Research Keyword: Bioremediation strategies

Soil polluted system shapes endophytic fungi communities associated with Arundo donax: a field experiment

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Mining activities pollute soils with heavy metals and red mud waste, damaging ecosystems and making plant growth difficult. This study examined fungi living inside the roots of Arundo donax, a hardy plant that survives in polluted soils, grown in three soil types: clean, heavy metal-contaminated, and red mud-contaminated. The researchers found that fungal communities changed based on the type of pollution, with a fungus called Pleosporales sp. thriving in red mud and showing promise for helping clean up contaminated soils. This research suggests that understanding these beneficial fungi could improve strategies for using plants to remediate polluted environments.

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Phyto- and Microbial-Based Remediation of Rare-Earth-Element-Polluted Soil

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Rare-earth elements from mining and industry accumulate in soil, posing environmental and health risks. This review explores how plants and beneficial microorganisms can work together to clean up contaminated soil by absorbing or immobilizing these elements. The combined approach of using specific plant species alongside soil microorganisms is more effective than using either method alone, offering a natural and cost-effective solution for soil remediation.

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Comprehensive whole metagenomics analysis uncovers microbial community and resistome variability across anthropogenically contaminated soils in urban and suburban areas of Tamil Nadu, India

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Researchers analyzed soil samples from eight polluted locations in India to understand how microbes adapt to heavy metal and chemical contamination. They discovered that contaminated soils harbor many bacteria with antibiotic resistance genes and genes that help them survive toxic metals. The most common resistance mechanism was through special pumps that bacteria use to expel antibiotics. This research highlights how polluted environments become reservoirs of antibiotic-resistant bacteria, emphasizing the need for targeted cleanup strategies to protect human and environmental health.

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Advancements in Biochar for Soil Remediation of Heavy Metals and/or Organic Pollutants

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Biochar, a carbon-rich material made from burning plant waste with limited oxygen, can effectively clean polluted soil by trapping harmful chemicals and metals. When mixed into contaminated soil, biochar’s porous structure acts like a sponge to capture pesticides, petroleum products, and toxic metals, preventing them from spreading into groundwater or being absorbed by plants. Scientists have found that combining biochar with plants and beneficial bacteria creates an even more effective cleaning system that can remediate severely contaminated sites.

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Toxicity Characterization, Detection and Remediation of Contaminants in Soils and Groundwater

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This research paper reviews new methods for cleaning up contaminated soil and groundwater caused by industries and pollution. Scientists are using advanced technologies like special sensors, artificial intelligence, and engineered bacteria to find and remove toxic chemicals more effectively. The findings show that treating contamination requires combining multiple cleanup methods together and considering the local environment, making remediation more successful and sustainable for communities.

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