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Surface warming and wetting due to methane’s long-wave radiative effects muted by short-wave absorption

Robert J. Allen, Xueying Zhao, Cynthia A. Randles, Ryan J. Kramer, B. H. Samset, Chris Smith

2023Nature Geoscience33 citationsDOIOpen Access PDF

Abstract

Abstract Although greenhouse gases absorb primarily long-wave radiation, they also absorb short-wave radiation. Recent studies have highlighted the importance of methane short-wave absorption, which enhances its stratospherically adjusted radiative forcing by up to ~ 15%. The corresponding climate impacts, however, have been only indirectly evaluated and thus remain largely unquantified. Here we present a systematic, unambiguous analysis using one model and separate simulations with and without methane short-wave absorption. We find that methane short-wave absorption counteracts ~30% of the surface warming associated with its long-wave radiative effects. An even larger impact occurs for precipitation as methane short-wave absorption offsets ~60% of the precipitation increase relative to its long-wave radiative effects. The methane short-wave-induced cooling is due largely to cloud rapid adjustments, including increased low-level clouds, which enhance the reflection of incoming short-wave radiation, and decreased high-level clouds, which enhance outgoing long-wave radiation. The cloud responses, in turn, are related to the profile of atmospheric solar heating and corresponding changes in temperature and relative humidity. Despite our findings, methane remains a potent contributor to global warming, and efforts to reduce methane emissions are vital for keeping global warming well below 2 °C above preindustrial values.

Topics & Concepts

MethaneAtmospheric sciencesRadiative forcingGreenhouse gasRadiative transferEnvironmental scienceAtmospheric methaneGlobal warmingAbsorption (acoustics)ClimatologyGreenhouse effectMeteorologyClimate changePhysicsGeologyChemistryOpticsOceanographyOrganic chemistryAerosolAtmospheric Ozone and ClimateAtmospheric and Environmental Gas DynamicsMeteorological Phenomena and Simulations
Surface warming and wetting due to methane’s long-wave radiative effects muted by short-wave absorption | Litcius