white rot fungi – Page 2

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

mycolabadmin

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.

Searching for Chemical Agents Suppressing Substrate Microbiota in White-Rot Fungi Large-Scale Cultivation

mycolabadmin

This research addresses a practical challenge in growing edible mushrooms and using fungi to clean polluted materials: unwanted bacteria and molds prevent beneficial white-rot fungi from growing. Scientists tested various cheap chemicals to find which ones kill unwanted microbes while letting white-rot fungi thrive. They discovered that hydrogen peroxide at 1.5-3% concentration works best, effectively eliminating competing microorganisms without harming the desired fungi, making large-scale mushroom farming and pollution cleanup more feasible and economical.

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

mycolabadmin

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.

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

mycolabadmin

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.

Use of Ganoderma lucidum grown on agricultural waste to remove antibiotics from water

mycolabadmin

Researchers discovered that a type of mushroom called Ganoderma lucidum can help clean water contaminated with antibiotics. When the mushroom is grown on leftover agricultural materials like almond shells and coffee grounds, its root-like structure can remove certain antibiotics from water in just three days. This offers a cheap and sustainable way to address antibiotic pollution that contributes to antibiotic-resistant infections.

Pleurotus spp.—an effective way in degradation mycotoxins? A comprehensive review

mycolabadmin

This review examines how oyster mushrooms (Pleurotus species) can break down mycotoxins—harmful compounds produced by molds in food and animal feed. These mushrooms produce special enzymes that can degrade toxins like aflatoxins and zearalenone, potentially reaching 30-100% degradation depending on conditions. This offers a safer, more environmentally friendly alternative to chemical detoxification methods currently used in the food industry.

Organic Nitrogen Supplementation Increases Vegetative and Reproductive Biomass in a Versatile White Rot Fungus

mycolabadmin

Researchers studied how adding nitrogen from plant litter affects the growth and mushroom production of a wood-rotting fungus called Cyclocybe aegerita. They found that adding the organic compound adenosine—which naturally occurs in plant litter—significantly boosted both the fungus’s vegetative growth and the production of mushrooms. The results suggest that fungi living in wood benefit from being able to absorb nitrogen-rich compounds from nearby plant material, which improves their ability to grow and reproduce.

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

mycolabadmin

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.

Characterization of Self-Growing Biomaterials Made of Fungal Mycelium and Various Lignocellulose-Containing Ingredients

mycolabadmin

Scientists developed environmentally-friendly foam-like materials by growing mushroom mycelium (the root-like network of fungi) on agricultural waste like hemp and sawdust. These natural composites are strong, biodegradable, and can be used for packaging or insulation instead of plastic foam. However, they absorb water easily and can develop mold if exposed to moisture, so they need protective coatings for some applications.

Biologically active secondary metabolites from white-rot fungi

mycolabadmin

White-rot fungi are special mushrooms that can break down wood and produce unique chemical compounds with amazing health benefits. These compounds have been found to fight cancer, kill harmful bacteria, reduce inflammation, and protect nerve cells. Scientists are excited about using these natural fungal compounds to create new medicines and treat various diseases in the future.

Research Keyword: white rot fungi