Trametes hirsuta – mycolab.ai

Filamentous Fungi Are Potential Bioremediation Agents of Semi-Synthetic Textile Waste

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Researchers tested whether fungi could break down and remove dyes from textile waste as an environmentally friendly alternative to landfilling or burning. A white rot fungus called Hypholoma fasciculare successfully removed over 80% of dye from test textiles within 8 months. This study represents the first successful demonstration of fungi breaking down dyes directly from solid textiles, opening new possibilities for sustainable textile waste management.

Mycoremediation of anthraquinone dyes from textile industries: a mini-review

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Textile factories create large amounts of harmful wastewater containing dyes that damage water ecosystems. Scientists have discovered that certain mushroom fungi can naturally break down these toxic dyes using special enzymes. By growing these fungi on support materials, the treatment becomes even more effective and can be reused multiple times, offering an eco-friendly and cost-effective solution for cleaning contaminated water.

The microbial strategies for the management of chemical pesticides: A comprehensive review

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Chemical pesticides used to protect crops contaminate soil and water, harming both ecosystems and human health. Scientists have discovered that specific microorganisms—bacteria, fungi, and algae—can naturally break down these harmful pesticides into harmless substances. By using advanced technologies to understand how these microbes work and even genetically enhancing them, researchers are developing sustainable solutions to clean up pesticide-contaminated environments without the toxic side effects of traditional cleanup methods.

Systematic Evaluation of Biodegradation of Azo Dyes by Microorganisms: Efficient Species, Physicochemical Factors, and Enzymatic Systems

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Azo dyes used in textiles and fashion contaminate water supplies and pose health risks including cancer potential. This research review shows that certain microorganisms like specific fungi and bacteria can break down these harmful dyes into less toxic substances through natural enzymatic processes. By optimizing conditions like pH and temperature, and using combinations of different microbes, scientists have achieved degradation rates up to 90%, offering an eco-friendly and cost-effective alternative to traditional chemical treatment methods.

The potential of fungi in the bioremediation of pharmaceutically active compounds: a comprehensive review

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Pharmaceutical drugs that we take end up in our water systems because our bodies don’t fully process them. Fungi, especially types of mushrooms, have powerful enzymes that can break down these drug residues and clean contaminated water. Scientists are studying how to use these fungi in treatment systems to remove medications from hospital wastewater and drinking water sources.

Aflatoxin B1 (AFB1) biodegradation by a lignolytic phenoloxidase of Trametes hirsuta

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Scientists discovered that a mushroom called Trametes hirsuta produces a special enzyme that can break down aflatoxin B1, a dangerous toxin that contaminates foods like peanuts, corn, and nuts. This enzyme is unique because it works without needing additional chemicals as helpers, making it practical for real-world use. The enzyme successfully degraded 77.9% of the toxin under simple conditions, and researchers suggest it could be applied directly to contaminated food surfaces as a safe, natural way to reduce food poisoning risks.

Optimization of the Decolorization of the Reactive Black 5 by a Laccase-like Active Cell-Free Supernatant from Coriolopsis gallica

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Textile factories produce large amounts of colored wastewater containing harmful dyes like Reactive Black 5. Researchers optimized an enzyme-based treatment using laccase from a fungus called Coriolopsis gallica to remove these dyes from water. By carefully balancing enzyme concentration, pH, temperature, and a chemical booster called HBT, they achieved 82% dye removal in just 2 hours, offering a cleaner and more environmentally friendly alternative to traditional chemical treatments.

Unlocking the biodegradative potential of native white-rot fungi: a comparative study of fiberbank organic pollutant mycoremediation

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Swedish researchers tested 26 types of white-rot fungi to clean up polluted sediments from old pulp and paper mills called fiberbanks. These contaminated sediments contain harmful chemicals and heavy metals. The study found that three fungal species, especially Diplomitoporus crustulinus, were excellent at breaking down pollutants and could tolerate the toxic environment, making them promising for environmental cleanup efforts.

Degradation of High Concentrations of Anthracene Using White-Rot Wood-Inhabiting Fungi and Investigation of Enzyme Activities

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Scientists in Iran discovered that certain wood-decay fungi, particularly Trametes versicolor mushrooms, can effectively break down anthracene, a toxic pollutant from oil and gas industries. These fungi produce special enzymes that degrade the harmful chemical into less toxic substances. In laboratory tests, these indigenous Iranian fungi successfully removed 20-64% of high-concentration anthracene over four weeks, showing promise for cleaning up contaminated sites.

Pharmaceutical waste management through microbial bioremediation

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Medicines we take are ending up in our water supplies and harming ecosystems. Instead of using expensive chemical treatments, scientists are using microorganisms like fungi and bacteria to break down pharmaceutical waste into harmless substances. This biological approach is cheaper and more environmentally friendly, though challenges remain in scaling up the technology. Additionally, designing medicines that naturally degrade after leaving the body could prevent pollution at its source.

Fungal Species: Trametes hirsuta