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Dark brown carbon from wildfires: a potent snow radiative forcing agent?

Ganesh S. Chelluboyina, Taveen Singh Kapoor, Rajan K. Chakrabarty

2024npj Climate and Atmospheric Science15 citationsDOIOpen Access PDF

Abstract

Deposition of wildfire smoke on snow contributes to its darkening and accelerated snowmelt. Recent field studies have identified dark brown carbon (d-BrC) to contribute 50–75% of shortwave absorption in wildfire smoke. d-BrC is a distinct class of water-insoluble, light-absorbing organic carbon that co-exists in abundance with black carbon (BC) in snow across the world. However, the importance of d-BrC as a snow warming agent relative to BC remains unexplored. We address this gap using aerosol-snow radiative transfer calculations on datasets from laboratory and field measurement. We show d-BrC increases the annual mean snow radiative forcing between 0.6 and 17.9 W m − 2 , corresponding to different wildfire smoke deposition scenarios. This is a 1.6 to 2.1-fold enhancement when compared with BC-only deposition on snow. This study suggests d-BrC is an important contributor to snowmelt in midlatitude glaciers, where ~40% of the world’s glacier surface area resides.

Topics & Concepts

SnowRadiative forcingSnowmeltEnvironmental scienceAtmospheric sciencesShortwaveRadiative transferForcing (mathematics)Shortwave radiationCarbon blackAerosolCarbon fibersClimatologyMeteorologyChemistryGeographyPhysicsGeologyMaterials scienceComposite numberComposite materialOrganic chemistryNatural rubberRadiationQuantum mechanicsAtmospheric chemistry and aerosolsAtmospheric and Environmental Gas DynamicsAtmospheric aerosols and clouds
Dark brown carbon from wildfires: a potent snow radiative forcing agent? | Litcius