Distribution of Copper Concentration in Soil affected by Meyduk Mining Activities (Shahr-Babak)
Subject Areas : environmental managementSadegh Ghaznfari 1 , Javad Oraee 2
1 - Assistant Professor of Energy Research Institute, Advanced Science and Technology Institute of Environmental Science, Kerman Industrial and Advanced Studies University, Iran. * (Corresponding Author)
2 - Graduated MSc. Soil Science, Islamic Azad University, Science and Research Branch, Tehran, Iran
Keywords: Soil pollution, Copper mine, Zoning, Geoaccumulation index,
Abstract :
Background and Objective: Increasing industrial activities associated with the production of pollutants, including heavy metals, is one of the main causes of water and soil pollution. Mineral activities are one of the human activities that cause pollution of the natural resources such as soil. Method: In this study, the zoning concentration of copper as soil contamination around Meyduk copper mine was investigated. The direction samples were taken according to the situation of surrounding villages. Systematic sampling of 360 samples had been collected through the directions. Measuring the concentration of sample was done using atomic absorption method in the laboratory. To indicate the degree of soil pollution with heavy metals, Muller’s geoaccumulation index was used. Finally, in order to estimate the normal concentration of Cu and pollution of soil, Kriging method was used. Results: Results showed that the maximum amount of Cu concentration is 697.5 mg/kg and the minimum is 6.35 mg/kg. The Cu concentration trend in direction D was more than direction M due to the direction of local dominant wind. Discussion and Conclusion: By receding from location of mine, the overall trend of Cu concentration decreased. This indicated the role of mine activities on soil pollution.
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- Torabian, A., Mahjori, M. 2002. Heavy metals uptake by vegetable crops irrigated with wastewater in south Tehran. Journal of water and soil science. 16 (2) : 189 – 196 (In Persian).
- Hansen, E., Lassen, C., Stuer, E., Laur, D., Kjolholt, F. 2002. Heavy metals in waste, European Commission DG FNV. E3, project ENV. E.3 , ETU/ 200/005 & , Final
- Matagi SVS, wai D, Mugabe R. 1998. A review of heavy metal removal mechanisms in wet lands, African Journal tropical Hydrobilogy Fish. 823-35.
- Vamerali T., Marrianna B, Mosca G. 2010. Field crops for phytoreme diution of metal – contaminated of metal contaminated land: A review Environmental chemistry letters. 8: 1-17
- Wong MH. 2003. Bcologycal restoration of mine degraded soil, with emphasis on metal contaminated soil, Chemos phere. 50 : 775-780.
- Nriagu jo, Pacyna JM. 1988. Quantitative assessment of worldwide contamination of air water and soils by trace metals. Nature 333 (6169) 134-139 .
- Nathanarl CP, Earl N. 2001. Human health risk assessment: guidelines values and magic numbers, in: Assessment and veclamition of contaminated land, Hester R.E, and , Harrison R.M, (Bds), Royal society of chemistry, Cambridge. pp. 85-102
- Welch RM. 1995. Micronutrient Nutrition of plants, Critical Review inplant siences. 14: 49-82.
- Nedel kosku TV., Doran PM. 2000. Hypera ccumulation of cadmium by hairy roots of Ihlaspi cuerulescent, Biotechrology and Bioenginzering. 67 (5) 607-615
- Pal R., Rai JPN. 2010. Phytochelatins: peptides involed inheavy metal detox:fication, Applized Biochemistry Biotechnolgoy. 160-945-963.
- Bakker M. 2004. Transient analytic elements for periodic Dupuit-Forchheimer flow, Adv Water Resour. pp. 312.
- Nwachukwu, M. A, Feng H, Alinnor J. 2010. Assessment of heavy metal pollution in soil and their implications within and around mechanic villages. Int. J. Environ. Sci. Tech. 7 (2), 347-358.
- Yanzaho W., Jun C., Xinmin W., Quingjia T. 2005. Possibliteis of reflectance spectroscopy for assemseent of contaminzation element in suburban soil. Applied Geochemistry. 20: 1051-1059.
- Bhuiyan M A H., Parvez L., Islam MA., Dampare SB., Suzukia S. 2010. Heavy metal pollution of coal mine-affected agricultural soils in the northern part of Bangladesh. J. Hazard. Mater. 173: 384-392
- Wong SC., Li HD., Zhang G., Qi SH., Min YS. 2002. Heavy metals in agricultural soils of the pearl River Delta, south china, Environmental pollution. 119 : 33-44.
- Shafiei, N., Shirani, H., Esfandiarpour, A. 2012. The enrichment of arsenic and selenium in the soils around the Sarcheshmeh copper mine. Journal of soil management. Is. 2. No. 2 (In Persian).
- Sattari, M., Nayebzadeh, M., Najafabadi, R. 2013. Surface water quality prediction using decision tree method. Journal of Iran Irrigation and water engineering. No. 15. 76-88 (In Persian).
- Kemper T., sommer S. 2002. Estimate Heavy metal contamination in soil after a mining accident using refelectance, Spectroscopy. Environ Sci. Technol. 36 : 2742-2747
- Withers P J A., Lord E I. 2002. Agricultural Nutrient Inputs to Rivers and Groundwaters in the UK: Policy, Environmental Management and Research Needs. TheScience of the Total Environment. 282-283.
- Juang KW., Lee D Y., Ellsworth TR. 2001. Using rank order geostatistics for spatial inter plolation of higly skewed data in heavy metal contaminated site, J. Environ. Qual. 30: 844-903.
- Jiachan S., Haizhen W., Jianming W., Jianjan W., Xingmei L., halping Z. 2007. Spatial distribution for heavy metal in soil : A case study of changing, china, environ geol. 52il – 10.
- Lado L.R., Hengl T., Reuter HR. 2008. Heavy metals in European soils: A geostatistical anlysis of the FOREGS Geo chimical data base, Geo derma. 148: 189-199.
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- Muller G. 1969. index of geoaccumulation in sediments of the Rhine river. Geojournul. 2:108-118.
- Mc Groth SP., Chaudri AM., Giller K.E. 1995. long term effects of metals in sewage sladge on soils, micro- crganisms and plants, j. ind. Microbiol. 14 (2): 94-104.
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