Geochemical fractionation, source identifcation and risk assessments for trace metals in agricultural soils adjacent to a city center (Çanakkale, NW Turkey)
Künye
Sungur, A., & İşler, M. (2021). Geochemical fractionation, source identification and risk assessments for trace metals in agricultural soils adjacent to a city center (Çanakkale, NW Turkey). Environmental Earth Sciences, 80(8). https://doi.org/10.1007/s12665-021-09611-9Özet
Agricultural lands around city centers are exposed to trace metal pollution through urbanization especially and industrialization-related human activities. This study investigates potential sources of trace metals (Cd, Cr, Cu, Ni and Pb) in agricultural
lands surrounding Çanakkale city center (NW Turkey) and estimates their environmental impacts with the sequential extraction procedure. Soil samples were taken from agricultural felds adjacent to the city center that represent all types of land
use. The aqua regia wet digestion method was used to determine trace metal contents and the sequential extraction procedure
was used to determine geochemical fractions of trace metals. Multivariate analysis was applied for source identifcation of
trace metals. Contamination factors and risk assessment codes were used to assess current pollution. Trace metal contents
were in the order: Ni>Cr>Pb>Cu>Cd. Recorded values were greater than the values specifed for agricultural land. Trace
metal mobility based on totals for the frst three fractions was in the order: Cd (62%)>Pb (57%)>Cu (40%)>Ni (32%)>Cr
(15%) and these fndings indicate that Cd and Pb exist mostly in mobile phases. These mobile phases were mostly attributed
to anthropogenic sources. These fndings comply with the outcomes of statistical analysis. It was concluded that the soils
were contaminated with Pb and Cd. While Pb poses moderate risks for the environment, Cd poses high risks. Considering the
present fndings, it was observed that primarily Cd and partially Pb reached soils near urban areas, exhibited accumulation
and may be easily incorporated into water and plants through the mobile phases. Therefore, it is concluded that the relevant
metals, especially Cd, should be controlled and monitored.