Simulated responses of terrestrial aridity to black carbon and sulfate aerosols

Lin, L., Gettelman, A., Xu, Y., Fu, Q.. (2016). Simulated responses of terrestrial aridity to black carbon and sulfate aerosols. Journal of Geophysical Research-Atmospheres, doi:https://doi.org/10.1002/2015JD024100

Title Simulated responses of terrestrial aridity to black carbon and sulfate aerosols
Genre Article
Author(s) Lei Lin, Andrew Gettelman, Yangyang Xu, Q. Fu
Abstract Aridity index (AI), defined as the ratio of precipitation to potential evapotranspiration (PET), is a measure of the dryness of terrestrial climate. Global climate models generally project future decreases of AI (drying) associated with global warming scenarios driven by increasing greenhouse gas and declining aerosols. Given their different effects in the climate system, scattering and absorbing aerosols may affect AI differently. Here we explore the terrestrial aridity responses to anthropogenic black carbon (BC) and sulfate (SO₄) aerosols with Community Earth System Model simulations. Positive BC radiative forcing decreases precipitation averaged over global land at a rate of 0.9%/°C of global mean surface temperature increase (moderate drying), while BC radiative forcing increases PET by 1.0%/°C (also drying). BC leads to a global decrease of 1.9%/°C in AI (drying). SO₄ forcing is negative and causes precipitation a decrease at a rate of 6.7%/°C cooling (strong drying). PET also decreases in response to SO₄ aerosol cooling by 6.3%/°C cooling (contributing to moistening). Thus, SO₄ cooling leads to a small decrease in AI (drying) by 0.4%/°C cooling. Despite the opposite effects on global mean temperature, BC and SO₄ both contribute to the twentieth century drying (AI decrease). Sensitivity test indicates that surface temperature and surface available energy changes dominate BC- and SO₄-induced PET changes.
Publication Title Journal of Geophysical Research-Atmospheres
Publication Date Jan 27, 2016
Publisher's Version of Record https://doi.org/10.1002/2015JD024100
OpenSky Citable URL https://n2t.org/ark:/85065/d7r78gsh
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