Research Keyword: microbial remediation

Isolation and characterization of marine microorganisms capable of degrading plastics

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Scientists have discovered over 1,500 marine bacteria and fungi that can break down different types of plastic waste. By using optimized culturing methods, they isolated microorganisms capable of degrading common plastics like bottles, foam, and packaging materials. This research provides a foundation for developing biological solutions to address ocean plastic pollution through microbial-based technologies.

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Immobilization of Acinetobacter sp. A-1 and Applicability in Removal of Difenoconazole from Water–Sediment Systems

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Scientists discovered a bacterium that can break down difenoconazole, a fungicide widely used in agriculture. They trapped these bacteria in tiny gel beads to make them more stable and effective at cleaning up contaminated water and soil. The immobilized bacteria were more resilient and broke down the pesticide more efficiently than free bacteria, offering a promising natural solution for cleaning up fungicide pollution in the environment.

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Investigation of the simulated microgravity impact on heavy metal biosorption by Saccharomyces cerevisiae

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This research shows that yeast commonly used in bread and beer production can absorb dangerous heavy metals from water, and this ability is even stronger in simulated weightlessness conditions. The metal-yeast complexes remain stable as they pass through the digestive system, making them safe for astronauts and potentially useful for cleaning contaminated drinking water in the food and beverage industry.

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Toxic Effects of p-Chloroaniline on Cells of Fungus Isaria fumosorosea SP535 and the Role of Cytochrome P450

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Scientists discovered a fungus called Isaria fumosorosea that can completely break down p-chloroaniline, a toxic chemical used in dyes and pesticides that pollutes our environment. The fungus works by using special enzymes called cytochrome P450 to degrade the pollutant. This discovery could help clean up contaminated soil and water, though more research is needed to ensure it works safely in real-world environments.

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Editorial: Highlights of the 1st Fun-Ex Conference: evolution, biodiversity, taxonomy and genomics of extremophilic and extremotolerant fungi

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Fungi that live in extreme environments like deserts, frozen Antarctic valleys, and salt lakes have evolved remarkable survival strategies. Scientists gathered at the 1st Fun-Ex Conference to share discoveries about how these tough fungi handle stress, what makes them diverse, and how we might use them to clean up pollution or help crops grow in harsh conditions. This research shows that these extraordinary organisms could unlock new solutions for environmental and agricultural challenges.

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