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Are Northern Hemisphere boreal forest fires more sensitive to future aerosol mitigation than to greenhouse gas–driven warming?

Robert J. Allen, B. H. Samset, Laura J. Wilcox, Rosie A. Fisher

2024Science Advances15 citationsDOIOpen Access PDF

Abstract

Considerable interest exists in understanding how climate change affects wildfire activity. Here, we use the Community Earth System Model version 2 to show that future anthropogenic aerosol mitigation yields larger increases in fire activity in the Northern Hemisphere boreal forests, relative to a base simulation that lacks climate policy and has large increases in greenhouse gases. The enhanced fire response is related to a deeper layer of summertime soil drying, consistent with increased downwelling surface shortwave radiation and enhanced surface evapotranspiration. In contrast, soil column drying is muted under increasing greenhouse gases due to plant physiological responses to increased carbon dioxide and by enhanced melting of soil ice at a depth that increases soil liquid water. Although considerable uncertainty remains in the representation of fire processes in models, our results suggest that boreal forest fires may be more sensitive to future aerosol mitigation than to greenhouse gas-driven warming.

Topics & Concepts

Environmental scienceGreenhouse gasTaigaAerosolClimate changeBorealAtmospheric sciencesShortwave radiationEvapotranspirationPeatClimatologyMeteorologyEcologyGeologyGeographyRadiationPhysicsQuantum mechanicsBiologyFire effects on ecosystemsCryospheric studies and observationsClimate variability and models
Are Northern Hemisphere boreal forest fires more sensitive to future aerosol mitigation than to greenhouse gas–driven warming? | Litcius