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Journal of the Air & Waste Management Association Volume 70, 2020 - Issue 12
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Technical Paper

Evaluation of atmospheric dust deposition rates and their mineral characterization in copper and iron mining areas, Singhbhum, India

Mukesh Kumar MahatoNatural Resources and Environment Management Research Group, CSIR- Central Institute of Mining and Fuel Research, Dhanbad, IndiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-1320-2341View further author information
ORCID Icon &
Abhay Kumar SinghNatural Resources and Environment Management Research Group, CSIR- Central Institute of Mining and Fuel Research, Dhanbad, IndiaORCID Iconhttps://orcid.org/0000-0002-7065-7708View further author information
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Pages 1378-1389 | Received 15 Jun 2020, Accepted 22 Aug 2020, Published online: 30 Sep 2020

References

  • Alahmr, F. O. M., M. Othman, N. B. A. Wahid, A. A. Halim, and M. T. Latif. 2012. Compositions of dust fall around semi-urban areas in Malaysia. Aerosol Air Qual. Res. 12:629–42.
  • Andreae, M. O., and P. J. Crutzen. 1997. Atmospheric aerosols: Biogeochemical sources and role in atmospheric chemistry. Science 276:1052–58.
  • Arslan, M., and M. Boybay. 1990. A study on the characterization of dustfall. Atmos. Environ. 24A (10):2667–71.
  • ASTM. 2004. Standard method for collection and analysis of Dustfall (Settleable Particulates). ASTM D1739–82, Annual Book of ASTM Standards, 11.03. Philadelphia, PA: American Society for Testing Materials.
  • BIS. 2006. Indian standard methods for measurement of air pollution, Part 1 Dustfall (First revision), Bureau of Indian Standards, New Delhi, 1–8.
  • Cattle, S. R., G. H. McTainsh, and S. Wagner. 2002. Æolian dust contributions to soil of the Namoi Valley, northern NSW, Australia. Catena 47 (3):245–64.
  • Chaulya, S. K., R. Trivedi, A. Kumar, R. K. Tiwary, R. S. Singh, P. K. Pandey, and R. Kumar. 2019. Air quality modelling for prediction of dust concentrations in iron ore mines of Saranda region, Jharkhand, India. Atmos Pollut Res 10:675–88.
  • Chen, T. H., and H. F. Xu. 2003. TEM investigation of atmospheric particle settlings and its significance in environmental mineralogy. Acta Petrol Min. 22:425–28. In Chinese.
  • CSIR-Central Institute of Mining and Fuel Research (CSIR-CIMFR). 2017. Carrying capacity study of Saranda Region in West Singhbhum, Jharkhand – Assessment of impact assessment of mining and to determine annual production limit of iron ore. Sponsored Project Report of CSIR-CIMFR. Dhanbad, India.
  • Dai, S., D. Ren, Y. Zhou, C.L. Chou, X. Wang, L. Zhao, X. Zhu. 2008. Mineralogy and geochemistry of a superhigh-organic-sulfur coal, Yanshan Coalfield, Yunnan, China: evidence for a volcanic ash component and influence by submarine exhalation. Chem. Geol. 255:182–194. doi:10.1016/J.CHEMGEO.2008.06.030
  • De Angelis, M., and A. Gaudichet. 1991. Saharan dust deposition over Mont Blanc (French Alps) during the last 30 years. Tellus B 43 (1):61–75.
  • Dhar, B. B. 1994. Changing environment scenario in mining industry. J. Mines Met. Fuel 42 (11–12): 309–14.
  • Dubey, V. K., D. Singh, and N. Singh. 2013. Chemical studies of traffic generated dust and its impact on human health with associated problems in Singrauli District of Madhya Pradesh, India. Curr. World Environ. 8 (3):455–61.
  • Ghose, M. K., and S. R. Majee. 2000. Sources of air pollution due to coal mining and their impacts in Jharia coalfield. Environ. Int. 26:81–85.
  • Gomez, E. T., T. Sanfeliu, M. Jordan, J. Rius, and C. De la Funente. 2004. Geochemical characteristics of particulate matter in the atmosphere surrounding a ceramic industrialized area. Environ. Geol. 45:536–43.
  • Harrison, R., and R. Perry. 1986. Handbook of air pollution analysis. London: Chapman and Hall.
  • Jickells, T. D., Z. S. An, and K. K. Andersen. 2005. Global iron connections between desert dust, ocean biogeochemistry, and climate. Science 308 (5718):67–71.
  • Khemani, L. T., G. A. Momin, P. Prakasa Rao, S. Safai, P. D. Singh, and R. K. Kapoor. 1989. Spread of acid rain over India. Atmos. Environ. 23 (4):757–62.
  • Kikuo, O. 1977. Trace analysis of atmospheric samples. Tokyo: Halsted Press Book Kdanahsa Ltd.
  • Kulshrestha, M. J., U. C. Kulshrestha, D. C. Parashar, and M. Vairamani. 2003. Estimation of SO4 contribution by dry deposition of SO2 onto the dust particles in India. Atmos. Environ. 37 (22):3057–63.
  • Kulshrestha, U. C. 2013. Acid rain, in encyclopedia of environmental management. Taylor & Francis, Manila Typesetting Company, CRC Press, 4:5–19.
