Abstract
The use of native plants for reforestation and/or remediation in areas contaminated by mining is a technique with low implantation and maintenance costs. The success of this practice depends on the plant species and geochemical processes at the soil–plant interface (e.g., rhizosphere). This study evaluated the potential of spontaneous species for mobilizing and altering mineral and metal dynamics in the rhizosphere of Cu-rich soils resulting from the abandoned Pedra Verde mine in NE Brazil. Rhizosphere and bulk soil samples were collected from five shrubby/arboreal species. The pH, organic matter content, Cu fractionation, mineralogical characterization, and Cu content in the leaves and roots of all studied species were determined. In addition, the bioaccumulation factor (BCF) and translocation factor (TF) were used to evaluate the potential of these species for Cu hyperaccumulation. The Cu concentration in leaf plant tissues varied from 18 to 34 mg kg−1, and all plants presented TF and BCF < 1, indicating that the species were not Cu hyperaccumulators. However, the root exudates induce mineral dissolution, indicating potential Cu accumulation in the roots (from 36 to 249 mg kg−1). Combretum aff. pisoniodes Taub was the species with the greatest potential for decreasing Cu bioavailability and phytostabilization. Our findings indicate the potential of native Brazilian plants for growth in Cu-contaminated soil. These findings may be used for reforestation programs.
Highlights
IntroductionThe loss of soil structure, a decrease in soil organic matter content, extreme pH (alkaline or acidic) values, and high metal contents are the most commonly reported impacts [1,2,3,4]
Soils within abandoned mining areas are commonly associated with acute impacts on their physical and chemical characteristics
The greatest pH value was observed for Combretum aff
Summary
The loss of soil structure, a decrease in soil organic matter content, extreme pH (alkaline or acidic) values, and high metal contents are the most commonly reported impacts [1,2,3,4] These impacts on soils limit the establishment of successional vegetation or reclamation practices within abandoned mining areas [5] and expose adjacent compartments (e.g., surrounding soils, streams, rivers, and groundwater) to contamination risks [6,7]. In this sense, cost-effective and environmentally friendly reclamation technologies such as plant-based approaches are some of the most successful techniques for remediating polluted soil from abandoned mining sites [8,9]. Phytostabilization involves the use of plants to reduce the mobility of contaminants (e.g., metals) in contaminated environments via pollutant accumulation or immobilization in their roots or rhizosphere [17]
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