Research Keyword: Phytoremediation

Impact of sublethal zinc exposure on ectomycorrhizal Laccaria bicolor x poplar symbiosis

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This research examines how a fungus called Laccaria bicolor helps poplar trees survive in soil contaminated with excess zinc. The study found that even under zinc stress, the fungus and tree can maintain their symbiotic partnership, though both grow slower and the fungal layer around roots thins. The fungus activates special defense mechanisms and transporter proteins to manage zinc levels and protect the tree host, demonstrating remarkable resilience of this natural partnership.

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Root zone microbial communities of Artemisia ordosica Krasch. at different successional stages in Mu US Sandy Land: a metagenomic perspective with culturomics insights

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Researchers studied the bacteria and fungi living around the roots of a desert plant called Artemisia ordosica that helps prevent sand dunes from spreading in China. By analyzing DNA and growing microbes in the lab, they found different communities of microorganisms at different stages of sand dune recovery. Key beneficial microbes like Bacillus and Penicillium were identified, which may help the plant survive in harsh, nutrient-poor sandy soils.

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Native Fungi as a Nature-Based Solution to Mitigate Toxic Metal(loid) Accumulation in Rice

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Rice farmers dealing with contaminated soils now have a natural solution: specially selected fungi can be added to the soil to help reduce toxic metal accumulation in rice plants. In a greenhouse study, native fungi reduced arsenic uptake by up to 75% when combined with specific water management practices. This approach offers an environmentally friendly alternative to traditional remediation methods while promoting sustainable agriculture in metal-contaminated areas.

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Review: roles of mycorrhizal symbioses and associated soil microbiomes in ecological restoration

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This comprehensive review explains how underground fungal networks and soil microbes are essential for restoring damaged lands, particularly those contaminated by mining or pollution. The research shows that using native fungal communities from early successional stages, rather than introduced or late-stage species, significantly improves restoration success. Specific plant species like fescues work particularly well with these fungal partners, and combining different microbial species creates synergistic effects that boost plant growth and reduce contaminants in soil.

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Phytostabilization of Heavy Metals and Fungal Community Response in Manganese Slag under the Mediation of Soil Amendments and Plants

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This research shows that adding spent mushroom compost and a mineral amendment called attapulgite to contaminated mining waste, combined with planting a hardy tree species, significantly reduces heavy metal pollution. The tree and amendments work together by improving soil quality and promoting beneficial fungi that help stabilize harmful metals in the soil, preventing them from leaching into groundwater and surrounding ecosystems.

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