Research Keyword: fungal inoculation

Phosphorus-solubilizing fungi improve growth and P nutrition in sorghum at variable salinity levels

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Researchers discovered five types of salt-tolerant fungi that help plants absorb phosphorus even in salty soils. When these fungi were applied to sorghum plants grown in salt-affected soils, the plants grew better and absorbed more phosphorus. The most effective fungus, Penicillium oxalicum, worked by releasing organic acids and other compounds that made phosphorus more available to plants. This discovery offers a promising natural alternative to chemical fertilizers for farming in salt-affected regions.

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Can the DSE Fungus Exserohilum rostratum Mitigate the Effect of Salinity on the Grass Chloris gayana?

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Researchers tested whether a beneficial fungus called Exserohilum rostratum could help a grass species called Rhodes grass survive in salty soil conditions. The fungus was found to tolerate salt well and helped the grass maintain better nutrient balance, but these benefits were limited and didn’t fully protect the grass from the negative effects of high salt levels. This suggests that while the fungus can be helpful, its effectiveness depends on specific conditions and salt concentrations.

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Assessing the Conformity of Mycelium Biocomposites for Ecological Insulation Solutions

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Researchers developed insulation materials made from mushroom mycelium combined with agricultural and industrial waste products. These eco-friendly composites perform comparably to conventional synthetic insulation in terms of thermal properties and actually outperform them in fire safety. The materials are fully biodegradable and require fewer fossil fuels to produce, making them an attractive sustainable alternative for building construction.

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Evaluating the effectiveness of Pisolithus tinctorius in enhancing the Eucalyptus’ resistance to salt stress

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Scientists isolated a beneficial fungus called Pisolithus tinctorius that can help eucalyptus trees survive in salty soil. When seedlings were treated with this fungus, they grew much better and were more resistant to salt stress compared to untreated plants. This discovery could help restore salt-damaged lands and make eucalyptus plantations more productive in challenging environments.

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