Source characterization of fine and coarse particles at the East Mediterranean coast

Source characterization of fine and coarse particles at the East Mediterranean coast

Fine and coarse atmospheric particles were collected in Ashdod—a midsize industrial city on the southeastern Mediterranean coast, and in Gedera—a rural site, to characterize ambient particles and to determine their long-range transport during two major seasons—winter and summer. Manual PM2.5 and PM1...

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Bibliographic Details
Published in:Atmospheric environment (1994) Vol. 42; no. 24; pp. 6114 - 6130
Main Authors: Mamane, Yaacov, Perrino, Cinzia, Yossef, Osnat, Catrambone, Maria
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-08-2008
Elsevier Science
Subjects:
Applied sciences
Atmospheric pollution
Coarse particles
Elemental concentrations
Exact sciences and technology
Fine particles
Long-range transport
Pollutants physicochemistry study: properties, effects, reactions, transport and distribution
Pollution
Saharan dust
Asia
Israel
MED, Israel, Ashdod
MED, Eastern Mediterranean
Elemental concentrations
Saharan dust
Coarse particles
Long-range transport
Fine particles
Statistical analysis
Air quality
Urban area
Coastal zone
Coarse particle
Denuder
Transport process
Source localization
Fine particle
Seasonal variation
Long range pollutant transport
Aerosols
Rural area
Air pollution
Chemical composition
Concentration distribution
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Summary:Fine and coarse atmospheric particles were collected in Ashdod—a midsize industrial city on the southeastern Mediterranean coast, and in Gedera—a rural site, to characterize ambient particles and to determine their long-range transport during two major seasons—winter and summer. Manual PM2.5 and PM10 samplers, dichotomous samplers, continuous automated PM10 samplers, and denuders were used to sample particulate and gaseous pollutants. Fine and coarse concentrations in Ashdod were 21.2 and 39.6 μg m −3, and 23.9 and 30.5 μg m −3 in the fall–winter and summer campaigns, respectively. Crustal material, as calcites or dolomites mixed with silicates, dominated the coarse fraction and also the fine fraction on dusty days. In the fall–winter, S, P, and Ni were coupled with minerals. Coarse Ni was associated with crustal material during dust storms, while P originated from shipping and deposition of phosphates in the urban area around. Sulfates dominated the fine fractions in the summer season averaging 12 μg m −3. Multivariate analysis indicated that S was associated with As and Se, V and Ni, both associated with heavy fuel combustion, and Zn and Pb. In winter, those mixed sources were local, but in summer they were part of long-range transport. In the fall–winter, Zn and Pb were strongly associated with Mn, Ga, and Cu—elements emitted from either traffic or metal processing plants. Although the influence of crustal material on both size fractions was significant, most heavy metals were associated with PM2.5. Higher concentrations were linked to a larger number of particles in this fraction, to a larger surface area available for biochemical reaction [Harrison, R., Shi, J., Xi, S., Khan, A., Mark, D., Kinnersley, R., Yin, J., Philos, T., 2000. Measurement of number, mass and size distribution of particles in the atmosphere. Philosophical Transactions of the Royal Society 358, 2567–2579], and finally to a larger concern in regards to health effects.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
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content type line 23
ISSN:1352-2310
1873-2844
DOI:10.1016/j.atmosenv.2008.02.045