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Adsorbents Used for Microcystin Removal from Water Sources: Current Knowledge and Future Prospects

Widad El Bouaidi, Ghizlane Enaime, Mohammed Loudiki, Abdelrani Yaacoubi, Mountasser Douma, Abdelaziz Ounas, Manfred Lübken

2022Processes19 citationsDOIOpen Access PDF

Abstract

The increasing occurrence of toxic cyanobacteria in water sources, driven by climate change and eutrophication, is of great concern worldwide today. Cyanobacterial blooms can negatively affect water bodies and generate harmful secondary metabolites, namely microcystins (MCs), which significantly impair water quality. Various adsorbents used for MC removal from water sources were assessed in this investigation. Activated carbon constitutes the most widely used adsorbent for treating contaminated waters due to its high affinity for adsorbing MCs. Alternative adsorbents have also been proposed and reported to provide higher efficiency, but the studies carried out so far in this regard are still insufficient. The mechanisms implicated in MC adsorption upon different adsorbents should be further detailed for a better optimization of the adsorption process. Certainly, adsorbent characteristics, water pH and temperature are the main factors influencing the adsorption of MCs. In this context, optimization studies must be performed considering the effectiveness, economic aspects associated with each adsorbent. This review provides guidelines for more practical field applications of the adsorption in the treatment of waters actually contaminated with MCs.

Topics & Concepts

AdsorptionMicrocystinEnvironmental scienceWater treatmentWater qualityContext (archaeology)EutrophicationActivated carbonEnvironmental chemistryContaminated waterBiochemical engineeringCyanobacteriaChemistryEnvironmental engineeringEcologyBiologyEngineeringNutrientOrganic chemistryPaleontologyGeneticsBacteriaAquatic Ecosystems and Phytoplankton DynamicsConstructed Wetlands for Wastewater TreatmentMarine and coastal ecosystems
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