Background Soil salinization threatens food security and ecosystem health, and is one of the
important drivers to the degradation of many ecosystems around the world. Soil …

The beneficial microbes plays an important role in medical, industrial, and agricultural
processes. The precious microbes belong to different groups including archaea, bacteria …

Agriculture is the best foundation for human livelihoods, and, in this respect, crop production
has been forced to adopt sustainable farming practices. However, soil salinity severely …

Agricultural manipulation of potentially beneficial rhizosphere microbes is increasing rapidly
due to their multi-functional plant-protective and growth related benefits. Plant growth …

Plant growth-promoting endophytic bacteria can stimulate the growth, nutrient acquisition,
symbiotic performance and stress tolerance of chickpea plants under saline soil conditions …

Worldwide crop productivity hampers severely due to the adverse effects of salinity. Global
warming causes a rapid escalation of the salt-affected area, and new agricultural land is …

In this study, we characterized, identified, and determined the effect of salt-tolerant PGPR
isolated from coastal saline areas on rice growth and yield. A total of 44 bacterial strains …

Plant growth and development is adversely affected by different kind of stresses. One of the
major abiotic stresses, salinity, causes complex changes in plants by influencing the …

Plant growth-promoting rhizobacteria represent a promising solution to enhancing
agricultural productivity. Here, we screened phosphate solubilizing bacteria from the …

Global climate change results in frequent occurrences and/or long durations of abiotic
stress. Field grown plants are affected by abiotic stress, and they modulate ethylene in …