therapeutic action: pollution mitigation

Current status and future prospects of microalgae-based degradation of spent lubricant oil hydrocarbon towards environmental sustainability: a mini review and bibliometric analysis

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Spent oil waste from cars and industries is a major environmental problem that traditional cleanup methods struggle to handle. This review shows that microalgae, tiny organisms that are already used for various purposes, can effectively break down the harmful chemicals in used oil. A bibliometric analysis reveals that scientists worldwide, especially in China, are increasingly researching this promising green solution to clean up oil pollution in soil and water.

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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.

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Biodegradation of the endocrine-disrupting compound bisphenol F by Sphingobium yanoikuyae DN12

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Scientists discovered a bacterium called Sphingobium yanoikuyae that can break down bisphenol F (BPF), a toxic chemical used in plastics and coatings. The bacterium uses three special enzymes working together like a molecular assembly line to safely degrade BPF into harmless byproducts. This discovery could lead to better methods for cleaning up polluted water and soil contaminated with BPF and similar harmful chemicals.

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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.

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