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Impact of agricultural activities on accumulation of Cadmium, Cobalt, Chromium, Copper, Nickel and Lead in soil of Hamedan province | ||
Environmental Resources Research | ||
مقاله 7، دوره 6، شماره 1، فروردین 2018، صفحه 79-87 اصل مقاله (757.12 K) | ||
نوع مقاله: Research Paper | ||
شناسه دیجیتال (DOI): 10.22069/ijerr.2018.4177 | ||
نویسندگان | ||
A. A. Shahbazi1؛ A.R. Soffianian2؛ N. Mirghaffari2؛ H. Rezaei3 | ||
1Lecturer of Dept. of Natural Resources, Baharan Institute of Higher Education, Gorgan, Iran | ||
2Associate Prof. of Environmental Science, Dept. of Natural Resources, Isfahan University of Technology, Isfahan. | ||
3Assistant Prof. Dept. of Environmental Sciences, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran | ||
چکیده | ||
Use of chemical fertilizers, pesticides and sewage sludge in agriculture lands have increased soils trace metals concentration in many parts of the world. In This article we report the results of a study on impacts of agricultural activities on soil accumulation of Cadmium, Cobalt, Chromium, Copper, Nickel and Lead and risk of metal contamination in Hamedan Province using contamination factor. The soil samples were collected systematically from agriculture fields with cultivation period of 65, 35 and 20 years. The results showed the mean concentration of Cd, Co, Cr, Cu, Ni and Pb in the soils was increased with the cultivation period and a significant difference was seen between the concentrations of metals, except for Pb, in the soil under different cultivation periods. The trend of soils trace metal accumulation of Cd, Co, Cr and Cu was exponential, whereas for Ni and Pb, it was quadratic and linear, respectively. Also, based on the calculated contamination factors, the soils classified as none and none to medium class pollution were generally found in lands with more length of cultivation. The increase of trace metals concentration in the soil followed the increase in the use of fertilizers in the region. The cultivated soils thus provide a way for entrance of trace elements in the human’s food chain. Therefore, monitoring contaminated soils is necessary to control and prevent the risks from contaminated soils. | ||
کلیدواژهها | ||
Accumulation trend؛ Agricultural activities؛ Contamination factor؛ Traces metal | ||
مراجع | ||
Abrahim, G.M.S. and Parker, R.J. 2008. Assessment of heavy metal enrichment factors and the degree of contamination in marine sediments from Tamaki Estuary, Auckland, New Zealand. Environmental Monitoring Assessment, 136(1-3), 227–238. Al-Nakshabandi, G. A., Saqqar, M. M., Shatanawi, M. R., Fayyad, M. and Al-Horani, H. 1997. Some environmental problems associated with the use of treated wastewater for irrigation in Jordan. Agricultural Water Management, 34(1), 81– 94. Alloway, B. J. 1990. Heavy metals in soils: New York: Wiley. Alloway, B. J. 1995. Soil processes and the behavior of metals: New York: Wiley. Amini, M., Afyuni, M. and Khademi, H. 2007. Modeling Cadmium and Lead Balances in Agricultural Lands of Isfahan Region. Central Iran JWSS - Isfahan University of Technology, 10(4), 77-90. Bansal, O. P. 1998. Heavy metal pollution of soils and plants due to sewage irrigation. Indian Journal of Environmental Health, 40(1), 51-57. Bocca, B., Alimonti, A., Petrucci, F., Violante, N., Sancessario, G. and Forte, G. 2004. Quantification of trace elements by sector field inductively coupled plasma spectrometry in urine, serum, blood and cerebrospinal fluid of patients with Parkinson’s disease. Spectrochimica Acta, 59(4), 559–566. Cuihua, C., Shijun, N. and Chengjiang, Z. 2007. Assessing spatial-temporal variation of heavy metals contamination of sediments using GIS 3D spatial analysis methods in Dexing mines, Jiangxi province,China. IEEE. De Temmerman, L., Vanongeval, L., Boon, W. and Hoenig, M. 2003. Heavy metal content of arable soil in Northern Belgium. Water, Air and