Growing concern over soil degradation and the demand for sustainable solutions have driven research into remediation technologies. This study aimed to evaluate the morphological, physiological, and phytochemical responses of Larrea cuneifolia, Bulnesia retama, Plectrocarpa tetracantha, and Neltuma flexuosa seedlings exposed to mining waste contaminated soil during early developmental stages. Plants were cultivated for 90 days in soils amended with increasing concentrations of mining waste. Higher waste proportions resulted in a dose-dependent increase in metal(loid)s concentrations and soil acidification. All species survived in soils containing up to 1572.6 mg kg−1 As, 25.6 mg kg−1 Cu, 33.0 mg kg−1 Cd, and 742.6 mg kg−1 Zn. Metal(loid)s accumulation occurred predominantly in roots, reaching 1895.1 mg kg−1 Zn in P. tetracantha and 2223.2 mg kg−1 As in B. retama. The presence of metal(loid)s in leaf and stem tissues was confirmed by SEM-EDX analysis. Elevated MDA levels, combined with low POX and APX activities, indicated a limited antioxidant response. Additionally, the abundance of yeast and bacterial colonies increased across all soil treatments associated with the studied native species. These results demonstrate remarkable tolerance of native species to multi-metal contamination and underscore their potential for cost-effective, nature-based strategies to restore mining-impacted soils in arid regions.
Heredia et al. (Sun,) studied this question.