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The Radiative and Cloud Responses to Sea Salt Aerosol Engineering in GFDL Models

Naser Mahfouz, Spencer A. Hill, Huan Guo, Yi Ming

2023Geophysical Research Letters21 citationsDOIOpen Access PDF

Abstract

Abstract Marine cloud brightening is a proposal to counteract global warming by increasing sea salt aerosol emissions. In theory, this increases the cloud droplet number concentration of subtropical marine stratocumulus decks, increasing cloud brightness and longevity. However, this theoretical progression remains uncertain in coupled climate models, especially the response of liquid water path and cloud fraction to aerosol seeding. We use the GFDL CM4 climate model to simulate marine cloud brightening following the published G4sea‐salt protocol, in which sea salt aerosol emissions are uniformly increased over 30 S–30 N in addition to standard forcings from a SSP2‐4.5 future warming scenario. The perturbed radiative and cloud responses are temporally stable though spatially heterogeneous, and direct scattering by the added sea salt predominates over changes to cloud reflectance. In fact, feedbacks in the coupled simulation lead to a net warming, rather than cooling, response by clouds.

Topics & Concepts

Environmental scienceSea salt aerosolAerosolMarine stratocumulusAtmospheric sciencesCloud albedoSea saltClimate modelCloud forcingClimatologyRadiative transferGlobal warmingCloud physicsCloud fractionCloud computingLiquid water pathClimate changeMeteorologyCloud coverRadiative forcingOceanographyGeologyGeographyPhysicsComputer scienceQuantum mechanicsOperating systemAtmospheric aerosols and cloudsAtmospheric chemistry and aerosolsAtmospheric Ozone and Climate
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