This review covers the literature data on plant growth-promoting bacteria in soil, which can
fix atmospheric nitrogen, solubilize phosphates, produce and secrete siderophores, and …

In agricultural environments, plants are often exposed to abiotic stresses including
temperature extremes, salt stress, drought, and heavy metal soil contamination, which leads …

Gray mold, caused by Botrytis cinerea is a major cause of post-harvest rot of fresh fruits and
vegetables. The utilization of selected microorganisms as biocontrol agents is a promising …

Bio-priming is a proven method for enhancing seed germination in stressful environments.
Researchers have thoroughly explored its impact on enzyme activity during seed …

Phosphate solubilizing microorganisms (PSMs) in soil have been shown to reduce mineral
phosphate fertilizer supplementation and promote plant growth. Nevertheless, only several …

Photosynthesis is known to be seriously affected by salt stress. The stress induced
membrane damage leads to disrupted photosynthetic components causing imbalance …

Climatic changes and global warming produce abiotic stressors that affect plant
development and productivity. Abiotic stressors, such as drought, salt, cold, and heat …

The present study explores the potential of rhizobacteria isolated from Baccharis linearis
and Solidago chilensis in metal (loid)-contaminated soil for producing N-acyl-homoserine …

Microbial-mediated plant growth promotion is an eco-friendly and sustainable approach
under unprecedented climatic conditions. Today, available beneficial microbes for plant …

The translocation of heavy metals (HMs) from the rhizosphere to plant systems constitutes a
fundamental mechanism governing HM uptake. Microbial augmentation has emerged as a …