Microbial inoculants have gained increasing attention worldwide as an eco‐friendly solution
for improving agriculture productivity. Several studies have demonstrated their potential …

Microbes play crucial roles in enhancing plant growth by forming symbiotic relationships,
promoting nutrient uptake, and stimulating overall plant health in various habitats. The …

Risk in agriculture has been extended manifolds due to climate change. Small and medium
scale farming are much affected by unpredictable weather conditions arising from climate …

Synthetic microbial communities (SynComs) could potentially enhance some functions of the
plant microbiome and emerge as a promising inoculant for improving crop performance …

Drought is the most important natural disaster affecting crop growth and development. Crop
rhizosphere microorganisms can affect crop growth and development, enhance the effective …

Background The severity and frequency of drought are expected to increase substantially in
the coming century and dramatically reduce crop yields. Manipulation of rhizosphere …

This study aims to investigate the effect of isolated drought-tolerant rhizobacteria, spanning
various groups, such as nitrogen-fixing bacteria (NFB), phosphate solubilizing bacteria …

Climate change is predicted to increase the incidence and severity of drought conditions,
posing a significant challenge for agriculture globally. Plant microbiomes have been …

Host-mediated microbiome engineering (HMME) is a strategy that utilizes the host
phenotype to indirectly select microbiomes though cyclic differentiation and propagation. In …

Drought is a major abiotic stress that threatens crop production. Soil microbiomes are
thought to play a role in enhancing plant adaptation to various stresses. However, it remains …