Phytoremediation and genetic adaptation potential of Jatropha curcas on heavy metals enriched mine tailings

Abstract

BackgroundPhytoremediation is aninexpensive green method that uses metal-tolerant plants to extract these contaminants and restore the soil. MethodsThe phytoremediation potential and genomic DNA/genetic adaptability nature of Jatropha curcas was investigated by 90 days of greenhouse experiment.The genomic DNA stability was determined through RAPD analysis. Soil characterization results the magnesite mine tailing physicochemical parameters (pH, Total carbon, Total hardness, NPK, Cr, Pb, Mn, and Cd) were beyond the acceptable limits. Thus, the mine soil diluted with fertile soil (group a-f) to create different treatment groups. Significant FindingsThe results stated that soil diluted with maximum quantity of fertile soil showed maximum growth and considerably extracted the metals from the soil compared to undiluted (group e) soil and other groups. The BAF and TF values strongly suggests that the J.curcas is suitable candidature with phytoextraction potential. The RAPD analysis on whole genomic DNA revealed that the plan possesses considerable metal adaptation potential under metal stress condition confirmed by GTS and DNA polymorphism analyses through RAPD and also TSP analyses. Hence, this J. curcas can be employed as considerable plant with phytoextraction (as hyperaccumulator) potential to remove the heavy metals from the soil.