microbial degradation

Impact of veterinary pharmaceuticals on environment and their mitigation through microbial bioremediation

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Veterinary medicines used in livestock are contaminating our water and soil, creating serious problems like antibiotic-resistant bacteria. Scientists are discovering that natural microorganisms like bacteria and fungi can break down these pharmaceutical pollutants effectively. Advanced technologies combining microbes with electrical systems show promise for cleaning up contaminated wastewater, offering hope for a more sustainable solution to this growing environmental problem.

The microbial strategies for the management of chemical pesticides: A comprehensive review

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Chemical pesticides used to protect crops contaminate soil and water, harming both ecosystems and human health. Scientists have discovered that specific microorganisms—bacteria, fungi, and algae—can naturally break down these harmful pesticides into harmless substances. By using advanced technologies to understand how these microbes work and even genetically enhancing them, researchers are developing sustainable solutions to clean up pesticide-contaminated environments without the toxic side effects of traditional cleanup methods.

Sorption–Biological Treatment of Coastal Substrates of the Barents Sea in Low Temperature Using the Rhodococcus erythropolis Strain HO-KS22

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Scientists tested a method to clean oil-polluted beaches and sandy areas in the Arctic Barents Sea using a special bacteria strain combined with absorbing materials. The treatment worked well for sandy areas contaminated with lighter oils, speeding up natural cleanup by 3-4 times in the first month. The use of activated carbon or vermiculite prevented pollutants from washing back into the sea, protecting marine ecosystems.

A comparison of the performance of bacterial biofilters and fungal–bacterial coupled biofilters in BTEp-X removal

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Researchers compared two types of biofilters for cleaning polluted air from petrochemical plants. Fungal-bacterial biofilters significantly outperformed bacterial-only biofilters at removing harmful aromatic chemicals. The combined system recovered faster after interruptions and remained stable longer during continuous operation, making it more practical for industrial applications.

Microbes’ role in environmental pollution and remediation: a bioeconomy focus approach

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Microbes like bacteria and fungi can break down pollutants and transform harmful waste into useful products through biological processes called bioremediation. By employing these naturally occurring or genetically modified microorganisms, we can clean up contaminated soil and water while producing valuable products like proteins and biofuels. This approach offers an environmentally friendly and economically sustainable solution to waste management that reduces pollution while creating a circular bioeconomy.

Environmental Impacts and Strategies for Bioremediation of Dye-Containing Wastewater

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Textile factories release large amounts of dyes into water, creating serious pollution problems. Scientists have discovered that tiny living organisms like bacteria, fungi, and algae can eat and break down these dyes into harmless substances. This biological approach is cheaper, safer, and more environmentally friendly than traditional chemical methods used to clean wastewater, making it a promising solution for industries worldwide.

Novel Approach in Biodegradation of Synthetic Thermoplastic Polymers: An Overview

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This review explores how microorganisms like fungi and bacteria can break down plastic waste, which is a major environmental problem. Plastic bags and packaging materials take thousands of years to decompose naturally, but certain fungi produce special enzymes that can degrade plastics more quickly. The research suggests that using biodegradable plastics and microbial degradation could be promising solutions to reduce plastic pollution in soil and marine environments.

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

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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.

Pharmaceutical waste management through microbial bioremediation

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Medicines we take are ending up in our water supplies and harming ecosystems. Instead of using expensive chemical treatments, scientists are using microorganisms like fungi and bacteria to break down pharmaceutical waste into harmless substances. This biological approach is cheaper and more environmentally friendly, though challenges remain in scaling up the technology. Additionally, designing medicines that naturally degrade after leaving the body could prevent pollution at its source.

Recent advances in microbial engineering approaches for wastewater treatment: a review

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This review explains how microorganisms like bacteria, fungi, and algae can clean polluted water more effectively and cheaply than traditional methods. These microbes break down harmful chemicals, remove heavy metals, and clean industrial waste. Using multiple types of microbes together (microbial consortium) works better than using a single type, making it an environmentally friendly and economical solution for treating wastewater worldwide.

Research Keyword: microbial degradation