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Kamal Nabiollahi

Kamal Nabiollahi

Academic rank: Associate Professor
ORCID:
Education: PhD.
ScopusId: 56595131700
HIndex:
Faculty: Faculty of Agriculture
Address: Department of soil Science and Engineering, Faculty of Agriculture, University of Kurdistan, Sanandaj, Iran
Phone:

Research

Title
Spatial variability of arsenic in relation with some soil forming factors
Type
JournalPaper
Keywords
Parent materials, IDW, Physicochemical characteristics
Year
2012
Journal African Journal of Biotechnology
DOI
Researchers Kamal Nabiollahi ، Ahmad Haidari ، Noraiar Tomanian ، Gholamreza savaghebi ، Khosro Mohammadi

Abstract

Soil and water samples collected from Bijar area were analyzed in order to investigate arsenic contamination sources and their human risk potentiality assessment. Routine physical and chemical characteristics, iron oxides and arsenic contents were measured in 227 soil samples. Spatial variability of arsenic was calculated using IDW to assess the arsenic contamination potential. Furthermore, the relationships between soil parent material, physico-chemical characteristics and the spatial distribution of arsenic were analyzed. Topsoil arsenic concentration showed significant correlations with clay (r=0.77), sand (r=-0.45), silt (r=-0.48), Fe oxides contents (r=0.65) and cation exchange capacity (r=0.65) statistically. The highest arsenic concentrations were observed in the map delineations with higher clay, Fe2O3 and cation exchange capacities. Parent materials derived from Fe-rich igneous (or pyroclastic) rocks and mudstone (arsenic source parent materials) were composed significantly higher arsenic contents, compared to the rest parent material types. Spatial variability analyses demonstrated that considerable extent of the studied soils was potentially contaminated by arsenic. The distribution map of arsenic contaminated areas was rasterized by IDW which confirmed that arsenic contamination in the studied area originates from some specific point sources (arsenic bearing parent materials), spreads over the lower positions by water pollution and erosion-deposition processes