Mohammad Ebrahim Fazel Valipour
Abstract
AbstractBackground and Aim: Heavy metals contamination of soils is one of the main environmental problems. Heavy metals are considered as one most dangerous groups of pollutants because of their toxicity and stability. The biological and ecological importance of heavy metals is due to their characteristics ...
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AbstractBackground and Aim: Heavy metals contamination of soils is one of the main environmental problems. Heavy metals are considered as one most dangerous groups of pollutants because of their toxicity and stability. The biological and ecological importance of heavy metals is due to their characteristics of polluting, their toxicity, persistence and bioaccumulation. The aim of this study was to investigate the spatial distribution of heavy metals in region Dehnow Shandiz (North West of mashhad).Materials and Methods: In the present study, 20 soil samples (10-30 cm depth) collected and total concentration of As, Cd, Co, Cr and Ni were measured using Atomic absorption spectrophotometer device. Also, some other soil properties including PH, Organic carbon, CEC and soil texture proportions were measured.Results: The results showed that the average concentrations of As, Cd, Co, Cr and Ni in the study area were 10.87, 0.26, 14.8, 56.6 and 68.2 mg/kg respectively. Also the results of statistical analysis showed that the standard deviations of As, Cd, Co, Cr and Ni in the study area were 1.97, 0.16, 1.32, 19.47 and 17.39 respectively.Conclusion: The results indicate that the average concentration of Ni in the soil of study area were higher than the standard of the Environmental Protection Organization of Iran and As, Cd, Co and Cr were lower than the standard. The presence of serpentinite soils has increased the concentration of nickel in the region.Document Type: Research article
Iman Shahidi Kaviani; Parvaneh Paykanpoufard
Abstract
Background and purpose: Population growth leads to the expansion of industries and improper management of industries leads to land pollution and irreparable damage to nature and living organisms. Therefore, studying the role of industrial centers in environmental pollution, including soil, is one of ...
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Background and purpose: Population growth leads to the expansion of industries and improper management of industries leads to land pollution and irreparable damage to nature and living organisms. Therefore, studying the role of industrial centers in environmental pollution, including soil, is one of the most important measures in the field of pollution control. The aim of this study was to evaluate the rate of surface soil contamination with heavy metals exposed to the oil industry. Materials and methods: In this study, to measure the rate of heavy metals, a total of 15 soil samples were taken from 5 stations with 3 replications and from depth of 0-30 cm. Heavy element measurements were performed by induction coupled plasma spectroscopy. Results: Based on the results the average amount of Cadmium, Lead and Copper in the soil were 2.40 ± 1, 8.89 ± 5.91 and 55.83 ± 52.88 mg / kg respectively. Conclusion: The average values of Cadmium and Copper were higher and the average values of lead were lower than the global average. Also, due to the high degree of toxicity of Cadmium, the highest risk of soil contamination can be attributed to Cadmium. The measurement of pollution of each of the three elements and for five sampling stations showed that the soil of the oil region was more polluted than Cadmium than the other two elements and the oil industry was more effective in Cadmium pollution than other elements. By measurement and comparison, the rate of soil pollution indices in the sampled zones, it showed that, as expected, the soil of the processing areas and the well head zones had more severe pollution than other areas and adopted more strict environmental control measures are essential on these areas.
Mostafa Abyareh; Farhad Nejadkoorki; Mohammad Reza Ekhtesasi; Mohammad Akhavan Ghalibaf
Abstract
Background and purpose: Expanded industries and incorrect management led to land pollution, which caused irreparable damage to nature and organisms. Therefore, investigating the role of industrial centers in soil pollution is among the most important measures in field of pollution control. This study ...
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Background and purpose: Expanded industries and incorrect management led to land pollution, which caused irreparable damage to nature and organisms. Therefore, investigating the role of industrial centers in soil pollution is among the most important measures in field of pollution control. This study aimed to evaluate the Heavy Metals contamination in Surface Soil Caused by Steel Industry. Materials and Methods: In this study, to determine the concentration of Cadmium and Lead in soil, 6 soil samples with a depth of 0-5 cm from surrounding areas were collected. Lead and Cadmium levels were measured in soil samples by flame atomic absorption. The statistical indices for concentrations of elements in soil dust were calculated, then the concentrations of the elements in soil before and after the factory were compared, and In order to evaluate the contaminations of heavy metals and to study the environmental impact of the modified degree of contamination, the degree of contamination and the potential environmental risk were calculated. Results: The minimum and maximum amounts for Cadmium and Lead contamination in soil were 24.60, 99.30 and 35.60, 156.30 mg/kg respectively. The results indicated there was a meaningful difference between the amount of Cadmium before and after the company. The pollutant index for Cadmium was extreme and dangerous, whereas the pollutant index for Lead was not critical. Conclusion: Concentrations of two measured elements showed that only level of cadmium was higher than global standards and this indicates polluting role of this factory. Therefore planning for control the release of this metal and other pollutants should be considered.
Abbas Ali Zamani; Elham Ahmadpour; Abdolhosein Zanganeh; Younes Khosravi
Abstract
Background & objective: Cement manufacturing is the most important and influential industry in the economic prosperity of the country. However, this can be an entrance source for heavy metals to environment. The main objectives of the present study were to identify the spatial variability and main ...
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Background & objective: Cement manufacturing is the most important and influential industry in the economic prosperity of the country. However, this can be an entrance source for heavy metals to environment. The main objectives of the present study were to identify the spatial variability and main sources of heavy metals including Cr, Mn, Ni, Co, Cu, Cd, As and Zn in surface soils of the closed Kurdistan cement factory zone by conducting multivariate geostatistical analysis assisted with ArcGIS 10.2 tool. Multivariate geostatistics was used to survey the spatial distribution of studied heavy metals and their reasons in the studied area. Materials & Methods: In the present study, 88 samples of surface soils were collected in radiuses of 500, 1000, 2000 and 3000 m from the center of the cement factory from two depths of 0–15 and 15-30 cm. Results: According to the gained results, three principal factors were appeared with more than 90% of the total variance through multivariate statistical analysis for heavy metals. For mapping the distribution of the heavy metals amounts, four different models including circular, spherical, exponential and Gaussian with methods of simple Kriging, ordinary Kriging, universal and simple Co-Kriging were identified as the optimum models using ArcGIS 10.2.. The accoracy of the methods were evaluated using coefficient determination, mean absolute error, mean bias error and root mean square error. Conclusion: Heavy metals mapping confirmed that the levels of Cd, As, Pb and Cu in surface soils closed to the factory are higher than global average amount. Also, it can be mentioned that geological structure of the area plays most important role in soil pollution. However, anthropogenic activities, particularly cement plant are considered as another effective factor on soil pollution in the studied area.