Research Keyword: bacterial biosorption

Modern-Day Green Strategies for the Removal of Chromium from Wastewater

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Chromium from industries like leather tanning and metal plating contaminates water and soil, causing serious health problems including cancer and organ damage. Scientists have developed eco-friendly methods using bacteria, fungi, plants, and agricultural waste to remove chromium from polluted water at low cost. These biological treatment methods are more sustainable and affordable than traditional chemical approaches, offering a promising solution for cleaning up contaminated environments.

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Isolation of Bacteria from Lead-Contaminated Soil and Bacterial Interaction Test with Plant Growing on Lead-Amended Media

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Researchers discovered special bacteria from lead-contaminated soil that can accumulate and neutralize lead while also producing a plant hormone called IAA. When these bacteria were added to three ornamental plants growing in lead-contaminated soil, the plants grew better and absorbed less lead. This discovery offers a promising natural and sustainable way to clean up lead-polluted environments by combining bacteria and plants.

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Ni2+ and Cd2+ Biosorption Capacity and Redox-Mediated Toxicity Reduction in Bacterial Strains from Highly Contaminated Soils of Uzbekistan

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Researchers in Uzbekistan discovered three types of bacteria that can remove dangerous heavy metals like cadmium and nickel from contaminated soil. These bacteria work by clinging to the metal particles on their surfaces and even chemically transforming them into less harmful forms. The study found that these bacteria work best at neutral pH and warmer temperatures, making them promising candidates for cleaning up polluted environments naturally and affordably.

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Sorption of Heavy Metals (Pb, Cd, Co, and Zn) by Bacteria of the Genus Bacillus: An Investigation of the Ability and Consequences of Bioaccumulation

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Researchers studied how three types of beneficial Bacillus bacteria can remove heavy metals like lead, cadmium, zinc, and cobalt from contaminated environments. The bacteria were most effective at capturing lead, removing up to 53% of the metal from the medium. The study showed these bacteria could potentially be used as probiotic treatments to help remove toxic metals from the body or clean up polluted soil. Microscopic analysis revealed that the metals accumulate on the bacterial cell surface, causing slight changes in bacterial shape and size.

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