Disease: Heavy metal toxicity

Symbiotic Fungus Serendipita indica as a Natural Bioenhancer Against Cadmium Toxicity in Chinese Cabbage

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This research shows that a beneficial fungus called Serendipita indica can help Chinese cabbage plants survive cadmium contamination. When the fungus colonizes plant roots, it triggers the plant’s natural defense systems to produce protective compounds and reduce heavy metal damage. This finding offers farmers an eco-friendly, biological solution for growing vegetables safely in contaminated soils without harmful chemical treatments.

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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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Adaptability assessment of Aspergillus niger and Aspergillus terreus isolated from long-term municipal/industrial effluent-irrigated soils to cadmium stress

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Scientists studied two types of fungi that can survive in soil contaminated with cadmium, a toxic heavy metal from industrial waste. These fungi can accumulate and remove cadmium from their environment while producing protective chemicals that help them survive the metal’s toxic effects. The research shows these fungi could potentially be used as a biological solution to clean up contaminated soils, offering a more sustainable alternative to traditional chemical cleanup methods.

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