Research Keyword: nutrient availability

A review on microbe–mineral transformations and their impact on plant growth

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Soil microorganisms are crucial partners that help plants access nutrients locked in soil minerals. Bacteria and fungi produce special acids and molecules that dissolve minerals, making nutrients like phosphorus, iron, and zinc available for plant roots to absorb. This natural process reduces the need for chemical fertilizers and helps plants grow stronger while cleaning up contaminated soils.

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Towards understanding the impact of mycorrhizal fungal environments on the functioning of terrestrial ecosystems

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Mycorrhizal fungi form partnerships with plant roots and profoundly influence soil health and carbon storage. Different types of these fungi (arbuscular, ectomycorrhizal, and ericoid) work differently and create distinct soil environments with varying impacts on nutrient availability and carbon cycling. Researchers have now developed a unified framework and an experimental system to better understand and measure these effects, which could improve our ability to manage soils and predict ecosystem responses to environmental changes.

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Effect of Inoculation with Arbuscular Mycorrhizal Fungi (Rhizophagus irregularis BGC AH01) on the Soil Bacterial Community Assembly

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This study examined how arbuscular mycorrhizal fungi (a beneficial fungus that partners with plant roots) influence soil bacteria communities over time. Researchers grew maize plants with and without this fungus and tracked bacterial changes over 90 days. They found that the fungus creates a more stable and diverse bacterial community that reaches equilibrium around 60 days, helping improve nutrient availability for plant growth.

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