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  • Title: Increasing Isoprene Epoxydiol-to-Inorganic Sulfate Aerosol Ratio Results in Extensive Conversion of Inorganic Sulfate to Organosulfur Forms: Implications for Aerosol Physicochemical Properties.
    Author: Riva M, Chen Y, Zhang Y, Lei Z, Olson NE, Boyer HC, Narayan S, Yee LD, Green HS, Cui T, Zhang Z, Baumann K, Fort M, Edgerton E, Budisulistiorini SH, Rose CA, Ribeiro IO, E Oliveira RL, Dos Santos EO, Machado CMD, Szopa S, Zhao Y, Alves EG, de Sá SS, Hu W, Knipping EM, Shaw SL, Duvoisin Junior S, de Souza RAF, Palm BB, Jimenez JL, Glasius M, Goldstein AH, Pye HOT, Gold A, Turpin BJ, Vizuete W, Martin ST, Thornton JA, Dutcher CS, Ault AP, Surratt JD.
    Journal: Environ Sci Technol; 2019 Aug 06; 53(15):8682-8694. PubMed ID: 31335134.
    Abstract:
    Acid-driven multiphase chemistry of isoprene epoxydiols (IEPOX), key isoprene oxidation products, with inorganic sulfate aerosol yields substantial amounts of secondary organic aerosol (SOA) through the formation of organosulfur compounds. The extent and implications of inorganic-to-organic sulfate conversion, however, are unknown. In this article, we demonstrate that extensive consumption of inorganic sulfate occurs, which increases with the IEPOX-to-inorganic sulfate concentration ratio (IEPOX/Sulfinorg), as determined by laboratory measurements. Characterization of the total sulfur aerosol observed at Look Rock, Tennessee, from 2007 to 2016 shows that organosulfur mass fractions will likely continue to increase with ongoing declines in anthropogenic Sulfinorg, consistent with our laboratory findings. We further demonstrate that organosulfur compounds greatly modify critical aerosol properties, such as acidity, morphology, viscosity, and phase state. These new mechanistic insights demonstrate that changes in SO2 emissions, especially in isoprene-dominated environments, will significantly alter biogenic SOA physicochemical properties. Consequently, IEPOX/Sulfinorg will play an important role in understanding the historical climate and determining future impacts of biogenic SOA on the global climate and air quality.
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