therapeutic action: metal immobilization

Microbial diversity at remediated former gold and copper mines and the metal tolerance of indigenous microbial strains

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This research examined microorganisms living in abandoned gold and copper mines in the Czech Republic to understand how they survive in toxic, metal-rich environments. Scientists identified bacteria and fungi that can tolerate high concentrations of heavy metals and other contaminants. These microorganisms could potentially be used to clean up polluted mine water naturally, offering a sustainable alternative to traditional treatment methods.

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Cadmium and Lead Tolerance of Filamentous Fungi Isolated from Contaminated Mining Soils

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Researchers found several types of fungi thriving in extremely contaminated mining soils in Mexico. These fungi can survive in environments with toxic levels of lead and cadmium that would kill most organisms. The most promising fungus, Paecilomyces lilacinus, can tolerate both metals and could potentially be used to clean up heavily polluted mining sites by binding and immobilizing these dangerous metals in the soil.

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Cadmium and Lead Tolerance of Filamentous Fungi Isolated from Contaminated Mining Soils

mycolabadmin

Researchers isolated six types of fungi from mining-contaminated soil in Mexico that can survive in extremely toxic environments with high levels of lead and cadmium. These fungi have developed special strategies to handle these dangerous metals, with one species, Paecilomyces lilacinus, showing exceptional ability to tolerate both metals simultaneously. These findings suggest these fungi could be used to clean up contaminated soils in mining regions, offering hope for environmental remediation efforts.

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