Share of Natural and Anthropogenic Resources in Heavy Metals Distribution in the Soils arround Venarch Manganese Mine in Qom
Subject Areas : soil pollutionmaryam Rafati 1 , armita taghavi 2 , Abdolreza Karbassi 3
1 - Young Researchers and Elite Club, North Tehran Branch, Islamic Azad University, Tehran, Iran.
2 - مسئول دبیرخانه کمیسیون ماده واحده اداره منابع طبیعی شهرستان تهران
3 - Full Professor of Environment Faculty, Tehran University, Tehran, Iran.
Keywords: Heavy Metals, Geoaccumulation index, Venarch Manganese Mine, Single Phase Chemical Partitioning,
Abstract :
Abstract Background and Objective: The aim of this study was to evaluate contamination of the soils around Venarch manganese mine in Qom with heavy metals such as manganese, nickel and lead. It is also attempted to compare the Muller’s and Karbassi’s methods for determining the pollution index and the natural and anthropogenic share of the mentioned elements in the study area. in of Geoaccumulation index (Igeo) and (Ipoll), heavy metals of natural and anthropotogenic fase contribution in the region. Method: To perform this study, 3 samples were systematically collected from soil at the depths of 5 - 25 cm and mixed together to make a compound sample which was transferred to the laboratory. The concentrations of manganese, nickel and lead were measured using a spectrophotometer. Then the Muller’s Geoaccumulation index (Igeo) and the Karbassi’s Pollution Index (Ipoll) were employed to determine the intensity of pollution in the study area. Findings: The results of bulk digestion showed that concentrations of Mn and Ni are lower and concentration of Pb is higher than the maximum average concentrations in the Earth’s crust and shale. Igeo was in the range of 0-1 and Ipoll was in the range of 1-2 for all metals, respectively showing that soil pollution is classified as unpolluted and slightly polluted. Discussion and Counclusion: Karbassi’s Ipoll was found to be more efficient than Muller’s Igeo in determining the amount of contamination in the region. The share of heavy metals in anthropogenic phase was determined as the following order: Pb (16%)> Ni (8%)> Mn (5%).
- Clik A., Kartal, A. and Kaska, Y. (2005). Determining the heavy metal pollution in Denizil (Turkey) by using Robinia pseudo-acacia L., environmental enternational, 31, 105- 112.
- Yang, X.E. Long, X.X. Ye, H.B. He, Z.L. Calvert, D.V. Stoffella, P.J. (2005) Cadmium tolerance and hyperaccumulation in a new Zn-hyperaccumulating plant species (Sedum alfredii Hance), Plant Soil, 259, 181–189
- Mwegoha, W.J.S. and Kihampa, C. 2010. Heavy metal contamination in agricultural soils and water in Dar es Salaam city, Tanzania.African Journal of Environmental Science and Technology. 4(11), 763-769.
- Jankiewicz, B., Adamczyk, D. 2010. Assessing heavy metal content in soils surrounding a power, Plant.Polish J. of Environ. Stud.849-853
- Khasipoor, A. 2013. Pollution risk assessment of heavy metals (Pb, Mn, Ni) in the soils around Robat Karim manganese mine, Master thesis of environment, Islamic Azad university, Science and research branch of Tehran (In persian).
- Papafilippaki, A., Velegraki, D., Vlachaki, C., and Stavroulakis, G. 2008. Levelas of heavy metal and bioavailability in soils from the induseial area of Heraklion- Crete, Greece.Laboratory of Water & Soil Resources Quality Control, Technological Educational Institute of Crete, 73133 Chanina, Greece.
- Popescu, L. and Stanca. A. 2008. Monitoring of heavy metal soil contents in the area of thermal power plants in Romania. World Academy of Science, Engineering and Technoligy .44:2008.
- Mosayyebizadeh, S. S. 2007. Investigation on elements concentration in Mellat park soils, Master thesis of environment, Islamic Azad university, Science and research branch of Tehran (In persian).
- Barzegari, Z. 2007. Investigation on Heavy metals distribution in Science and research branch in Tehran, Master thesis of environment, Islamic Azad university, Science and research branch of Tehran (In persian).
- http://moe.gov.ir/Sites-of-Water-Electricity/Specialized-holding-companies.
- Karbassi, A. R. Bayati, A. 2007. Environmental Geochemistry, Kavosh Galam press, Tehran, Iran, 258 p (In persian).
- Bowen, H. J. M., 1979," Environmental Geochemistry of the Elements" Academic Press, London, England, 333p.
- Karbassi, A. R. 1996, "Geochmistry of Ni, Zn, Cu, Pb, Co, Cd, V, Mn, Fe, Al, and Ca in Sediments of North Western part of the Persian Gulf “ntl. J. Env. Studies, v. 54, pp. 205 – 212.
_||_
- Clik A., Kartal, A. and Kaska, Y. (2005). Determining the heavy metal pollution in Denizil (Turkey) by using Robinia pseudo-acacia L., environmental enternational, 31, 105- 112.
- Yang, X.E. Long, X.X. Ye, H.B. He, Z.L. Calvert, D.V. Stoffella, P.J. (2005) Cadmium tolerance and hyperaccumulation in a new Zn-hyperaccumulating plant species (Sedum alfredii Hance), Plant Soil, 259, 181–189
- Mwegoha, W.J.S. and Kihampa, C. 2010. Heavy metal contamination in agricultural soils and water in Dar es Salaam city, Tanzania.African Journal of Environmental Science and Technology. 4(11), 763-769.
- Jankiewicz, B., Adamczyk, D. 2010. Assessing heavy metal content in soils surrounding a power, Plant.Polish J. of Environ. Stud.849-853
- Khasipoor, A. 2013. Pollution risk assessment of heavy metals (Pb, Mn, Ni) in the soils around Robat Karim manganese mine, Master thesis of environment, Islamic Azad university, Science and research branch of Tehran (In persian).
- Papafilippaki, A., Velegraki, D., Vlachaki, C., and Stavroulakis, G. 2008. Levelas of heavy metal and bioavailability in soils from the induseial area of Heraklion- Crete, Greece.Laboratory of Water & Soil Resources Quality Control, Technological Educational Institute of Crete, 73133 Chanina, Greece.
- Popescu, L. and Stanca. A. 2008. Monitoring of heavy metal soil contents in the area of thermal power plants in Romania. World Academy of Science, Engineering and Technoligy .44:2008.
- Mosayyebizadeh, S. S. 2007. Investigation on elements concentration in Mellat park soils, Master thesis of environment, Islamic Azad university, Science and research branch of Tehran (In persian).
- Barzegari, Z. 2007. Investigation on Heavy metals distribution in Science and research branch in Tehran, Master thesis of environment, Islamic Azad university, Science and research branch of Tehran (In persian).
- http://moe.gov.ir/Sites-of-Water-Electricity/Specialized-holding-companies.
- Karbassi, A. R. Bayati, A. 2007. Environmental Geochemistry, Kavosh Galam press, Tehran, Iran, 258 p (In persian).
- Bowen, H. J. M., 1979," Environmental Geochemistry of the Elements" Academic Press, London, England, 333p.
- Karbassi, A. R. 1996, "Geochmistry of Ni, Zn, Cu, Pb, Co, Cd, V, Mn, Fe, Al, and Ca in Sediments of North Western part of the Persian Gulf “ntl. J. Env. Studies, v. 54, pp. 205 – 212.
