Abstract
Road dust collected from India’s richest and oldest coal mining belt of Dhanbad and Bokaro regions was analysed for particle size characteristics and elemental composition. The particle size distribution pattern shows dominance of 500–250 μm and 250–125 μm size fractions, constituting 45–58% of the mass size spectrum. Si is the most dominant element and its concentration varied between 29.3 and 36.4% with the average value 34.3%. Fe, Ti and Mn are the dominant heavy metals followed by Zn, Cr, Pb, Cu, Ni and Co. No significant differences concentration of metals between sampling sites was apparent; however, some sites tend to accommodate relatively higher metals due to its proximity to industrial and mining sites. In general, finer fraction (<63 μm) tend to contain 1–3 times higher metals as compared with the bulk composition. Except Pb and Mn all the measured metals are generally lie below grade zero, suggesting that there is no pollution threat with respect to these metals in roadway dust from the studied sites. Geochemical speciation study shows that the lithogenic phase is the major sink for heavy metals. Fe–Mn oxide and organic are the major non-lithogenic phases and Pb and Zn are the major elements of the non-lithogenic phase.
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Acknowledgments
The author is grateful to Dr. A. Sinha, Director, Central Institute of Mining and Fuel Research, Dhanbad, for his kind support and encouragement to carry out the study and permission to publish this paper. Support extended by Dr. B. K. Tewary, Dr. T. B. Singh, Dr. S. Singh, Mr. G. C. Mondal and other laboratory colleagues is gratefully acknowledged. The author expresses his sincere thanks to Prof. V. Rajamani and Dr. Jayant Kr. Tripathi, School of Environmental Sciences, JNU, New Delhi, for their help in geochemical analysis by ICP-AES.
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Singh, A.K. Elemental chemistry and geochemical partitioning of heavy metals in road dust from Dhanbad and Bokaro regions, India. Environ Earth Sci 62, 1447–1459 (2011). https://doi.org/10.1007/s12665-010-0630-3
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DOI: https://doi.org/10.1007/s12665-010-0630-3