Environmental remediation – Page 5

White Rot Fungi as Tools for the Bioremediation of Xenobiotics: A Review

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White rot fungi are nature’s cleanup crew that can break down many toxic chemicals in our environment, from industrial dyes to pesticides. These special fungi produce powerful enzymes that can degrade pollutants that normally resist breakdown, making them promising tools for cleaning contaminated soil and water. Scientists are studying how to better harness these fungi’s abilities to treat industrial wastewater and restore polluted environments.

Recent advances in microbial engineering approaches for wastewater treatment: a review

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This review explains how microorganisms like bacteria, fungi, and algae can clean polluted water more effectively and cheaply than traditional methods. These microbes break down harmful chemicals, remove heavy metals, and clean industrial waste. Using multiple types of microbes together (microbial consortium) works better than using a single type, making it an environmentally friendly and economical solution for treating wastewater worldwide.

Ecological indicators and biological resources for hydrocarbon rhizoremediation in a protected area

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A gasoline pipeline spill contaminated a protected nature area in Italy, threatening rare fish species. Scientists tested whether plants and natural bacteria could clean up the pollution. They found that corn and sunflower plants, combined with bacteria from the soil, could remove about 70-80% of the petroleum pollution in just 38 days. The study showed this approach could successfully restore the protected area without expensive chemical treatments.

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.

Potential biodegradation of polycyclic aromatic hydrocarbons (PAHs) and petroleum hydrocarbons by indigenous fungi recovered from crude oil-contaminated soil in Iran

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Scientists isolated fungi from oil-contaminated soil in Iran to find species that can break down petroleum pollutants. Two fungi species, Alternaria tenuissima and Epicoccum nigrum, showed exceptional ability to degrade harmful oil compounds called PAHs. When applied to contaminated soil in the laboratory, these fungi successfully eliminated over 70% of the long-chain hydrocarbons. This research offers a natural and cost-effective way to clean up oil-spilled soil without using harsh chemicals.

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.

Nano-bioremediation of metal-polluted industrial wastewater using myco-synthesized iron oxide nanoparticles derived from Aspergillus niger AUMC 16028

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Scientists have developed a green method to clean polluted industrial water using specially grown fungal nanoparticles. These tiny iron particles, made from Aspergillus niger fungus, can effectively remove dangerous heavy metals like copper, zinc, and iron from contaminated water. This eco-friendly approach is cheaper and safer than traditional chemical methods, offering a promising solution for protecting our water resources.

Advances in the Degradation of Polycyclic Aromatic Hydrocarbons by Yeasts: A Review

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This review explores how yeasts, tiny single-celled fungi, can clean up environments contaminated with polycyclic aromatic hydrocarbons (PAHs) – harmful chemicals produced by car emissions, factories, and burning. These yeasts use special enzymes to break down these toxic compounds into less harmful substances, making them a promising natural solution for environmental cleanup. Scientists are also improving these yeasts through genetic engineering to make them even more effective at removing pollution.

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.

Bioremediation potential of low-brominated polybrominated diphenyl by the phyllospheric Wickerhamomyces anomalus

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Researchers discovered that a common yeast living on tree leaves can help remove harmful brominated chemicals (PBDEs) from the environment. By studying the genes this yeast uses to survive these toxic chemicals, scientists identified a key transport protein that could help plants better tolerate and accumulate these pollutants. This finding suggests that this yeast could be used as a biological tool to clean up areas contaminated with these persistent toxic chemicals.

Research Keyword: Environmental remediation