Simple Summary Salt and drought stress cause enormous crop losses worldwide. Several
different approaches may be taken to address this problem, including increased use of …

Abiotic stress significantly limits plant growth and production. Drought, in particular, is a
severe constraint that affects growth and limits agricultural productivity on a global scale …

The advancement of omics-based approaches and next-generation sequencing has
unveiled the principles underlying the plant-microbiome interaction in the last decade …

Climate change has exacerbated the impact of abiotic stresses, mainly drought, on plant
production. Plant selection, breeding, and genetic engineering to increase drought tolerance …

The beneficial effects of biochar (BC) and plant growth-promoting bacteria (PGPR) to
increase crop yields under harsh environments have been widely reported. However, the …

Stress due to drought lowers crop yield and frequently leads to a rise in food scarcity. Plants'
intricate metabolic systems enable them to tolerate drought stress, but they are unable to …

The agricultural land in the Indian Himalayan region (IHR) is susceptible to various spells of
snowfall, which can cause nutrient leaching, low temperatures, and drought conditions. The …

Plant growth promoting rhizobacteria are proposed as a beneficial economic strategy, where
crops are cultivated with water deficit constraints, with the aim of maximizing the plant …

This review explores the intricate relationship between plants and bacterial endophytes,
revealing their multifaceted roles in promoting plant growth, resilience, and defense …

Plants and bacteria are co-evolving and interact with one another in a continuous process.
This interaction enables the plant to assimilate the nutrients and acquire protection with the …