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Ovadnevaite, J,Ceburnis, D,Leinert, S,Dall'Osto, M,Canagaratna, M,O'Doherty, S,Berresheim, H,O'Dowd, C
2014
October
Journal Of Geophysical Research-Atmospheres
Submicron NE Atlantic marine aerosol chemical composition and abundance: Seasonal trends and air mass categorization
Published
WOS: 22 ()
Optional Fields
seasonal trends marine aerosol primary organic matter aerosol mass spectrometry DISSOLVED ORGANIC-MATTER CENTRAL ARCTIC-OCEAN SEA-SALT SULFATE BOUNDARY-LAYER HIGH-RESOLUTION FATTY-ACIDS MACE HEAD SPECTROMETER PARTICLES ATMOSPHERE
119
11850
11863
Three years of continuous Aerosol Mass Spectrometry measurements at the Mace Head Global Atmosphere Watch research station revealed seasonal patterns in the chemical composition of submicron NE Atlantic marine aerosol as well as distinct chemical signatures associated with marine air masses of different origin (i.e., polar, Arctic, or tropical). Concentrations of secondary inorganic aerosol species and both primary and secondary organic compounds were closely related to oceanic biological activity and ranged from low median mass concentrations during winter to high median values during summer as follows: 0.025-0.9 mu gm(-3) for nonsea-salt sulfate (nss-sulfate), 0.025-0.4 mu gm(-3) for organic matter, 0-0.09 mu gm(-3) for methanesulfonic acid (MSA). Sea-salt concentrations illustrated an opposite pattern with the highest median value being observed during winter (0.74 mu gm(-3)) and lowest during summer (0.08 mu gm(-3)). Maritime polar air masses typically featured the highest concentrations of sea salt and marine organics, particularly enhanced under primary organic plumes during periods of high biological activity. MSA and nss-sulfate were more prominent in tropical air masses. The oxidation of organic matter increased with increasing ozone concentration and wintertime (low biological activity) organic matter displayed a different fragmentation pattern from that of summertime organic compounds.
10.1002/2013JD021330
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