Capacity of the Fungi Trichoderma Koningiopsis and Talaromyces Verruculosus for Hg Leaching, Immobilization and Absorption During the Dissolution of Cinnabar
2025
Clarisse Balland | Vanessa Alphonse | My Dung Jusselme | Samir Abbad-Andaloussi | Noureddine Bousserrhine
The present study investigates the potential capacity of fungi for the use in mercury (Hg) leaching and immobilization during the dissolution of cinnabar ore, the updated understanding of the mechanisms involved, and the evaluation of Hg absorption by these fungal strains. Two fungal strains are isolated from Hg-polluted soils in French Guiana and identified as <i>Trichoderma koningiopsis</i> and <i>Talaromyces verruculosus</i>. These fungal strains possess a high capacity for Hg resistance. The Hg concentrations causing 50% growth reduction (EC<sub>50</sub>) are 5.9 and 1.5 ppm for <i>T. koningiopsis</i> and <i>T. verruculosus</i>, respectively. The results of medium-culture-containing cinnabar ore show that these fungal strains remove over 99% of the Hg content in the culture media by the end of the experiment. Fungal biomass decreases with increasing mercury concentration. The production of organic acids by fungi is observed for both fungal strains, leading to an acidic pH in the medium culture. Oxalic and citric acids are preferentially produced to dissolve Fe from minerals, which may impact Hg leaching. The results of this study provide evidence that the two fungi seem to have potential use for the bioremediation of Hg during the dissolution of cinnabar ores through biosorption mechanisms.
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