bioremediation – Page 8

A Synergistic Role of Photosynthetic Bacteria and Fungal Community in Pollutant Removal in an Integrated Aquaculture Wastewater Bioremediation System

mycolabadmin

This research demonstrates how a combination of photosynthetic bacteria and naturally occurring fungi can work together to clean aquaculture wastewater effectively. The integrated treatment system successfully removed over 87% of harmful nitrogen and phosphorus compounds. The findings show that fungi play an important but previously overlooked role in wastewater treatment and could offer a cost-effective, sustainable solution for farms.

Efficacy of Indigenous Bacteria in the Biodegradation of Hydrocarbons Isolated from Agricultural Soils in Huamachuco, Peru

mycolabadmin

Researchers in Peru identified four types of bacteria from agricultural soil that can break down diesel and other hydrocarbon pollutants. One strain, Pseudomonas protegens, was particularly effective, removing over 91% of hydrocarbons in 10 days. This discovery offers a natural, cost-effective way to clean contaminated soil without using harsh chemicals, which could help protect both human health and the environment.

Benefits of Immobilized Bacteria in Bioremediation of Sites Contaminated with Toxic Organic Compounds

mycolabadmin

This review explains how immobilizing bacteria on solid carriers like biochar can make them much more effective at cleaning up polluted soil and water. When bacteria are attached to a matrix material, they form protective biofilms that help them survive toxic pollutants better than free-floating bacteria. By combining immobilized bacteria with the right carrier materials, environmental cleanup can be faster, cheaper, and more sustainable than traditional chemical methods.

The Application of Fungi and Their Secondary Metabolites in Aquaculture

mycolabadmin

Fungi can help solve several problems in fish farming. They can make plant-based fish feed more nutritious and easier to digest, boost fish immune systems and disease resistance without antibiotics, help fish feed float better in water, and clean up polluted water from fish farms. This makes aquaculture more sustainable and environmentally friendly while reducing costs for farmers.

Functional and genomic characterization of polyethylene degrading yeast Meyerozyma carpophila M6.0.2 isolated from marine plastic debris in East Java Indonesia

mycolabadmin

Researchers discovered a marine yeast called Meyerozyma carpophila that can break down polyethylene plastic. They found this yeast in plastic waste collected from Indonesian waters and tested its ability to degrade plastic in laboratory conditions. Using advanced genetic analysis, they identified specific enzymes and genes the yeast uses to break down plastic, making it a promising candidate for cleaning up ocean plastic pollution.

Mycofiltration of Aqueous Iron (III) and Imidacloprid Solutions, and the Effects of the Filtrates on Selected Biomarkers of the Freshwater Snail Helisoma duryi

mycolabadmin

Researchers investigated using oyster mushroom mycelium to filter contaminated water containing iron and pesticides. They found that the mushroom-based filter effectively removed iron (III) from water, reducing it by 94% in column experiments. Tests on freshwater snails exposed to the filtered water showed improved water quality. This approach offers an environmentally friendly alternative to traditional water treatment methods.

Use of Anaerobic Digestate Inoculated with Fungi as a Soil Amendment for Soil Remediation: A Systematic Review

mycolabadmin

This research examines how using fungi-treated digestate (a byproduct from biogas production) can clean polluted soil more effectively than using either alone. The study shows that combining digestate with fungi successfully removes heavy metals like lead and cadmium from soil while promoting plant growth. The best results came from using digestate made from cattle manure. This approach offers an affordable and sustainable way to restore contaminated soils.

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.

Harnessing the Nutritional Value, Therapeutic Applications, and Environmental Impact of Mushrooms

mycolabadmin

Mushrooms are nutritional powerhouses packed with proteins, vitamins, minerals, and special compounds that fight disease. They can help prevent and manage serious conditions like cancer, heart disease, and diabetes while supporting overall health and immunity. Beyond the kitchen, mushrooms are being developed into medicines and cosmetic products. Growing and using mushrooms also helps the environment by creating sustainable alternatives to traditional medicines and animal feeds.

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.

Research Keyword: bioremediation