Assessing the level of heavy metals pollution in the agriculture soil of Zahab plain, Kermanshah (Case study: As, Pb and Cd)
Subject Areas : environmental managementNasrin Choobkar 1 , Farid Parsa 2
1 - Associate professor, Department of Natural Resources and Environment, Faculty of Agriculture, Kermanshah Branch, Islamic Azad University, Kermanshah, Iran. * (Corresponding Author)
2 - - MSc of Environmental Science, Faculty of Natural Resources, Hamedan Branch, Islamic Azad University, Hamedan, Iran.
Keywords: : Heavy Metals, Arsenic, Lead, Cadmium, Zahab Plain,
Abstract :
Background and Objective: Soil is the main component of biological biomes and is necessary for survival on the Earth. Today, soil has been contaminated by human activities. Defining the boundaries between human activities and outcomes is essential. This study was done to evaluate the concentrations of metals such as arsenic, lead and cadmium in surface soils of agricultural land around Zahab plain and the environmental risk in 2014. Method: The sampling points were recorded by GIS and then imported to the GPS. The soil samples were taken from depths of 0 to 30 cm soil by field assessment. The samples were then transported to the laboratory and necessary preparation actions were done. Total concentrations of As, Pb and Cd were measured by atomic absorption (SHIMADZU-AA-6300). The soil chemical and physical parameters such as clay, silt, sand, organic matter, lime, gypsum, gravel percent, EC and pH were also measured. Findings: Pearson correlation test showed that there is a significant correlation among As, EC and organic matter (p<0.05). Comparison of concentrations with the international standards showed that these metals are in good condition. Pollution index showed that Pb poses more contamination than other two metals. Classification of the environmental risk showed that 83/22 % of the region falls in moderate risk. Discussion and Conclusion: Low concentration of the metals in Zahab zone is due to traditional and small scale farming because farmers could not apply chemical fertilizers and they used mostly manure in their farms. As a result, the metals produced by agricultural activities do not pose a threat to crops and also environment.
Reference
1- Kabata, A., Pendias, H., 2001. Trace Elements in Soils and Plants. CRC Press, Boca Raton, London. New York. 413 Pages.
2- Sparks, Sh. 2004. Soil Chemistry with Environmental Attitudes. Oustan, Sh, (Translator). Tabriz University Press, p. 472. (In persian)
3- 3- Dabiri, M.2003. Environmental pollution (air-water-soil-sound). Etehad publication .300 pages. (In persian)
4- 4- Amini, M., Afyuni, M and Khademi. H, 2006. Modeling the mass balance of Cd and Pb in agricultural lands of Isfahan. Journal of Sciences and Technology of Agriculture and Natural Resources, No. 4 (a), pp. 77-89. (In persian)
5- Yaron, B., Calvet, R and Prost, R. 1996. Soil Pollution: Processes and Dynamics. Springer-Verlag, Berlin Heidelberg, 312 p.
6- Shi, J., Wang, H., Xu, J., Wu, J., Liu, X., Zhu, H. and Yu, C. 2007. Spatial distribution of heavy metals in soils: a case study of Changxing, China, Environmental Geology, Vol. 52, No. 1, pp. 1-10.
7- Rodríguez Martín, J. A., Arias, M. L. and Grau Corbí, J. M. 2006. Heavy metals contents in agricultural topsoils in the Ebro basin (Spain). Application of the multivariate geoestatistical methods to study spatial variations. Environmental Pollution, Vol. 144, No. 3, pp. 1001-1012.
8- Romic, M., Hengl, T., Romic, D. and Husnjak, S. 2007.Representing soil pollution by heavy metals using continuous limitation scores. Computers & Geosciences, Vol. 33, No. 10, pp. 1316-1326.
9- Cao, H.-F., Chang, A. C. and Page, A. L. 1984. Heavy Metal Contents of Sludge-Treated Soils as Determined by Three Extraction Procedures. J Environ Quall, Vol. 13, No. 4, pp. 632-634.
10- Weaver, R. W., Angle, J. S. and Bottomley, P. S. 1994. Methods of soil analysis, microbiological and biochemical properties, part II, Soil Science of America INC, Wisconsia.
11- Klute, A. 1986. Methods of soil analysis, part I, physical and mineralogical methods, Soil Science Society of America INC, Wisconsia.
12- Zio, S. D., Fontanella, L. and Ippoliti, L. 2004. Optimal spatial sampling schemes for environmental surveys. Environmental and Ecological Statistics, Vol. 11, No., pp. 397-414.
13- Wang, J., Chen, Z., Sun, X., Shi, G., Xu, S., Wang, D. and Wang, L. 2009. Quantitative spatial characteristics and environmental risk of toxic heavy metals in urban dusts of Shanghai, China. Environmental Earth Sciences, Vol. 59, No. 3, pp. 645-654.
14- Pais, I and Jones, J B . 1997, The handbook of trace elements, St lucie press, boca raton, florida, 223
15- Kabata–Pendias, A. and H. Pendias. 1979. Trace elements in the biological environment. wyd. Geol., INC, Warsaw.
16- Smith E, Naidu, R and Alston, AM. 1998. Arsenic in the soil environment: a review. Adv, Agron 64: 149-195.
17- Bauer, M and Blodan, C. 2005. Mobilization of arsenic by dissolved organic matter form iron oxides, soil and sediment, Sci, total environ354: 179-190.
