strengthening of the longwave radiative feedback for surface temperatures between 305 and 320 K. However, the line‐by‐line simulations also show a slight decrease in climate sensitivity when surface temperatures exceed 310 K. This decrease is caused by water‐vapor masking the radiative forcing at the flanks of the CO 2 absorption band, which reduces the total radiative forcing by about 18%.

Topics & Concepts

Radiative transferLongwaveRadiative forcingEnvironmental scienceRadiative equilibriumClimate sensitivityAtmospheric sciencesAtmospheric radiative transfer codesConvectionForcing (mathematics)Cloud feedbackAtmosphere (unit)Line (geometry)Radiative coolingComputational physicsPhysicsClimate modelClimate changeMeteorologyGeologyOpticsMathematicsGeometryAerosolOceanographyAtmospheric chemistry and aerosolsAtmospheric and Environmental Gas DynamicsClimate variability and models
Temperature‐Dependence of the Clear‐Sky Feedback in Radiative‐Convective Equilibrium | Litcius