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Microbial strategies for lead remediation in agricultural soils and wastewater: mechanisms, applications, and future directions

Isma Gul, Muhammad Faheem Adil, Fenglin Lv, Tingting Li, Yi Chen, Heli Lu, Muhammad İ̇rfan Ahamad, Siqi Lu, Wanfu Feng

2024Frontiers in Microbiology32 citationsDOIOpen Access PDF

Abstract

High lead (Pb) levels in agricultural soil and wastewater threaten ecosystems and organism health. Microbial remediation is a cost-effective, efficient, and eco-friendly alternative to traditional physical or chemical methods for Pb remediation. Previous research indicates that micro-organisms employ various strategies to combat Pb pollution, including biosorption, bioprecipitation, biomineralization, and bioaccumulation. This study delves into recent advancements in Pb-remediation techniques utilizing bacteria, fungi, and microalgae, elucidating their detoxification pathways and the factors that influence Pb removal through specific case studies. It investigates how bacteria immobilize Pb by generating nanoparticles that convert dissolved lead (Pb-II) into less harmful forms to mitigate its adverse impacts. Furthermore, the current review explores the molecular-level mechanisms and genetic engineering techniques through which microbes develop resistance to Pb. We outline the challenges and potential avenues for research in microbial remediation of Pb-polluted habitats, exploring the interplay between Pb and micro-organisms and their potential in Pb removal.

Topics & Concepts

Environmental remediationBioaccumulationBiosorptionEnvironmental scienceWastewaterLead (geology)Environmental chemistryOrganismEnvironmental biotechnologyBiomineralizationBiochemical engineeringEnvironmental engineeringContaminationEcologyMicroorganismChemistryBiologyBacteriaEngineeringAdsorptionGeneticsSorptionPaleontologyOrganic chemistryChromium effects and bioremediationMicrobial Fuel Cells and BioremediationBacterial biofilms and quorum sensing
Microbial strategies for lead remediation in agricultural soils and wastewater: mechanisms, applications, and future directions | Litcius