18- Zhao, Y.-F., Shi, X.-Z., Huang, B., Yu, D.-S., Wang, H.-J., Sun, W.-X., ÖBoern, I. and BlombÄCk, K. 2007. Spatial Distribution of Heavy Metals in Agricultural Soils of an Industry-Based Peri-Urban Area in Wuxi, China. Pedosphere, Vol. 17, No. 1, pp. 44-51
19- Chen, T.-B., Zheng, Y.-M., Lei, M., Huang, Z.-C., Wu, H.-T., Chen, H., Fan, K.-K., Yu, K., Wu, X. and Tian, Q.-Z., 2005, Assessment of heavy metal pollution in surface soils of urban parks in Beijing, China. Chemosphere, Vol. 60, No. 4, pp. 542-551.
20- Sridhara Chary, N., Kamala, C. T. and Samuel Suman Raj, D. 2008. Assessing risk of heavy metals from consuming food grown on sewage irrigated soils and food chain transfer. Ecotoxicology and Environmental Safety, Vol. 69, No. 3, pp. 513-524.
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Reference
1- Kabata, A., Pendias, H., 2001. Trace Elements in Soils and Plants. CRC Press, Boca Raton, London. New York. 413 Pages.
2- Sparks, Sh. 2004. Soil Chemistry with Environmental Attitudes. Oustan, Sh, (Translator). Tabriz University Press, p. 472. (In persian)
3- 3- Dabiri, M.2003. Environmental pollution (air-water-soil-sound). Etehad publication .300 pages. (In persian)
4- 4- Amini, M., Afyuni, M and Khademi. H, 2006. Modeling the mass balance of Cd and Pb in agricultural lands of Isfahan. Journal of Sciences and Technology of Agriculture and Natural Resources, No. 4 (a), pp. 77-89. (In persian)
5- Yaron, B., Calvet, R and Prost, R. 1996. Soil Pollution: Processes and Dynamics. Springer-Verlag, Berlin Heidelberg, 312 p.
6- Shi, J., Wang, H., Xu, J., Wu, J., Liu, X., Zhu, H. and Yu, C. 2007. Spatial distribution of heavy metals in soils: a case study of Changxing, China, Environmental Geology, Vol. 52, No. 1, pp. 1-10.
7- Rodríguez Martín, J. A., Arias, M. L. and Grau Corbí, J. M. 2006. Heavy metals contents in agricultural topsoils in the Ebro basin (Spain). Application of the multivariate geoestatistical methods to study spatial variations. Environmental Pollution, Vol. 144, No. 3, pp. 1001-1012.
8- Romic, M., Hengl, T., Romic, D. and Husnjak, S. 2007.Representing soil pollution by heavy metals using continuous limitation scores. Computers & Geosciences, Vol. 33, No. 10, pp. 1316-1326.
9- Cao, H.-F., Chang, A. C. and Page, A. L. 1984. Heavy Metal Contents of Sludge-Treated Soils as Determined by Three Extraction Procedures. J Environ Quall, Vol. 13, No. 4, pp. 632-634.
10- Weaver, R. W., Angle, J. S. and Bottomley, P. S. 1994. Methods of soil analysis, microbiological and biochemical properties, part II, Soil Science of America INC, Wisconsia.
11- Klute, A. 1986. Methods of soil analysis, part I, physical and mineralogical methods, Soil Science Society of America INC, Wisconsia.
12- Zio, S. D., Fontanella, L. and Ippoliti, L. 2004. Optimal spatial sampling schemes for environmental surveys. Environmental and Ecological Statistics, Vol. 11, No., pp. 397-414.
13- Wang, J., Chen, Z., Sun, X., Shi, G., Xu, S., Wang, D. and Wang, L. 2009. Quantitative spatial characteristics and environmental risk of toxic heavy metals in urban dusts of Shanghai, China. Environmental Earth Sciences, Vol. 59, No. 3, pp. 645-654.
14- Pais, I and Jones, J B . 1997, The handbook of trace elements, St lucie press, boca raton, florida, 223
15- Kabata–Pendias, A. and H. Pendias. 1979. Trace elements in the biological environment. wyd. Geol., INC, Warsaw.
16- Smith E, Naidu, R and Alston, AM. 1998. Arsenic in the soil environment: a review. Adv, Agron 64: 149-195.
17- Bauer, M and Blodan, C. 2005. Mobilization of arsenic by dissolved organic matter form iron oxides, soil and sediment, Sci, total environ354: 179-190.
18- Zhao, Y.-F., Shi, X.-Z., Huang, B., Yu, D.-S., Wang, H.-J., Sun, W.-X., ÖBoern, I. and BlombÄCk, K. 2007. Spatial Distribution of Heavy Metals in Agricultural Soils of an Industry-Based Peri-Urban Area in Wuxi, China. Pedosphere, Vol. 17, No. 1, pp. 44-51
19- Chen, T.-B., Zheng, Y.-M., Lei, M., Huang, Z.-C., Wu, H.-T., Chen, H., Fan, K.-K., Yu, K., Wu, X. and Tian, Q.-Z., 2005, Assessment of heavy metal pollution in surface soils of urban parks in Beijing, China. Chemosphere, Vol. 60, No. 4, pp. 542-551.
20- Sridhara Chary, N., Kamala, C. T. and Samuel Suman Raj, D. 2008. Assessing risk of heavy metals from consuming food grown on sewage irrigated soils and food chain transfer. Ecotoxicology and Environmental Safety, Vol. 69, No. 3, pp. 513-524.