  • Kulshrestha, U. C., L. A. K. Reddy, J. Satyanarayana, and M. J. Kulshrestha. 2009. Real-time wet scavenging of major chemical constituents of aerosols and role of rain intensity in Indian region. Atmos. Environ. 43 (32): 5123–5127.
  • Kulshrestha, U. C., N. Kumar, and A. Saxena. 1995. Chemical composition of atmospheric aerosol at three representative sites at Agra. Energy Environ. Monitor 11:177–81.
  • Kumar, B., K. Verma, and U. Kulshrestha. 2014. Deposition and mineralogical characteristics of atmospheric dust in relation to land use and land cover change in Delhi (India). Geogr.J. 1–11. doi:10.1155/2014/325612.
  • Kumari, S., T. Gouricharan, J. K. Pandey, G. Udayabhanu, and S. N. Sharma. 2016. Evaluation of Quartz reduction by coal cleaning for thermal utilization of an Indian coal. Int.J. Coal Prep. Utili. doi:10.1080/19392699.2016.1189418.
  • Lawrence, C. R., and J. C. Neff. 2009. The contemporary physical and chemical flux of aeolian dust: A synthesis of direct measurements of dust deposition. Chem. Geol. 267 (1–2):46–63.
  • Lodge, J. P., Jr. 1988. Methods of air sampling and analysis, 440–43. 3rd ed. Boca Raton, FL: CRC Press.
  • Marx, S. K. A., and H. A. McGowan. 2005. Dust transportation and deposition in a superhumid environment, West Coast, South Island, New Zealand. Catena 59 (2):147–71.
  • McTainsh, G. H., and P. H. Walker. 1982. Nature and distribution of Harmattan dust. Zeitschrift fur Geomorphologie 26 (4):417–35.
  • Moja, S. J., and J. S. Mnisi. 2013. Seasonal variations in airborne heavy metals in Vanderbijl park, South Africa. J Environ. Chem. Ecotoxicol. 5:227–233.
  • Mondal, G. C., A. K. Singh, T. B. Singh, B. K. Tewary, and A. Sinha 2010. Wet and dry deposition of atmospheric pollutants around coal mining area of Dhanbad and Bokaro districts. In: Proceedings of the XI International Seminar on Mineral Processing Technology (MPT-2010) held at National Metallurgical Laboratory, Jamshedpur, India 1137–46.
  • Narayan, D., M. Agrawal, J. Pandy, and J. Singh. 1994. Changes in vegetation characteristics downwind of an aluminium factory in India. Ann. Bot. 73 (5):557–65.
  • Owens, P. N., and O. Slaymaker. 1997. Contemporary and post-glacial rates of aeolian deposition in the Coast Mountains of British Columbia,Canada. Geografiska Annaler A 79 (4):267–76.
  • Pandey, S. K., B. D. Tripathi, and V. K. Mishra. 2008. Dust deposition in a sub-tropical opencast coalmine area, India. J. Environ. Manag. 86:132–38.
  • Prospero, J. M., R. T. Nees, and M. Uematsu. 1987. Deposition rate of particulate and dissolved aluminum derived from Saharan dust in precipitation at Miami, Florida. J. Geophys. Res. Atmos. 92 (D12):14723–31.
  • Pye, K. 1987. Aeolian dust and dust deposits. San Diego, Calif, USA: Academic Press.
  • Queralt, I., T. Sanfeliu, E. Gomez, and C. Alvarez. 2001. X-ray diffraction analysis of atmospheric dust using low-background supports. J Aerosol Sci 32:453–59.
  • Rani, N., B. S. Sastry, and K. Dey. 2019. Assessment of metal contamination and the associated human health risk from dustfall deposition: A study in a mid-sized town in India. Environ. Sci. Pollut. Res. doi:10.1007/s11356-019-05539-7.
  • Rout, T. K., R. E. Masto, P. K. Padhy, J. George, L. C. Ram, and S. Maity. 2014. Dustfall and elemental flux in a coal mining area. J. Geochem. Explor. 1–13. http://dx.doi.org/10.1016/j.gexplo.2014.04.003.
  • Sharma, A., S. Singh, and U. C. Kulshrestha. 2017. Determination of urban dust signatures through chemical and mineralogical characterization of atmospheric dustfall in east Delhi (India). J. Ind. Geophys. Union 21 (2):140–47.
  • Sultana, M., K. Sakunthala, and S. S. Jayaraj. 2008. Study of dust pollution caused by traffic in Thiruvanmiyur Area of Chennai City. Nat. Environ. Pollut. Technol. 7 (4):643–46.
  • Ta, W., T. Wang, H. Xiao, X. Zhu, and Z. Xiao. 2004. Gaseous and particulate air pollution in the Lanzhou Valley, China. Sci. Total Environ. 320 (2–3):29, 163–176.
  • Yadav, S. A., and V. Rajamani. 2006. Air quality and trace metal chemistry of different size fractions of aerosols in N-NW India. Implications for source diversity. Atmos. Environ. 40 (4):698–712.
  • Zhang, R. J., Z. W. Han, T. T. Cheng, and J. Tao. 2009. Chemical properties and origin of dust aerosols in Beijing during springtime. China Particuol. 7:61–67.
  • Zhao, J., P. Peng, J. Song, S. Ma, G. Sheng, and J. Fu. 2010. Research on flux of dry atmospheric falling dust and its characterization in a subtropical city, Guangzhou, South China. Air Qual. Atmos. Health 3:139–47.

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