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Estimating Impacts and Trade‐offs in Solar Geoengineering Scenarios With a Moist Energy Balance Model

Nicholas J. Lutsko, Jacob T. Seeley, David W. Keith

2020Geophysical Research Letters20 citationsDOI

Abstract

Abstract There are large uncertainties in the potential impacts of solar radiation modification (SRM) and in how these impacts depend on the way SRM is deployed. One open question concerns trade‐offs between latitudinal profiles of insolation reduction and climate response. Here, a moist energy balance model is used to evaluate several SRM proposals, providing fundamental insight into how the insolation reduction profile affects the climate response. The optimal SRM profile is found to depend on the intensity of the intervention, as the most effective profile for moderate SRM focuses the reduction at high latitudes, whereas the most effective profile for strong SRM is tropically amplified. The effectiveness of SRM is also shown to depend on when it is applied, an important factor to consider when designing SRM proposals. Using an energy balance model allows us to provide physical explanations for these results while also suggesting future avenues of research with comprehensive climate models.

Topics & Concepts

Energy balanceEnvironmental scienceInsolationGeoengineeringReduction (mathematics)Balance (ability)Climate changeClimatologyMeteorologyComputer scienceAtmospheric sciencesMathematicsPhysicsEcologyGeologyGeometryBiologyPhysical medicine and rehabilitationThermodynamicsMedicineClimate Change and GeoengineeringAtmospheric Ozone and ClimateClimate Change Policy and Economics
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