white rot fungi – mycolab.ai

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

mycolabadmin

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.

From purposeless residues to biocomposites: A hyphae made connection

mycolabadmin

Researchers developed eco-friendly packaging materials using mushroom mycelium and agricultural waste from fruit and sugar cane processing. Two native Colombian fungal species were grown on leftover fruit peels and bagasse to create lightweight, biodegradable composites. From just 50 kilograms of fruit peel waste, nearly 1,840 cups can be manufactured, offering a sustainable alternative to plastic packaging that naturally decomposes after use.

Application of Fungus Enzymes in Spent Mushroom Composts from Edible Mushroom Cultivation for Phthalate Removal

mycolabadmin

This research shows that leftover mushroom growing material (spent compost) can be used to clean phthalates from wastewater. Phthalates are harmful chemicals found in plastics that can damage human health. Scientists tested four types of mushroom composts and found they all worked, with the best results removing 99% of certain phthalates. This provides an affordable, eco-friendly way to treat polluted water.

Biotransformation of the Fluoroquinolone Antibiotic, Levofloxacin, by the Free and Immobilized Secretome of Coriolopsis gallica

mycolabadmin

Researchers discovered that a type of fungus called Coriolopsis gallica can break down the antibiotic levofloxacin, which persists in the environment and contributes to antibiotic resistance. They tested both free enzymes from the fungus and enzymes trapped in alginate beads to see which worked better. The study found that free enzymes degraded more of the antibiotic when a chemical helper molecule called HBT was added, while immobilized enzymes were more stable and could be reused multiple times.

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

mycolabadmin

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.

Techno-economic analysis of a novel laccase production process utilizing perennial biomass and the aqueous phase of bio-oil

mycolabadmin

Researchers developed a new method to produce laccase, a useful enzyme with many industrial applications, by growing oyster mushrooms on prairie plants and waste materials from bio-oil production. Through optimization experiments and economic modeling, they found that this process could produce laccase at prices significantly lower than current commercial enzyme products, making it economically viable at small to moderate production scales. The method has the added benefit of providing farmers with a financial incentive to grow perennial prairie plants instead of traditional crops, supporting ecological and soil health improvements.

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

mycolabadmin

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.

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

mycolabadmin

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.

High Potential Decolourisation of Textile Dyes from Wastewater by Manganese Peroxidase Production of Newly Immobilised Trametes hirsuta PW17-41 and FTIR Analysis

mycolabadmin

This research shows that a fungus called Trametes hirsuta can effectively clean textile industry wastewater by breaking down colorful dyes that pollute the environment. The scientists attached the fungus to nylon sponges and optimized the treatment conditions to achieve over 95% color removal within just two days. The fungus produces special enzymes, particularly manganese peroxidase, that degrade the harmful dyes into safer substances, and the system can be reused repeatedly for continuous wastewater treatment.

Fungal Ligninolytic Enzymes and Their Application in Biomass Lignin Pretreatment

mycolabadmin

Scientists tested ten different types of fungi to see which ones could best break down lignin, a tough natural material found in plants. Four fungi species showed exceptional ability to produce special enzymes that decompose lignin. These findings could help develop new eco-friendly industrial processes for converting plant waste into useful products, potentially reducing reliance on chemical treatments and fossil fuels.

Research Keyword: white rot fungi