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The Strategies Microalgae Adopt to Counteract the Toxic Effect of Heavy Metals

Xinyue Yang, Yuxin Wei, Yan‐Qiu Su, Zhongwei Zhang, Xiaoyan Tang, Yang‐Er Chen, Ming Yuan, Shu Yuan

2025Microorganisms19 citationsDOIOpen Access PDF

Abstract

Besides biomass production, some microalgae have been used to treat wastewater contamination. However, in general, high concentrations of heavy metals significantly inhibit algal growth. We thus need to find ways to promote the resistance of microalgae to heavy metals, increase their growth rate under stress, and achieve coupling of heavy metal removal and biomass production simultaneously. In this review, mechanisms for removal of heavy metals by microalgae are proposed. Effects of exogenous chemical additives (dissolved organic matters, formaldehyde, sulphate, phosphate, nitric oxide donors, etc.) on algal biosorption to heavy metals are summarized. Genetic manipulation and microalgal strain selection strategies are also introduced, especially for the acid-tolerant strains with high biosorption efficiencies to Cr(VI) and Cd2+ at low pH conditions. Recent advances in (semi)continuous heavy-metal-bioremediation and biomass-production coupled system with immobilized microalgae, as well as challenges and solutions to the commercialization and industrialization of the coupled system were discussed.

Topics & Concepts

BiosorptionBioremediationBiomass (ecology)Heavy metalsEnvironmental chemistryChemistryMetalWastewaterEnvironmental scienceSewage treatmentPulp and paper industryContaminationEnvironmental engineeringBiologyEcologyAdsorptionOrganic chemistrySorptionEngineeringAlgal biology and biofuel productionElectrochemical sensors and biosensors