Research Topic: Biosurfactants

Editorial: Biosurfactants – next-generation biomolecules for enhanced biodegradation of organic pollutants, volume II

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Organic pollutants like oil, plastics, and pesticides are dangerous because they persist in the environment and accumulate in living organisms. Biosurfactants are eco-friendly molecules produced by microorganisms that can help break down these stubborn pollutants more effectively than traditional chemical methods. This research shows that biosurfactants can be produced cheaply using agricultural waste and have potential applications in cleaning up oil spills, treating contaminated soil, and even healing wounds.

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Nanoemulsion formulation of lemongrass essential oil using Pseudomonas-derived rhamnolipids for targeted phytopathogen suppression

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This study developed a nano-sized formulation of lemongrass oil stabilized with naturally-derived rhamnolipid surfactant to fight plant fungal diseases. The formulation successfully inhibited the growth of three major plant pathogens and remained stable during storage. This bio-based approach offers farmers an environmentally-friendly alternative to synthetic chemical fungicides for protecting crops.

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Influence of pH on the biodegradation efficiency of fats, oils, and grease by biosurfactant-producing bacterial consortia

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Grease buildup in kitchen pipes and sewers causes blockages and infrastructure damage. This research found that a combination of two bacteria can effectively break down fats and oils much better at acidic pH levels, particularly at pH 4. The bacteria produce natural surfactants that help dissolve the grease and special enzymes that degrade it into smaller molecules. This discovery suggests that making wastewater slightly more acidic could significantly improve grease removal in treatment systems.

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Enhancing Phenanthrene Degradation by Burkholderia sp. FM-2 with Rhamnolipid: Mechanistic Insights from Cell Surface Properties and Transcriptomic Analysis

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Scientists studied how a natural soap-like substance called rhamnolipid can help bacteria degrade phenanthrene, a dangerous pollution compound found in oil-contaminated soil. They found that the right amount of this substance makes the bacteria better at breaking down the pollutant by changing the bacteria’s surface properties and activating specific genes. The research shows promise for developing better methods to clean up contaminated environments.

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Microbial communities in petroleum refinery effluents and their complex functions

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Oil refineries produce large amounts of wastewater containing harmful petroleum products and heavy metals. Instead of using toxic chemical treatments, scientists are discovering that microorganisms naturally found in this wastewater—including bacteria, fungi, algae, and yeast—can break down these pollutants safely and effectively. These microbes can degrade oil hydrocarbons, remove heavy metals, and produce natural surfactants that help in the cleanup process, offering an environmentally friendly and cost-effective solution to refinery pollution.

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Advancements in biopile-based sustainable soil remediation: a decade of improvements, integrating bioremediation technologies and AI-based innovative tools

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This review examines how biopile technology, which uses naturally occurring microorganisms to break down soil pollutants, has improved over the past decade. By optimizing conditions like moisture, temperature, and oxygen levels, and combining biopiles with sustainable materials like biochar and biosurfactants, scientists can effectively remove contaminants from soil while supporting carbon storage and ecosystem recovery. The approach offers an environmentally friendly and cost-effective alternative to traditional chemical remediation methods.

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