Abstract
Street dust samples (120 in total) were collected under stable weather conditions during the hot, dry season (August and September) of 2004 from six different localities (industrial, heavy traffic, medium traffic, light traffic, low traffic and rural) in greater Amman, the capital of Jordan. The concentrations of Fe, Cu, Cd, Pb, Zn and Ni in the dusts were determined by atomic absorption spectrophotometry. The high concentrations of Pb, Fe and Zn in the street dust samples were related to both anthropogenic (industrial sources combined with traffic sources) and natural sources. Surprisingly, the concentrations of Cd in the dusts were low. Correlation coefficient analysis and principle component analysis identified three main sources of these elements and the corresponding distributions. The elements Pb, Zn, Cd, Fe, Cu and Ni were mainly derived from industrial sources, with Pb and Zn additionally derived from traffic sources. The street dusts were found to have highly elevated levels of Zn, particularly along the main trunk roads, indicating that the Zn in the street dusts may be derived from traffic sources, especially vehicle tyres. The concentrations of metals in the different street dust samples were found to vary depending on the density of traffic.
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Abdul-Wahab, S. A., & Yaghi, B. (2004). Total suspended dust and heavy metal levels emitted from a workplace compared with nearby residential houses. Atmospheric Environment, 38, 745–750.
Adachi, K., & Tainosho, Y. (2004). Characterization of heavy metal particles embedded in tire dust. Environment International, 30, 1009–1017.
Adriano, D. C. (2001). Trace elements in terrestrial environments: Biogeochemistry, bioavailability, and risks of metals (2nd ed.). Springer, New York, p. 867.
Ahmed, F., & Ishiga, H. (2006). Trace metal concentrations in street dusts of Dhaka city, Bangladesh. Atmospheric Environment, 40, 3835–3844.
Akhter, M. S., & Madany, I.M. (1993). Heavy metals in street dust and house dust in Bahrain. Water, Air, and Soil pollution, 66, 111–119.
Al-Chalabi, A. S., & Hawker, D. (1997). Response of vehicular lead to the presence of street dust in the atmospheric environment of major roads. The Science of the Total Environment, 206, 195–202.
Al-Khashman, O.A. (2004). Heavy metal distribution in dust, street dust and soil from the work place in Karak Industrial Estate, Jordan. Atmospheric Environment, 38, 6803–6812.
Al-Khashman, O., & Shawabkeh, R. (2006). Metal distribution in soils around the cement factory in southern Jordan. Environmental Pollution, 140, 387–394.
Arslan, H. (2001). Heavy metals in street dust in Bursa, Turkey. Journal of Trace and Microprobe Techniques, 19(3), 439–445.
Banat, K.M., Howari, F.M., & Al-Hamad, A.A. (2005). Heavy metals in urban soils of central Jordan: Should we worry about their environmental risks. Environmental Research, 97, 258–273.
Banerjee, A.D.K. (2003). Heavy metal levels and solid phase speciation in street dusts of Delhi, India. Environmental Pollution, 123, 95–105.
Baptista, L.F., & De Miguel, E. (2005). Geochemistry and risk assessment of street dust in Luanda, Angola. A tropical urban environment. Atmospheric Environment, 39(25), 4501–4512.
Bender, F. (1974). Geology of Jordan. Berlin, Germany: Gerbruder Borntraeger.
Charlesworth, S., Everett, M., McCarthy, R., Ordonez, A., & de Miguel, E. (2003). A comparative study of heavy metal concentration and distribution in deposited street dusts in a large and a small urban area: Birmingham and Coventry, West Midlands, UK. Environment International, 29, 563–573.
Day, J. P., Hart, M., & Robinson, M. S. (1975). Lead in urban street dust. Nature, 253, 343–345.
Department of Meteorology (2004). Internal report “data and files of the department of meteorology”. Amman, Jordan.
Department of Statistics (2001). Annual report. Amman, Jordan.
