Research Keyword: mineralization

The effect of calcium on the removal of Cd2+ in the formation of biogenic secondary iron minerals

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Acid mine drainage from mining operations contains toxic cadmium that pollutes water supplies. This research shows that naturally occurring bacteria (Acidithiobacillus ferrooxidans) can help remove cadmium by forming iron minerals. Adding calcium and potassium ions together significantly improves this process, with cadmium being trapped in mineral precipitates rather than just adsorbed to surfaces. This biological approach offers a practical and sustainable method for treating contaminated mining water.

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Current state of the heavy metal pollution, microbial diversity, and bioremediation experiments around the Qixia Mountain lead–zinc mine in Nanjing, China

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A lead-zinc mine in Nanjing, China has contaminated surrounding soils with dangerous heavy metals like lead, zinc, and cadmium over 70 years of operation. Researchers discovered that combining amaranth plants with a beneficial bacterium called Bacillus velezensis dramatically reduced heavy metal pollution in soil, lowering pollution levels from severely contaminated to acceptable levels. This plant-microorganism approach also improved plant growth while reducing heavy metal uptake in the edible parts of crops, offering a practical solution to make farmland around mines safer for growing food.

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Novel Approach in Biodegradation of Synthetic Thermoplastic Polymers: An Overview

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This review explores how microorganisms like fungi and bacteria can break down plastic waste, which is a major environmental problem. Plastic bags and packaging materials take thousands of years to decompose naturally, but certain fungi produce special enzymes that can degrade plastics more quickly. The research suggests that using biodegradable plastics and microbial degradation could be promising solutions to reduce plastic pollution in soil and marine environments.

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