6533b7cefe1ef96bd1257989

RESEARCH PRODUCT

Estimating the contribution of organic acids to northern hemispheric continental organic aerosol

Claudia MohrClaudia MohrDouglas A. DayDouglas A. DayJose L. JimenezJose L. JimenezS. ThompsonS. ThompsonNga L. NgDouglas R. WorsnopPedro Campuzano-jostPedro Campuzano-jostReddy L. N. YatavelliReddy L. N. YatavelliReddy L. N. YatavelliJoel R. KimmelHarald StarkHarald StarkFelipe D. Lopez-hilfikerMichael J. CubisonMikael EhnAlexander L. VogelAlexander L. VogelMarkku KulmalaHeikki JunninenMikko ÄIjäläManjula R. CanagaratnaLiine HeikkinenBrett B. PalmBrett B. PalmThorsten HoffmannJohn T. JayneTuukka Petäjä

subject

chemistry.chemical_classificationChemical ionization010504 meteorology & atmospheric sciencesCarboxylic acid010501 environmental sciences01 natural sciencesAerosolGeophysicschemistry13. Climate actionEnvironmental chemistryGeneral Earth and Planetary SciencesAerosol mass spectrometryMass concentration (chemistry)0105 earth and related environmental sciencesOrganic acid

description

Using chemical ionization mass spectrometry to detect particle-phase acids (acid-CIMS) and aerosol mass spectrometry (AMS) measurements from Colorado, USA, and two studies in Hyytiala, Finland, we quantify the fraction of organic aerosol (OA) mass that is composed of molecules with acid functional groups (facid). Molecules containing one or more carboxylic acid functionality contributed approximately 29% (45-51%) of the OA mass in Colorado (Finland). Organic acid mass concentration correlates well with AMS m/z 44 (primarily CO2+), a commonly used marker for highly oxidized aerosol. Using the average empirical relationship between AMS m/z 44 and organic acids in these three studies, together with m/z 44 data from 29 continental northern hemispheric (NH) AMS datasets, we estimate that molecules containing carboxylic acid functionality constitute on average 28% (range 10-50%) of NH continental OA mass with typically higher values at rural/remote sites and during summer and lower values at urban sites and during winter.

yearjournalcountryeditionlanguage
2015-07-23Geophysical Research Letters
https://doi.org/10.1002/2015gl064650