Increasing Isoprene Epoxydiol-to-Inorganic Sulfate Aerosol Ratio Results in Extensive Conversion of Inorganic Sulfate to Organosulfur Forms: Implications for Aerosol Physicochemical Properties

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dc.contributor.authorRiva, Matthieu
dc.contributor.authorChen, Yuzhi
dc.contributor.authorZhang, Yue
dc.contributor.authorLei, Ziying
dc.contributor.authorOlson, Nicole E.
dc.contributor.authorBoyer, Hallie C.
dc.contributor.authorNarayan, Shweta
dc.contributor.authorYee, Lindsay D.
dc.contributor.authorGreen, Hilary S.
dc.contributor.authorCui, Tianqu
dc.contributor.authorZhang, Zhenfa
dc.contributor.authorBaumann, Karsten
dc.contributor.authorFort, Mike
dc.contributor.authorEdgerton, Eric S.
dc.contributor.authorBudisulistiorini, Sri Hapsari
dc.contributor.authorRose, Caitlin A.
dc.contributor.authorRibeiro, Igor Oliveira
dc.contributor.authorOliveira, Rafael L.
dc.contributor.authordos Santos, Erickson O.
dc.contributor.authorMachado, Cristine M.D.
dc.contributor.authorSzopa, Sophie
dc.contributor.authorZhao, Yue
dc.contributor.authorAlves, Eliane Gomes
dc.contributor.authorSá, Suzane S. de
dc.contributor.authorHu, Weiwei
dc.contributor.authorKnipping, Eladio M.
dc.contributor.authorShaw, Stephanie L.
dc.contributor.authorDuvoisin Júnior, Sérgio
dc.contributor.authorSouza, Rodrigo Augusto Ferreira de
dc.contributor.authorPalm, Brett B.
dc.contributor.authorJi?enez, José Luis
dc.contributor.authorGlasius, Marianne
dc.contributor.authorGoldstein, Allen H.
dc.contributor.authorPye, Havala O.T.
dc.contributor.authorGold, Avram R.
dc.contributor.authorTurpin, Barbara
dc.contributor.authorVizuete, William
dc.contributor.authorMartin, Scot T.
dc.contributor.authorThornton, Joel A.
dc.contributor.authorDutcher, Cari S.
dc.contributor.authorAult, Andrew P.
dc.contributor.authorSurratt, Jason D.
dc.date.accessioned2020-06-15T21:35:31Z
dc.date.available2020-06-15T21:35:31Z
dc.date.issued2019
dc.description.abstractAcid-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. © 2019 American Chemical Society.en
dc.identifier.doi10.1021/acs.est.9b01019
dc.identifier.urihttps://repositorio.inpa.gov.br/handle/1/16633
dc.language.isoenpt_BR
dc.publisher.journalEnvironmental Science and Technologypt_BR
dc.relation.ispartofVolume 53, Número 15, Pags. 8682-8694pt_BR
dc.rightsRestrito*
dc.subjectAerosolsen
dc.subjectAir Qualityen
dc.subjectIsopreneen
dc.subjectSulfur Compoundsen
dc.subjectAerosol Propertiesen
dc.subjectGlobal Climatesen
dc.subjectInorganic Sulfateen
dc.subjectLaboratory Measurementsen
dc.subjectOrganic Sulfatesen
dc.subjectOrganosulfur Compoundsen
dc.subjectOxidation Productsen
dc.subjectSecondary Organic Aerosolsen
dc.subjectPhysicochemical Propertiesen
dc.subjectIsopreneen
dc.subjectIsoprene Epoxydiolen
dc.subjectOrganosulfur Derivativeen
dc.subjectSulfateen
dc.subjectUnclassified Drugen
dc.subject1,3 Butadieneen
dc.subjectHemiterpeneen
dc.subjectIsopreneen
dc.subjectPentaneen
dc.subjectSulfateen
dc.subjectAerosolen
dc.subjectConcentration (composition)en
dc.subjectIsopreneen
dc.subjectOrganic Sulfur Compounden
dc.subjectOxidationen
dc.subjectPhysicochemical Propertyen
dc.subjectSulfateen
dc.subjectSulfur Dioxideen
dc.subjectAcidityen
dc.subjectAir Pollutionen
dc.subjectAir Pollution Controlen
dc.subjectAir Qualityen
dc.subjectAqueous Solutionen
dc.subjectChemical Compositionen
dc.subjectClimate Changeen
dc.subjectConcentration Ratioen
dc.subjectGlobal Climateen
dc.subjectMaterial Stateen
dc.subjectOxidationen
dc.subjectParticulate Matteren
dc.subjectPhen
dc.subjectPhotooxidationen
dc.subjectPhysical Chemistryen
dc.subjectRadiative Forcingen
dc.subjectSecondary Organic Aerosolen
dc.subjectViscosityen
dc.subjectAerosolen
dc.subjectAtmosphereen
dc.subjectTennesseeen
dc.subjectAerosolsen
dc.subjectAtmosphereen
dc.subjectButadienesen
dc.subjectHemiterpenesen
dc.subjectPentanesen
dc.subjectSulfatesen
dc.subjectTennesseeen
dc.titleIncreasing Isoprene Epoxydiol-to-Inorganic Sulfate Aerosol Ratio Results in Extensive Conversion of Inorganic Sulfate to Organosulfur Forms: Implications for Aerosol Physicochemical Propertiesen
dc.typeArtigopt_BR

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