mycoremediation – Page 4

The removal of black ink via Emericella quadrilineata as a green alternative technique to recycling ink waste papers

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Researchers discovered that a fungus called Aspergillus quadrilineatus can effectively remove black ink from waste paper, offering an eco-friendly alternative to harmful chemical deinking methods. Under optimal conditions, the fungus removed 97% of ink in just 6 days by absorbing it onto its surface and breaking it down with special enzymes. This biological approach could help reduce environmental pollution from paper recycling while making the process more cost-effective and sustainable.

Bioaccumulation and physiological changes in the fruiting body of Agaricus bisporus (Large) sing in response to cadmium

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This research shows that button mushrooms (Agaricus bisporus) can absorb and accumulate harmful cadmium from contaminated soil. When exposed to cadmium stress, the mushrooms increase their protective chemical defenses, including antioxidant enzymes and organic acids, to survive the toxic conditions. The study demonstrates that these edible mushrooms could potentially be used as a practical and cost-effective method to clean up cadmium-polluted soils.

Mycoremediation of Petroleum-Contaminated Soil Using Native Ganoderma and Trametes Strains from the Ecuadorian Amazon

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Researchers from Ecuador tested native fungi from the Amazon rainforest for their ability to clean up oil-contaminated soil. Five fungal species were found to remove over 96% of petroleum hydrocarbons in just 60 days through their natural enzymatic systems. These results show that fungi from biodiverse regions could offer an affordable and sustainable alternative to traditional soil cleanup methods, particularly important for communities affected by oil extraction pollution.

Adaptability assessment of Aspergillus niger and Aspergillus terreus isolated from long-term municipal/industrial effluent-irrigated soils to cadmium stress

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Scientists studied two types of fungi that can survive in soil contaminated with cadmium, a toxic heavy metal from industrial waste. These fungi can accumulate and remove cadmium from their environment while producing protective chemicals that help them survive the metal’s toxic effects. The research shows these fungi could potentially be used as a biological solution to clean up contaminated soils, offering a more sustainable alternative to traditional chemical cleanup methods.

Impact of bottom ash addition on Pleurotus ostreatus cultivation on coffee ground substrate

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This study investigated growing oyster mushrooms on a mixture of used coffee grounds and coal plant bottom ash. The researchers found that adding small amounts of bottom ash (1-5%) slowed mushroom growth slightly but actually reduced harmful heavy metals in the final mushrooms compared to using only coffee grounds. The leftover substrate after mushroom harvest could be used as a fertilizer for poor soils, creating a complete recycling system that turns industrial and food waste into useful products.

Hydrothermal liquefaction aqueous phase mycoremediation to increase inorganic nitrogen availability

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This research shows that a common mushroom fungus called Trametes versicolor can clean up wastewater produced during the conversion of food waste into biofuel. The fungus transforms hard-to-use nitrogen compounds in the waste into forms that plants can absorb. After three days of treatment, the nitrogen that plants can use increased dramatically. When bacteria known for converting ammonia to nitrate were added to the fungal treatment, the results improved even more, suggesting this waste could eventually be recycled as a fertilizer for growing plants in water-based farming systems.

Degradation of Extra-Heavy Crude Oil by Fungi Isolated from Hydrothermal Vents Fields in the Gulf of California

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Scientists discovered that certain fungi living in extreme deep-sea hydrothermal vents can break down extra-heavy crude oil, a thick and difficult-to-degrade form of petroleum. Among eight fungal species tested, Aspergillus sydowii performed best, degrading about 40% of the crude oil. This discovery could lead to new biological methods for cleaning up oil spills in marine environments.

The removal of black ink via Emericella quadrilineata as a green alternative technique to recycling ink waste papers

mycolabadmin

Researchers discovered that a fungus called Aspergillus quadrilineatus can remove black ink from waste papers, providing an environmentally friendly alternative to chemical-based recycling methods. Under optimal conditions including neutral pH and room temperature, the fungus successfully removed 97% of ink from contaminated papers through a process called biosorption. This natural approach uses enzymes produced by the fungus to break down and remove the ink, making it a cost-effective solution for paper recycling that reduces environmental damage from traditional chemical methods.

Research Keyword: mycoremediation