Rhizospheric microbiome: A key player in non-leguminous plant dynamics
2025
Singh, Manali | Bhutani, Shivani | Dinkar, Nisha
Numerous rhizosphere bacteria have the ability to communicate with plants, and some of them can develop advantageous partnerships with them. Because they control root exudation, reduce plant stress, and have an impact on other soil biota, these rhizosphere microorganisms can enhance plant health and soil nutrient cycling. Numerous rhizosphere bacteria have the ability to communicate with plants, and some of them can develop advantageous partnerships with them. Because they control root exudation, reduce plant stress, and have an impact on other soil biota, these rhizosphere microorganisms can enhance plant health and soil nutrient cycling. IRM practices such as inoculation with beneficial microbes or organic soil amendments can improve nutrient availability and overall fertility. This reduces the need for synthetic fertilizers and enhances long-term soil health. Using soil microbes to increase the bioavailability of micro- and macronutrients in the soil is the cheapest, quickest, and best way to increase the concentrations of micronutrients in our diets while restoring soil health. Rhizosphere microbes can play a critical role in helping plants alleviate these abiotic stresses. There are several strategies that rhizosphere microbes use to directly protect plants against pathogens. The least expensive, fastest, and most effective strategy to raise the concentrations of micronutrients in human meals while improving soil health is to use soil microorganisms to boost the bioavailability of micro- and macronutrients in the soil. Plants can benefit greatly from the assistance of rhizosphere bacteria in reducing these abiotic stressors.
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