Research Keyword: microbial consortium

Ultra-high temperature bacterial agents enhance heavy metal passivation and antibiotic degradation in compost

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This study develops a faster, more effective way to treat pig manure contaminated with both heavy metals and antibiotics. By combining special heat-loving bacteria with activated carbon and optimized moisture levels, the composting process reaches very high temperatures that accelerate both metal immobilization and antibiotic breakdown. The method successfully removes over 99% of harmful antibiotics while stabilizing heavy metals within 30 days, producing safe fertilizer that meets quality standards.

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Synergistic Effects of Lavandula angustifolia and a Bacterial Consortium on Bioremediation of a Heavy Metal-Contaminated Soil

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This study demonstrates how planting lavender combined with beneficial soil bacteria can effectively clean industrial contaminated soil. Over 90 days, this combined approach significantly reduced toxic lead and tin in the soil while improving overall soil health. The lavender plant works synergistically with the bacteria to create an ideal environment for metal removal and soil recovery, offering a sustainable and cost-effective alternative to traditional soil cleanup methods.

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Arbuscular mycorrhizal networks—A climate-smart blueprint for agriculture

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Arbuscular mycorrhizal fungi are beneficial organisms that form partnerships with plant roots to improve crop health and productivity without relying heavily on synthetic chemicals. These fungal networks enhance soil health, help plants survive droughts and diseases, improve nutrient absorption, and redistribute water through the soil. By using proper farming practices like crop diversification and fungal inoculants, farmers can harness these natural networks to increase yields while reducing fertilizer costs and environmental pollution.

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Quorum-driven microbial consortium for Bioplastic production from agro-waste

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Scientists created a partnership between a fungus and bacteria to make eco-friendly plastic (PHA) from brewery and cooking waste. The fungus breaks down the tough plant material while the bacteria converts the released compounds into bioplastic. By adding a natural chemical signal (farnesol), they improved the process and scaled it up successfully in a larger reactor without needing expensive pretreatment steps.

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Development of a consortium-based microbial agent beneficial to composting of distilled grain waste for Pleurotus ostreatus cultivation

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Scientists developed a special mix of five beneficial bacteria found in grain waste composting to speed up the process of preparing grain waste as growing substrate for oyster mushrooms. This microbial treatment made the composting hotter and faster, allowing oyster mushroom roots to grow quicker on the substrate. While the final mushroom harvest was similar in quantity, using this microbial treatment allowed farmers to harvest mushrooms about a week earlier. This method offers a practical way to recycle grain waste into valuable mushroom crops.

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