Distribution and secondary enrichment of heavy metal elements in karstic soils with high geochemical background in Guangxi, China.

Karst environments are globally significant, and the soils that develop on these landscapes often have unique geochemical features, including elevated–levels of metals. However, it has not been determined whether the enrichment of metals in soils is mainly controlled by parent rocks or secondary enrichment during weathering. In this paper, we studied the control of the accumulation of heavy metals in soils by parent materials and/or the process of soil formation. We examined the un–weathered carbonate and clastic bedrocks, as well as surface soils in a typical karst area in Guangxi of China. The spatial distribution of heavy metal (Cd, As, Cr, Cu, Hg, Ni, Pb, and Zn) concentrations in soils was mainly controlled by the geological background. Except for Cd, the concentrations of heavy metals in carbonate rocks were much lower than those in clastic rocks, whereas the soils derived from the carbonate rocks were highly enriched with heavy metals than those in clastic area. The enrichment of Cd in surface soils from the carbonate substrates was the result of the dual effect of secondary enrichment and parent rock inheritance, whereas the enrichment of other metals was mainly the result of secondary enrichment. During the weathering process of carbonate bedrock, great majority of the quantities of inherent heavy metals were leached, with only 2% of Cd being retained in situ. The high concentrations of soil Fe, Al, and Mn oxides, organic carbon and clay content (Al 2 O 3 /SiO 2) were closely related to the enrichment of heavy metals in studied surface soils. • Geological background controlled spatial distribution of soil metal concentrations. • Secondary enrichment and bedrock inheritance caused Cd enrichment in karstic soil. • Secondary enrichment caused the other metal (As, Cr, Cu, Hg, Ni, Pb, and Zn) enrichment in karstic soil. • 2% of Cd being retained in situ during the weathering of carbonate bedrock. • Soil Fe/Al/Mn oxides, organic carbon and clay content controlled metal accumulation in soils. [ABSTRACT FROM AUTHOR]