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Sources of PM2.5 at an urban-industrial Mediterranean city, Marseille (France): Application of the ME-2 solver to inorganic and organic markers.

Authors :
Salameh, D.
Pey, J.
Bozzetti, C.
El Haddad, I.
Detournay, A.
Sylvestre, A.
Canonaco, F.
Armengaud, A.
Piga, D.
Robin, D.
Prevot, A.S.H.
Jaffrezo, J.-L.
Wortham, H.
Marchand, N.
Source :
Atmospheric Research. Dec2018, Vol. 214, p263-274. 12p.
Publication Year :
2018

Abstract

Abstract Impacted by a complex mixture of urban, industrial, shipping and also natural emissions, Marseille, the second most populated city in France, represents a very interesting case study for the apportionment of PM 2.5 sources in a Mediterranean urban environment. In this study, daily PM 2.5 samples were collected over a one-year period (2011−2012) at an urban background site, and were comprehensively analyzed for the determination of organic carbon (OC), elemental carbon (EC), major ions, trace elements/metals and specific organic markers. A constrained positive matrix factorization (PMF) analysis using the ME-2 (multilinear engine-2) solver was applied to this dataset. PMF results highlighted the presence of two distinct fingerprints for biomass burning (BB1 and BB2). BB1, assigned to open green waste burning peaks in fall (33%; 7.4 μg m−3) during land clearing periods, is characterized by a higher levoglucosan/OC ratio, while BB2, assigned to residential heating, shows the highest contribution during the cold period in winter (14%; 3.3 μg m−3) and it is characterized by high proportions from lignin pyrolysis products from the combustion of hardwood. Another interesting feature lies in the separation of two fossil fuel combustion processes (FF1 and FF2): FF1 likely dominated by traffic emissions, while FF2 likely linked with the harbor/industrial activities. On annual average, the major contributors to PM 2.5 mass correspond to the ammonium sulfate-rich aerosol (AS-rich, 30%) and to the biomass burning emissions (BB1 + BB2, 23%). This study also outlined that during high PM pollution episodes (PM 2.5 > 25 μg m−3), the largest contributing sources to PM 2.5 were biomass burning (33%) and FF1 (23%). Moreover, 28% of the ambient mass concentration of OC is apportioned by the AS-rich factor, which is representative of an aged secondary aerosol, reflecting thus the importance of the oxidative processes occurring in a Mediterranean environment. Graphical abstract Unlabelled Image Highlights • A constrained PMF analysis (ME2) successfully applied with a large array of organic and inorganic markers. • Two distinct fingerprints for biomass burning resolved. • Two signatures for the fossil fuel combustion processes separated. • Secondary processes and biomass burning emissions are the major contributors to PM 2.5. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
01698095
Volume :
214
Database :
Academic Search Index
Journal :
Atmospheric Research
Publication Type :
Academic Journal
Accession number :
131663590
Full Text :
https://doi.org/10.1016/j.atmosres.2018.08.005