Divrikli, U., Soylak, M., Elci, L., & Dogan, M. (2003). The investigation of trace metal concentrations in the street dust samples collected from Kayseri, Turkey. Journal of Trace and Microprobe Techniques, 21, 713–720.
Elik, A. (2003). Heavy metal accumulation in street dust samples in Sivas. Communications in Soil Science and Plant Analysis, 34, 145–156.
Fergusson, J. E., & Kim, N. D. (1991). Trace elements in street and house dusts: sources and speciation. The Science and the Total Environment, 100, 125–150.
Garg, B. D., Cadle, S. H., Mulaua, P. A., Groblicki, P. J., Laroo, C, & Parr, G. A. (2000). Brake wear particulate matter emissions. Environmental Science Technology, 34, 4463–4469.
Gibson, M. G., & Farmer, J. G. (1986). Multi-step chemical extraction of heavy metals from urban soils. Environmental Pollution, B11, 117–135.
Harrison, R. M., Laxen, D. P. H., & Wilson, S. J. (1981). Chemical association of lead, cadmium, copper and zinc in street dust and roadside soil. Environmental Science Technology, 15, 1378–1383.
Hildemann, L. M., Markowski, G. R., & Cass, G. R. (1991). Chemical composition of emissions from urban sources of fine organic aerosol. Environmental Science Technology, 25, 744–759.
Hopke, P. K., Lamb, R. E., & Natusch. D. F. S. (1980). Multi elemental characterization of urban roadway dust. Environmental Science Technology, 14, 164–172.
Jackson, M. L. (1973). Soil chemical analysis. New Delhi: Prentice Hall of India Private Ltd.
Jaradat, Q., & Momani, K. (1999). Contamination of roadside soil, plants and air with heavy metals in Jordan, A comparative study. Turkish Journal of Chemistry, 23, 209–220.
Li, X. D., Poon, C. S., & Pui, S. L. (2001). Heavy metal contamination of urban soils and street dusts in Hong Kong. Applied Geochemistry, 16, 1361–1368.
Moller, A., Muller, H. W., Abdullah, A., Abdelgawad, G., & Utermann, J. (2005). Urban soil pollution in Damascus, Syria: Concentrations and patterns of heavy metals in the soils of the Damascus Ghouta. Geoderma, 124, 63–71.
Momani, K. A. (2006). Partitioning of lead in urban street dust based on the particle size distribution and chemical environments. Soil & Sediment Contamination, 15, 131–146.
Okalebo, J. R., Gathua, W., & Woomer, P.L. (1993). Laboratory methods of soil and plant analysis. A working manual. TSBF program, Nairobi, Kenya.
Sezgin, N., Kurtulus, H., Demir, G., Nemlioglu, S., & Bayat, C. (2003). Determination of heavy metal concentrations in street dust in Istanbul E-5 highway. Environment International, 29, 979–985.
Thomson, N. R., Mcbean, E. A., Snodgrass, W., & Monstrenko, I. B. (1997). Highway storm water runoff quality: Development of surrogate parameter relationships. Water, Air and Soil pollution, 94, 307–347.
Thornton, I. (1991). Metal contamination of soils in urban area. In: P. Bullock, & P.J. Gregory (Eds.), Soil in the urban environment (pp. 47–75). Blackwell.
Wong, J. W. C., & Mak, N. K. (1997). Heavy metal pollution in children playgrounds in Hong Kong and its health implications. Environmental Technology, 18, 109–115.
Yongming, H., Peixuan, D., Junji, C., & Posmentier, E. (2006). Multivariate analysis of heavy metal contamination in urban dusts in Xian, central China. The Science of the Total Environment, 355, 176–186.
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Al-Khashman, O.A. Determination of metal accumulation in deposited street dusts in Amman, Jordan. Environ Geochem Health 29, 1–10 (2007). https://doi.org/10.1007/s10653-006-9067-8
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DOI: https://doi.org/10.1007/s10653-006-9067-8