Environmental remediation – Page 4

Biochar Composite with Enhanced Performance Prepared Through Microbial Modification for Water Pollutant Removal

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Scientists created a special type of charcoal (biochar) by using fungi to break down agricultural waste before processing it. This fungal-treated biochar is much better at removing pollutants like dyes, antibiotics, and heavy metals from water compared to regular biochar. The material can be reused many times, making it practical and cost-effective for cleaning contaminated water.

Isolation and screening of wood-decaying fungi for lignocellulolytic enzyme production and bioremediation processes

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Researchers isolated wood-decaying fungi from forests in Latvia to identify species that produce powerful enzymes capable of breaking down complex plant materials. These enzymes have practical applications in cleaning contaminated water, treating textile industry waste, and converting plant biomass into useful products. The study found that certain environmental fungi, particularly Trametes pubescens, produced enzymes at levels exceeding those of commercially used strains, suggesting they could be valuable tools for environmental cleanup and industrial processes.

Oestrogen Detoxification Ability of White Rot Fungus Trametes hirsuta LE-BIN 072: Exoproteome and Transformation Product Profiling

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A type of white rot fungus called Trametes hirsuta can effectively remove harmful oestrogen chemicals from water and soil. The fungus produces special enzymes that break down these hormones into less toxic compounds within just one day. This discovery suggests the fungus could be used as a natural treatment to clean up environmental contamination caused by oestrogens from human waste and pharmaceutical use.

Application of Modified Spent Mushroom Compost Biochar (SMCB/Fe) for Nitrate Removal from Aqueous Solution

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This research developed a new material made from leftover mushroom compost mixed with iron to clean water polluted with nitrate, a common problem in farming areas. The material works by attracting and trapping nitrate particles, and when tested, it successfully removed up to 19.88 mg of nitrate per gram of the material used. The best results occurred at neutral pH levels and after two hours of contact time. This affordable, environmentally friendly solution could help communities improve their water quality without expensive chemical treatments.

Oestrogen Detoxification Ability of White Rot Fungus Trametes hirsuta LE-BIN 072: Exoproteome and Transformation Product Profiling

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Scientists discovered that a white rot fungus called Trametes hirsuta can effectively remove harmful oestrogen hormones from water and soil. Within just one day, the fungus eliminated more than 90% of two common oestrogens (E1 and E2) that pollute our environment through pharmaceutical waste and animal farming. The fungus achieves this by producing special enzymes that couple oestrogen molecules together into larger, less harmful compounds that can be easily removed.

Identification of novel polyethylene-degrading fungi from South African landfill soils: Arthrographis kalrae, Lecanicillium coprophilum, and Didymosphaeria variabile

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Researchers in South Africa discovered three previously unknown fungi that can break down plastic waste, particularly low-density polyethylene used in shopping bags. These fungi were isolated from landfill soils and showed the ability to degrade plastic strips through oxidative processes, with chemical changes detectable using advanced analysis techniques. This discovery offers hope for developing local, biologically-based solutions to South Africa’s serious plastic waste problem.

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 deep-sea hydrothermal vents can break down extra-heavy crude oil, a thick and difficult-to-treat form of petroleum. Among eight fungal species tested, Aspergillus sydowii was the most effective, degrading 40% of the crude oil in laboratory conditions. This research suggests these hardy deep-sea fungi could be used as a natural solution to clean up oil spills in extreme marine environments where traditional cleaning methods don’t work well.

Exploring Fungal Communication Mechanisms in the Rhizosphere Microbiome for a Sustainable Green Agriculture

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Fungi in soil communicate with each other and plants through chemical signals, forming protective layers called biofilms that help them cooperate and survive. These fungal communication networks can be either beneficial, helping plants grow and fight diseases, or harmful, causing crop infections and producing toxins. By better understanding how fungi talk to each other, scientists can develop natural ways to improve agriculture and clean up polluted soils without using harmful chemicals.

New Tricoderma Species and Six Unrecorded Species of Endolichenic Fungi Isolated from Lichens

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Researchers in South Korea discovered seven species of fungi living inside lichens, including one completely new species to science. By examining the fungi’s physical characteristics and analyzing their genetic material, scientists confirmed the identity of each species. These fungi, particularly those in the Trichoderma genus, show promise for producing useful compounds that could have applications in agriculture, medicine, and industry.

A new type of calcium-rich biochars derived from spent mushroom substrates and their efficient adsorption properties for cationic dyes

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Researchers developed a low-cost material called biochar from leftover mushroom growing substrates that can effectively remove harmful dyes from wastewater. By heating these spent mushroom substrates to high temperatures, they created a porous material rich in calcium that works as a powerful filter. This biochar can be used multiple times and doesn’t require expensive chemical treatments, making it practical for large-scale wastewater cleanup in textile and related industries.

therapeutic action: Environmental remediation