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  In-cloud sulfate addition to single particles resolved with sulfur isotope analysis during HCCT-2010

Harris, E., Sinha, B., van Pinxteren, D., Schneider, J., Poulain, L., Collett, J., D'Anna, B., Fahlbusch, B., Foley, S., Fomba, K. W., George, C., Gnauk, T., Henning, S., Lee, T., Mertes, S., Roth, A., Stratmann, F., Borrmann, S., Hoppe, P., & Herrmann, H. (2014). In-cloud sulfate addition to single particles resolved with sulfur isotope analysis during HCCT-2010. Atmospheric Chemistry and Physics, 14(8), 4219-4235. doi:10.5194/acp-14-4219-2014.

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資料種別: 学術論文

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 作成者:
Harris, E.1, 著者           
Sinha, B.1, 著者           
van Pinxteren, D.2, 著者
Schneider, J.1, 著者           
Poulain, L.2, 著者
Collett, J.2, 著者
D'Anna, B.2, 著者
Fahlbusch, B.2, 著者
Foley, S.2, 著者
Fomba, K. W.2, 著者
George, C.2, 著者
Gnauk, T.2, 著者
Henning, S.2, 著者
Lee, T.2, 著者
Mertes, S.2, 著者
Roth, A.1, 著者           
Stratmann, F.2, 著者
Borrmann, S.1, 著者           
Hoppe, P.1, 著者           
Herrmann, H.2, 著者
所属:
1Particle Chemistry, Max Planck Institute for Chemistry, Max Planck Society, ou_1826291              
2external, ou_persistent22              

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 要旨: In-cloud production of sulfate modifies aerosol size distribution, with important implications for the magnitude of indirect and direct aerosol cooling and the impact of SO2 emissions on the environment. We investigate which sulfate sources dominate the in-cloud addition of sulfate to different particle classes as an air parcel passes through an orographic cloud. Sulfate aerosol, SO2 and H2SO4 were collected upwind, in-cloud and downwind of an orographic cloud for three cloud measurement events during the Hill Cap Cloud Thuringia campaign in autumn 2010 (HCCT-2010). Combined SEM and NanoSIMS analysis of single particles allowed the delta S-34 of particulate sulfate to be resolved for particle size and type. The most important in-cloud SO2 oxidation pathway at HCCT-2010 was aqueous oxidation catalysed by transition metal ions (TMI catalysis), which was shown with single particle isotope analyses to occur primarily in cloud droplets nucleated on coarse mineral dust. In contrast, direct uptake of H2SO4 (g) and ultrafine particulate were the most important sources modifying fine mineral dust, increasing its hygroscopicity and facilitating activation. Sulfate addition to "mixed" particles (secondary organic and inorganic aerosol) and coated soot was dominated by in-cloud aqueous SO2 oxidation by H2O2 and direct uptake of H2SO4 (g) and ultrafine particle sulfate, depending on particle size mode and time of day. These results provide new insight into in-cloud sulfate production mechanisms, and show the importance of single particle measurements and models to accurately assess the environmental effects of cloud processing.

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 日付: 2014
 出版の状態: 出版
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 識別子(DOI, ISBNなど): ISI: 000335923300027
DOI: 10.5194/acp-14-4219-2014
 学位: -

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出版物 1

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出版物名: Atmospheric Chemistry and Physics
種別: 学術雑誌
 著者・編者:
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出版社, 出版地: Katlenburg-Lindau, Germany : European Geosciences Union
ページ: - 巻号: 14 (8) 通巻号: - 開始・終了ページ: 4219 - 4235 識別子(ISBN, ISSN, DOIなど): ISSN: 1680-7316
CoNE: https://pure.mpg.de/cone/journals/resource/111030403014016