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Source apportionment revisited for long-term measurements of fine aerosol trace elements at two locations in southern Norway
Maenhaut, W. (2018). Source apportionment revisited for long-term measurements of fine aerosol trace elements at two locations in southern Norway. Nuclear Instruments & Methods in Physics Research Section B-Beam Interactions With Materials and Atoms 417: 133-138. https://dx.doi.org/10.1016/j.nimb.2017.07.006
In: Nuclear Instruments & Methods in Physics Research Section B-Beam Interactions With Materials and Atoms. ELSEVIER SCIENCE BV: Amsterdam. ISSN 0168-583X; e-ISSN 1872-9584, more
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Author keywords
    PM2 aerosol; PIXE; INAA; PMF; Aerosol sources

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  • Maenhaut, W., more

Abstract
    Five-year-long (1991-1996) aerosol trace element data sets for the fine (PM2) size fraction from the sites of Birkenes and Skreadalen in southern Norway were reanalysed by US EPA positive matrix factorization PMF5 in order to assess the sources and their contribution to the PM2 aerosol. The data sets contained the concentrations of the particulate mass (PM), black carbon (BC) and 21 elements in over 700 samples for each of the two sites. The PM was obtained from weighing with a microbalance and BC was determined with a light reflectance technique. The data for the elements were obtained by a combination of particle induced X-ray emission and instrumental neutron activation analysis. Eight source factors were retained for each site, i.e., (i) secondary sulfate, which accounted for around 40% of the average measured PM2 mass, (ii) wood burning, with BC, K, Zn and As, which accounted for about 17%, (iii) an iodine factor (with also Br and Se), which is probably related to a marine biogenic source and was responsible for about 6.5%, (iv) aged sea salt with Na, Mg, Cl and Ca, but heavily depleted in Cl; (v) a crustal factor containing Al, Si, Ca, Ti and Fe; (vi) a heavy oil burning factor with V and Ni in a ratio of 3-4; (vii) a general pollution factor (with Cu, Zn, As, Se, Sb and Pb), and (viii) an almost pure manganese factor, which is attributed to Mn and FeMn industries in southern Norway. The results were substantially different from those of an earlier PMF analysis, in which use was made of PMF2.

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