Journal
SCIENCE OF THE TOTAL ENVIRONMENT
Volume 857, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.scitotenv.2022.159467
Keywords
Heavy metal; Geochemical speciation; Pb isotope; APCS; MLR; Black shale
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This study conducted soil sampling in a black shale catchment area in southwestern China to investigate the accumulation and sources of heavy metals. The results showed that most heavy metals in the soils underlain by black shale exceeded the regional background values, especially for Mo, As, and Cd. The study also revealed that the majority of heavy metals in soils were bound in the residual fraction, while Cd occurred in relatively labile proportions. The findings have important implications for contamination management, land use planning, and health risk assessment in regions with high geochemical backgrounds.
Heavy metal enrichment in soils has been linked to the weathering of lithologies with high geochemical backgrounds, such as black shale. Therefore, this study conducted a typical sampling of surface soils in a black shale catchment in southwestern China to characterize the accumulation and sources of the heavy metals As, Cd, Co, Cr, Cu, Ni, Pb, Zn, Mo and Tl. Elevated concentrations of most heavy metals in the soils underlain by black shale are determined to exceed the regional soil background values, even the risk screening values, especially for Mo, As and Cd. Sequential extraction analysis, together with previous results, reveals that most heavy metals in soils are mainly bound in the residual fraction (> 65 %) as a result of the fixation of stable aluminosilicates (e.g., clay minerals). In contrast, Cd mainly occurs in relatively labile proportions as exchangeable (24.42 %), carbonate (24.48 %) and Fe/Mn oxide fractions (26.60 %) due to the non-specific adsorption of soil colloids and the precipitation of carbonates and Fe/Mn oxides. Pb isotopic tracing and APCS/MLR receptor model suggest that heavy metals in the urban surface soils (SG1) have a mixed source of black shale weathering, vehicle exhaust and agricultural input, while heavy metals in the rural surface soils (SG2) are a geogenic source of black shale weathering. Overall, this study provides new insights into contamination management, land use planning and health risk assessment in regions with high geochemical backgrounds.
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