Research Keyword: biofertilizer

Role of Azolla in sustainable agriculture and climate resilience: a comprehensive review

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Azolla is a fast-growing water fern that can help farms become more sustainable by naturally fertilizing soil with nitrogen, reducing the need for chemical fertilizers. It also helps control weeds, conserve water, and provides nutritious feed for livestock and fish. Beyond agriculture, Azolla can help reduce greenhouse gas emissions and clean polluted water, making it valuable for both farming and environmental protection.

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Gigaspora roseae and Coriolopsis rigida Fungi Improve Performance of Quillaja saponaria Plants Grown in Sandy Substrate with Added Sewage Sludge

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Researchers studied how two types of beneficial fungi (mycorrhizal and saprophytic) can help a Chilean tree called Quillaja saponaria grow better in sandy soil mixed with treated sewage sludge. When plants were inoculated with these fungi and given moderate amounts of sludge, they showed significantly improved growth. The saprophytic fungus alone produced the best results, increasing plant height by over 300%. This approach could help recycle sewage waste while growing useful plants that produce saponins used in medicine and industry.

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Nocardia mangyaensis NH1: A Biofertilizer Candidate with Tolerance to Pesticides, Heavy Metals and Antibiotics

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Scientists studied a soil bacterium called Nocardia mangyaensis NH1 as a potential natural fertilizer for farms. The bacteria can survive exposure to common pesticides and heavy metals in contaminated soils, making it useful for sustainable agriculture. It has few antibiotic resistance genes, which is important for preventing the spread of resistant bacteria, and its genome is relatively stable and lacks harmful genes, making it safe for agricultural use.

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Effects of Spent Mushroom Substrate Treated with Plant Growth-Promoting Rhizobacteria on Blueberry Growth and Soil Quality

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This study shows that mushroom farming waste (spent mushroom substrate) can be recycled into a beneficial fertilizer by treating it with beneficial bacteria called plant growth-promoting rhizobacteria. When this treated waste is used to grow blueberries, the plants grow better with higher survival rates and produce more chlorophyll. The treatment also improves soil quality by making nutrients more available to plants and changing the beneficial microorganism community in the soil.

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Leucocalocybe mongolica inoculation enhances rice growth by reallocating resources from flavonoid defense to development via MYB/bHLH/WRKY networks

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A fungal strain called Leucocalocybe mongolica (LY9) can help rice plants grow bigger and healthier by improving how they use nutrients and sunlight. Interestingly, when plants grow better with this fungus, they produce fewer defensive compounds called flavonoids, but they still maintain some protective molecules. This research shows that the fungus helps plants decide to invest more energy in growth rather than defense, making it a promising natural fertilizer for farming.

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