Litcius/Paper detail

Rhizosphere microbiome of plants used in phytoremediation of mine tailing dams

Emmanuel Tetteh Doku, Augustina Angelina Sylverken, Ebenezer J. D. Belford

2024International Journal of Phytoremediation10 citationsDOI

Abstract

Rhizospheric microbial communities improve the effectiveness of hyperaccumulators in the phytoremediation of heavy metals. However, limited access to tailing dams and inadequate assessment of plants’ phytoremediation potential limit the characterization of native accumulators, hindering the effectiveness of local remediation efforts. This study evaluates the heavy metal sequestration potentials of Pennisetum purpureum, Leucaena leucocephala, and Pteris vittata and their associated rhizospheric microbial communities at the Marlu and Pompora tailing dams in Ghana. The results indicate shoot hyperaccumulation of Cd (334.5 ± 6.3 mg/kg) and Fe (10,647.0 ± 12.6 mg/kg) in P. purpureum and L. leucocephala, respectively. Analysis of rhizospheric bacterial communities revealed the impact of heavy metal contamination on bacterial community composition, associating Fe and Cd hyperaccumulation with Bacillus, Arthrobacter, and Sphingomonas species. This study reports the hyperaccumulation potentials of L. leucocephala and P. purpureum enhanced by associated rhizosphere bacterial communities, suggesting their potential application as an environmentally friendly remediation process of heavy metals contaminated lands.

Topics & Concepts

PhytoremediationHyperaccumulatorRhizospherePteris vittataEnvironmental remediationBioremediationLeucaena leucocephalaPennisetum purpureumSoil contaminationBiologyBotanyAgronomyEnvironmental scienceEnvironmental chemistryHeavy metalsContaminationChemistryEcologyBacteriaDry matterGeneticsHeavy metals in environmentChromium effects and bioremediationMine drainage and remediation techniques