Litcius/Paper detail

Chemistry-albedo feedbacks offset up to a third of forestation’s CO <sub>2</sub> removal benefits

James Weber, James King, Nathan Luke Abraham, Daniel P. Grosvenor, Chris Smith, Youngsub Matthew Shin, Peter Lawrence, Stephanie Roe, David J. Beerling, Maria Val Martin

2024Science102 citationsDOI

Abstract

Forestation is widely proposed for carbon dioxide (CO 2 ) removal, but its impact on climate through changes to atmospheric composition and surface albedo remains relatively unexplored. We assessed these responses using two Earth system models by comparing a scenario with extensive global forest expansion in suitable regions to other plausible futures. We found that forestation increased aerosol scattering and the greenhouse gases methane and ozone following increased biogenic organic emissions. Additionally, forestation decreased surface albedo, which yielded a positive radiative forcing (i.e., warming). This offset up to a third of the negative forcing from the additional CO 2 removal under a 4°C warming scenario. However, when forestation was pursued alongside other strategies that achieve the 2°C Paris Agreement target, the offsetting positive forcing was smaller, highlighting the urgency for simultaneous emission reductions.

Topics & Concepts

Radiative forcingAlbedo (alchemy)AfforestationAtmospheric sciencesGreenhouse gasEnvironmental scienceForcing (mathematics)OzoneCarbon dioxideGreenhouse effectCarbon sequestrationGlobal warmingClimatologyAerosolClimate changeChemistryMeteorologyAgroforestryEcologyGeographyGeologyOrganic chemistryPerformance artBiologyArt historyArtAtmospheric and Environmental Gas DynamicsAtmospheric chemistry and aerosolsClimate Change Policy and Economics