Biodegradation – Page 2

Isolation of Fungi from a Textile Industry Effluent and the Screening of Their Potential to Degrade Industrial Dyes

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Researchers isolated six fungal strains from textile factory wastewater and tested their ability to remove industrial dyes. Two types of fungi, Emmia latemarginata and Mucor circinelloides, successfully broke down different synthetic dyes commonly used in textile production. The fungi produced specific enzymes that degraded the dyes, particularly when exposed to the dye itself or plant materials like wheat straw. These findings suggest these fungi could potentially be used to clean up colored wastewater from textile industries.

Novel Approach in Biodegradation of Synthetic Thermoplastic Polymers: An Overview

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This review explores how microorganisms like fungi and bacteria can break down plastic waste, which is a major environmental problem. Plastic bags and packaging materials take thousands of years to decompose naturally, but certain fungi produce special enzymes that can degrade plastics more quickly. The research suggests that using biodegradable plastics and microbial degradation could be promising solutions to reduce plastic pollution in soil and marine environments.

Benefits of Immobilized Bacteria in Bioremediation of Sites Contaminated with Toxic Organic Compounds

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This review explains how immobilizing bacteria on solid carriers like biochar can make them much more effective at cleaning up polluted soil and water. When bacteria are attached to a matrix material, they form protective biofilms that help them survive toxic pollutants better than free-floating bacteria. By combining immobilized bacteria with the right carrier materials, environmental cleanup can be faster, cheaper, and more sustainable than traditional chemical methods.

Natural-selected plastics biodegradation species and enzymes in landfills

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Landfills contain billions of tons of plastic waste that can take centuries to decompose naturally. This research discovered that landfill microorganisms have evolved to break down plastics through natural selection. Using advanced computer analysis of microbial DNA, scientists identified thousands of potential plastic-degrading enzymes that could be engineered for industrial applications to help clean up plastic pollution.

Water Quality Assessment and Decolourisation of Contaminated Ex-Mining Lake Water Using Bioreactor Dye-Eating Fungus (BioDeF) System: A Real Case Study

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Researchers tested a natural solution for cleaning polluted water from an old mining lake in Malaysia. They used a special fungus called Ganoderma lucidum in a system called BioDeF that acts like a sponge to remove dirt and discoloration from contaminated water. After just 48 hours, this fungus-based system removed over 90% of the water’s brown color, offering a cheap and eco-friendly alternative to traditional water cleaning methods.

Isolation and characterization of marine microorganisms capable of degrading plastics

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Scientists have discovered over 1,500 marine bacteria and fungi that can break down different types of plastic waste. By using optimized culturing methods, they isolated microorganisms capable of degrading common plastics like bottles, foam, and packaging materials. This research provides a foundation for developing biological solutions to address ocean plastic pollution through microbial-based technologies.

Mycoremediation: Expunging environmental pollutants

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Fungi can be used to clean up environmental pollution from industrial waste, pesticides, and heavy metals. Unlike expensive chemical treatments, fungal mycoremediation is cost-effective and environmentally friendly. Fungi produce natural enzymes that break down harmful pollutants into harmless substances, making it a promising solution for protecting soil and water contamination.

Microbial Consortium–Mediated Degradation of Polyethylene Terephthalate in Orthodontic Aligners: A Comprehensive Review

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This review examines how microorganisms can break down plastic used in clear orthodontic aligners (PET plastic). Clear aligners are popular because they are invisible and comfortable, but patients need new ones every 1-2 weeks, creating significant plastic waste. Scientists have discovered bacteria and fungi that produce special enzymes capable of degrading this plastic into harmless components, offering a sustainable alternative to traditional disposal methods like landfilling and incineration.

Bioremediation of Landfill Leachate with Fungi: Autochthonous vs. Allochthonous Strains

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This research compared two approaches to cleaning landfill leachate using fungi: using fungi naturally found in the polluted water versus using well-studied fungi species from laboratory collections. Scientists tested how effectively these fungi could remove color and toxins from contaminated wastewater. The study found that both types of fungi worked reasonably well, but through different mechanisms—some fungi absorbed the pollutants while others chemically broke them down using special enzymes.

Novel method for rapid monitoring of OPFRs by LLE and GC–MS as a tool for assessing biodegradation: validation and applicability

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This study developed a new analytical method to detect and measure organophosphate flame retardants (OPFRs) in water samples. Researchers tested whether certain fungi, particularly white-rot fungi like Ganoderma lucidum and Trametes versicolor, could break down these toxic chemicals that are difficult to remove by conventional water treatment. The results show these fungi can effectively degrade some OPFRs, offering a promising biological treatment option for contaminated wastewater.

Research Keyword: Biodegradation