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Comparison of Enrichment Factors for Heavy Metals in Urban Street Dust and Air Aerosols

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article deals with the possibility of comparison of enrichment factors in air aerosols (PM10) and in the street dust, which is influenced by air pollution. For Pb and Sb, the same value of enrichment factor for both matrices was determined. The highest enrichment index (> 100) in air aerosols was found for Cd, Sb, and As, and also for Pb, and Zn (approximately 100). Enrichment factor shows significant differences in the summer and winter period, for Cd, Sb, As, Pb, and Zn it is > 2x higher in winter. Enrichment factor in street dust was also evaluated using geochemical background of soils from Olomouc. It was found that the highest value of enrichment factor is achieved by Cu, which comes from transport (probably bus operation).
Rocznik
Strony
209--216
Opis fizyczny
Bibliogr. 22 poz., rys., tab., wykr.
Twórcy
autor
  • VSB – Technical University Ostrava, Institute of Geological Engineering and ENET Centre, 17. listopadu 15, 708 33 Ostrava-Poruba, Czech Republic
autor
  • VSB – Technical University Ostrava, Department of Power Engineering and ENET Centre, 17. listopadu 15, 708 33 Ostrava-Poruba, Czech Republic
autor
  • VSB – Technical University Ostrava, Institute of Geological Engineering and ENET Centre, 17. listopadu 15, 708 33 Ostrava-Poruba, Czech Republic
autor
  • VSB – Technical University Ostrava, Institute of Geological Engineering and ENET Centre, 17. listopadu 15, 708 33 Ostrava-Poruba, Czech Republic
autor
  • VSB – Technical University Ostrava, Institute of Environmental Engineering and ENET Centre, 17. listopadu 15, 708 33 Ostrava-Poruba, Czech Republic
autor
  • VSB – Technical University Ostrava, ENET Centre, 17. listopadu 15, 708 33 Ostrava-Poruba, Czech Republic
Bibliografia
  • 1. Adachia, K. and Tainoshob, Y. (2004): Characterization of heavy metal particles embedded in tire dust. Environment International. vol. 30, p. 1009-1017.
  • 2. Adamiec, E., Jarosz-Krzemińska, E. and Wieszała, R. (2016): Heavy metals from non-exhaust vehicle emissions in urban and motorway road dusts. Environmental Monitoring and Assessment. vol. 188, p. 369.
  • 3. Al-Khashman, O. and Shawabkeh, R. (2006): Metal distribution in soils around the cement factory in southern Jordan. Environmental Pollution. vol. 140, p. 387-394.
  • 4. Apeagyei, E., Bank, M.S. and Spengler, J.D. (2011). Distribution of heavy metals in road dust along an urban-rural gradient in Massachusetts. Atmospheric Environment. vol. 45, iss. 13, p. 2310- 2323.
  • 5. Borbély-Kiss, I., Koltay, E., Szabó, G.Y., Bozo, L. and Tar, K. (1998): Composition and sources of urban and rural atmospheric aerosol in eastern Hungary. Journal of Aerosol Science. vol. 30, iss. 3, p. 369-391.
  • 6. Bucko, M.S., Magiera, T., Pesonen, L.J., and Janus, B. (2010): Magnetic, geochemical, and microstructural characteristics of road dust on roadsides with different traffic volumes – case study from Finland. Water Air Soil Pollution. vol. 209, p. 295-306.
  • 7. De Vos, E. et al., (2006). Geochemical Atlas of Europe Part 2: Interpretation of Geochemical Maps, Additional Tables, Figures, Maps, and Related Publications Online. Geological Survey of Finland. ISBN 951-690-960-4.
  • 8. Enamorado-Báez, S.M., Gómez-Guzmán, J.M., Chamizo, E., and Abril, J.M. (2015). Levels of 25 trace elements in high-volume air filter samples from Seville (2001–2002): Sources, enrichment factors and temporal variations. Atmospheric Research. vol.155, p.118-129.
  • 9. Gelado-Caballero, M.D., et al., (2012). Long-term aerosol measurements in Gran Canaria, Canary Islands: particle concentration, sources and elemental composition. Journal ofGeophysical Research: Atmospheres. vol. 117, p. D03304.
  • 10. Gunawardana, C., Goonetilleke, A., Egodawatta, P., Dawes, L., and Kokot, S. (2012): Source characterization of road dust based on chemical and mineralogical composition. Chemosphere. vol. 87, p. 163-170.
  • 11. Hjortenkrans, D. S. T., Bergbäck, B. G. A and Häggerud, A. V. (2007): Metal emissions from brake linings and tires: case studies of Stockholm, Sweden 1995/1998 and 2005. Environmental Science & Technology. vol. 41, p. 5224-5230.
  • 12. Jackson, M. D., Landis E. N., Brune P. F., et al. (2014): Mechanical resilience and cementitious processes in Imperial Roman architectural mortar. Proceedings of the National Academy of Sciences. vol. 111, iss. 52, p. 18484-18489.
  • 13. Khoder, M., Al Ghamdi, M. a Shiboob, M. (2012). Heavy Metal Distribution in Street Dust of Urban and Industrial Areas in Jeddah, Saudi Arabia. Journal of King Abdulaziz University-Meteorology. Environment and Arid Land Agriculture Sciences. vol. 23, iss. 2, p. 55-75.
  • 14. Moreno, T., et al., (2015). Urban air quality comparison for bus, tram, subway and pedestrian commutes in Barcelona. Environmental Research. vol. 142, p. 495-510.
  • 15. Pal, S. K., Wallis, S. G. and Arthur, S. (2011). Assessment of heavy metals emission from traffic on road surfaces. Central European Journal of Chemistry. vol. 9, iss. 2, p. 314-319.
  • 16. Shelley, R.U., Morton, P.L., and Landing, W.M. (2015). Elemental ratios and enrichment factors in aerosols from the US-GEOTRACES North Atlantic transects. Deep-Sea Research II, vol. 116, p. 262-272.
  • 17. Sierra, C., Ordóńez, C., Saavedra, A., Gallego, J.R. (2015). Element enrichment factor calculation using grain-size distribution and functional data regression. Chemosphere. vol. 119, p. 1192-1199.
  • 18. Sýkorová, B., Raclavská, H., Matýsek, D., Kucbel, M., Raclavský, K. and Růžičková, J. (2017). Identification of pollution sources in the urban atmosphere. Inzynieria Mineralna. vol. 1, p. 147-152.
  • 19. Taylor, S. R. (1964). Abundance of chemical elements in the continental crust: a new table. Geochimica et Cosmochimica Acta. vol. 28, p. 1273 -1285.
  • 20. Wang, G., Oldfield, F., Xia, D., Chen, F., Liu, X., and Zhang, W. (2012). Magnetic properties and correlation with heavy metals in urban street dust: a case study from the city of Lanzhou, China. Atmospheric Environment. vol. 46, p. 289-298.
  • 21. Wu, Y.S., Fang, G.C., Lee, W.J., Lee, J.F., Chang, C.C., and Lee, C.Z. (2007). A review of atmospheric fine particulate matter and its associated trace metal pollutants in Asian countries during the period 1995–2005. Journal of Hazardous Materials. vol. 143, p. 511-515.
  • 22. Yıldırım, G., and Tokalıoğlu, S. (2016). Heavy metal speciation in various grainsizes of industrially contaminated street dust using multivariate statistical analysis. Ecotoxicology and Environmental Safety. vol. 124, p. 369-376.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8175d605-66e3-48f7-ab1c-ec2faf00dc7d
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