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|Composition of individual aerosol particles above the Israelian Mediterranean coast during the summer time|
Ganor, E.; Levin, Z.; Van Grieken, R. (1998). Composition of individual aerosol particles above the Israelian Mediterranean coast during the summer time. Atmos. Environ. (1994) 32(9): 1631-1642
In: Atmospheric Environment (1994). Pergamon: Oxford. ISSN 1352-2310, more
|Also published as |
- Ganor, E.; Levin, Z.; Van Grieken, R. (1998). Composition of individual aerosol particles above the Israelian Mediterranean coast during the summer time, in: (1998). IZWO Coll. Rep. 28(1998). IZWO Collected Reprints, 28: pp. chapter 6 [Subsequent publication], more
|Authors|| || Top |
- Ganor, E.
- Levin, Z.
- Van Grieken, R., more
Aerosol particles were collected aboard a ship in Haifa and Tel Aviv, Israel, during the summer time. The aerosol particles (6170) were analyzed as individual particles and classified according to their chemical composition, size, number concentration per cubic centimeter and morphology. Most of the aerosol particles could be classified into four groups. The first contains gypsum from the sea and from industrial sources brought in by land breezes. A second group is characterized by continental aluminosilicate and quartz. A third group consists of sea salt mixed with sulphate particles. The fourth group is characterized by an abundance of sulphate particles, some of which are ammonium sulphate brought by the land breezes. The particles were identified as marine and mineral aerosols which originated in Eastern Europe and the Mediterranean sea, while local aerosols brought by land breeze characterized by phosphate, fly ash and soil particles originated in the Haifa industrial zone. In addition, the aerosols were analyzed for sulphates and nitrates.
Aerosols of sea and land breezes differed as follows: Sulphate and nitrate concentrations in the aerosols were 5-10 times higher during land breeze than during sea breeze, and the total content of suspended particles was, respectively, 6-12 times higher. Particle size spectra during land breeze were broader than during sea breeze and their concentrations were about 20 times greater. Analyses of individual particles by electron microscopy revealed that during the sea breeze the aerosols contained calcium sulphate, sodium sulphate and sulphuric acid. The sulphuric acid, of pH 2.5, is due to the long-range transport as previously reported (Ganor et al. 1993) while the other sulphates are from the sea. This explains the high concentration of sulphates in the atmospheric sea breeze above the Israelian Mediterranean coast during the summertime.