Soil Pollution, 148(1-4), 61-76. A. Shahbazi et al. / Environmental Resources Research 6, 1 (2018) 87 Dudka, S., Piotrowska, M. and Chlopecka, A. 1994. Effect of elevated concentrations of Cd and Zn in soil on spring wheat yield and the metal contents of the plants. Water, Air, and Soil Pollution, 76(3-4), 333-341. Huang, S. W. and Jin, J. Y. 2008. Status of heavy metals in agricultural soils as affected by different patterns of land use. Environmental Monitoring and Assessment, 139(1-3), 317– 327. Kashem, M. A., & Singh, B. R. 2001. Metal availability in contaminated soils: effects of flooding and organic matter on changes in Eh, pH and solubility of Cd, Ni and Zn. Nutrient Cycling in Agroecosystems, 61(3), 247-255. Khodakarami, L. 2009. Assessment of Non-point sourrces Agricultural pollution using GIS and RS. MSc thesis, Departement of Natural Resourses, Isfahan University of Technology, Isfahan. Li, P. J., Stagnitti, F., Xiong, X. and Peterson, J. 2009. Temporal and spatial distribution patterns of heavy metals in soil at a long-standing sewage farm. Environmental Monitoring and Assessment, 149(1-4), 275–282. Liu, W. H., Zhao, J. Z., Ouyang, Z. Y., Soderlund, L. and Liu, G. H. 2005. Impacts of sewage irrigation on heavy metal distribution and contamination in Beijing, China. Environment International, 31(6), 805 – 812. Mantovi, P., Bonazzi, G., Maestri, E. and Marmiroli, N. 2003. Accumulation of copper and zinc from liquid manure in agricultural soils and crop plants. Plant and Soil, 250(2), 249-257. McGrath, S. P., Chaudri, A. M. and Giller, K. E. 1995. Long term effects of metals in sewage sludge on soils, micro- organisms and plants Journal of Indian Microbiology, 14(2), 94-104. McGrath, S. P. and Cunliffe, C. H. 1985. A simplified method for the extraction of the metals Fe, Zn, Cu, Ni, Cd, Pb, Cr, Co and Mn from soils and sewage sludges. Journal of the Science of Food and Agriculture, 36(9), 794-798. Mehrdadi, N., Joshi, S. G., Nasrabadi, T. and Hoveidi, H. 2008. Aplication of Solar Energy for Drying of Sludge from Pharmaceutical Industrial Waste Water and Probable Reuse. International Journal of Environmental Resources, 1(1), 42-48. Misra, S. G. & Mani, D. 1991. Soil pollution. Ashish Publishing House. New Delhi, India.: 8/81 Punjabi Bagh. Motasadi Zarandi, S. and Babran, S. 2009. Strategies for Environment Sector to Realize the Goals of 20 Year Vision Plan. Rahbord journal, 48, 101-122. Nicholson, F. A., Smith, S. R., Alloway, B. J., Carlton-Simith, C. and Chambers, B. J. 2003. An inventory of heavy metal input to agricultural soil in England and Wales. The Science of the Total Environment, 311(1-3), 205–219. Otte, M. L., Haarsma, M. S., Broekman, R. A. and Rozema, J. 1993. Relation between heavy metal concentrations and salt marsh plants and soil. Environmental Pollution, 82(1), 13-22. Palese, A. M., Pasquale, V., Celano, G., Figliuolo, G., Masi, S. and Xiloyannis, C. 2009. Irrigation of olive groves in southern Italy with treated municipal waste water: Effects of microbiological quality of soil and fruits Agriculture Ecosystem and Environment, 129, 43- 51. Panicker, P. V. R. C. 1995. Recycling of human waste in agriculture. In: Tandon, HLS(Ed.), Recycling of waste in Agriculture. Fert. New Delhi, India,68-90.: Dev. Consultation Org. Toze, S. 2006. Reuse of effluent water-benefits and risks. Agric. Water Management, 80(1-3), 147-159. Waisberg, M., Joseph, P., Hale, B. and Beyersmann, D. 2003. Molecular and cellular mechanisms of cadmium carcinogenesis. Toxicology, 192(2-3), 95–117. Wong, S. C., Li, X. D., Zhang, G., Qi, S. H. and Min, Y. S. 2002. Heavy metals in agricultural soils of the Pearl River Delta, South China. Environmental Pollution, 119(1), 33-44. Yalcin, M. G., Battaloglu, R. and Ilhan, S. 2007. Heavy metal sources in Sultan Marsh and its neighborhood, Kayseri, Turkey Environmental Geology, 53(2), 399-415. | ||
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