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An assessment of the significance of sulphate sources over the Atlantic Ocean based on sulphur isotope data
Abstract The results of fine mode (<1 μm) aerosol sulphate, MSA and major ion composition and isotopic analyses are presented for aerosol samples collected over the Atlantic Ocean. The results are used to apportion the measured sulphate into sea-salt sulphate, anthropogenic sulphate and marine biogenic (dimethyl sulphide DMS) sulphate sources. The contribution of volcanic sulphur is argued to be very small within this data set. The results confirm other studies showing that DMS makes a major contribution to the sulphate burden over the remote ocean. DMS can be oxidised to form SO2 or methane sulphonic acid (MSA). Using our estimates of marine biogenic sulphate and measurements of MSA concentrations we confirm that the ratio of MSA/sulphate from DMS oxidation increases systematically from low to high latitudes, consistent with the laboratory measurements, inferences from field studies and modelling predictions of others.
Highlights ► Apportionment of aerosol sulphate into biogenic, anthropogenic and sea-salt sources. ► Biogenic sulphate is a very important sulphate source over the remote Atlantic. ► Ratio of MSA/Sulphate from DMS oxidation increases systematically with latitude.
An assessment of the significance of sulphate sources over the Atlantic Ocean based on sulphur isotope data
Abstract The results of fine mode (<1 μm) aerosol sulphate, MSA and major ion composition and isotopic analyses are presented for aerosol samples collected over the Atlantic Ocean. The results are used to apportion the measured sulphate into sea-salt sulphate, anthropogenic sulphate and marine biogenic (dimethyl sulphide DMS) sulphate sources. The contribution of volcanic sulphur is argued to be very small within this data set. The results confirm other studies showing that DMS makes a major contribution to the sulphate burden over the remote ocean. DMS can be oxidised to form SO2 or methane sulphonic acid (MSA). Using our estimates of marine biogenic sulphate and measurements of MSA concentrations we confirm that the ratio of MSA/sulphate from DMS oxidation increases systematically from low to high latitudes, consistent with the laboratory measurements, inferences from field studies and modelling predictions of others.
Highlights ► Apportionment of aerosol sulphate into biogenic, anthropogenic and sea-salt sources. ► Biogenic sulphate is a very important sulphate source over the remote Atlantic. ► Ratio of MSA/Sulphate from DMS oxidation increases systematically with latitude.
An assessment of the significance of sulphate sources over the Atlantic Ocean based on sulphur isotope data
Lin, C.T. (author) / Baker, A.R. (author) / Jickells, T.D. (author) / Kelly, S. (author) / Lesworth, T. (author)
Atmospheric Environment ; 62 ; 615-621
2012-08-25
7 pages
Article (Journal)
Electronic Resource
English
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