Research Keyword: plant tolerance

Integration of physio-biochemical, biological and molecular approaches to improve heavy metal tolerance in plants

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Heavy metals in soil can poison plants and damage crops, reducing food safety. Plants have natural defense systems that can be strengthened through adding minerals like silicon and boron, applying plant hormones, using specially designed nanoparticles, and improving soil quality. This review explains how different combinations of these approaches can help plants survive in contaminated soil and produce safer food.

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The Importance of Humic Acids in Shaping the Resistance of Soil Microorganisms and the Tolerance of Zea mays to Excess Cadmium in Soil

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This research explores how humic acids, which are natural organic substances found in soil, can help protect plants and soil bacteria from cadmium, a toxic heavy metal. When cadmium contaminated soil, the application of humic acid preparation called Humus Active promoted the growth of specialized bacteria that can tolerate and break down cadmium. As a result, corn plants grew better and maize biomass increased significantly when the soil was treated with the humic preparation, suggesting this is a practical solution for farming on contaminated land.

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Paraboremia selaginellae enhances Salvia miltiorrhiza growth and cadmium tolerance via modulating root architecture and cadmium speciation in contaminated environments

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A beneficial fungus called Paraboremia selaginellae was found to help medicinal plants grow better in soil contaminated with cadmium, a toxic heavy metal. When this fungus colonizes plant roots, it reduces how much cadmium the plant absorbs and improves the soil’s nutrient content. This natural approach offers a promising solution for growing medicinal plants safely in polluted soils without expensive chemical treatments.

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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 fungus called Exserohilum rostratum could help a forage grass called Rhodes grass survive in salty soil. The fungus did tolerate salt and helped the grass maintain better nutrient balance under salt stress, but it couldn’t fully protect the grass from severe salinity. The benefits were most noticeable under moderate salt conditions, suggesting the fungus works best in less extreme environments.

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Halotolerant Endophytic Fungi: Diversity, Host Plants, and Mechanisms in Plant Salt–Alkali Stress Alleviation

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Certain fungi living inside plants can help crops survive in salty and alkaline soils that would normally damage them. These special fungi work with plants by regulating salt ions, boosting natural antioxidants, and producing protective compounds. Research shows these fungi partnerships can increase crop yields by 15-40% in challenging saline soils, offering a sustainable alternative to chemical interventions.

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