Plant-microbe interactions have been the subject of several biotechnological studies,
seeking sustainable development and environmental conservation. The inoculation of plant …

Both biotic and abiotic stresses are major constrains to agricultural production. Under stress
conditions, plant growth is affected by a number of factors such as hormonal and nutritional …

Seed coating is considered one of the best methods to promote sustainable agriculture
where the physical and physiological properties of seeds can be improved to facilitate …

Rhizobacteria are capable of stimulating plant growth through a variety of mechanisms that
include improvement of plant nutrition, production and regulation of phytohormones, and …

In the current scenario of rapidly evolving climate change, crop plants are more frequently
subjected to stresses of both abiotic and biotic origin, including exposure to unpredictable …

Root‐colonizing non‐pathogenic bacteria can increase plant resistance to biotic and abiotic
stress factors. Bacterial inoculates have been applied as biofertilizers and can increase the …

Different kinds of soil microorganisms belonging to several taxa of the bacteria, fungi, and
possibly, protozoa kingdoms, colonizing the rhizosphere or the plant tissues and promoting …

Heavy metals migrate easily and are difficult to degrade in the soil environment, which
causes serious harm to the ecological environment and human health. Thus, soil heavy …

Zero hunger is a significant sustainable development goal to ensure food access by all
people in vulnerable situations by 2030. However, climate change-mediated possible …

Since the 1980s, plant growth‒promoting bacteria (PGPB) have been studied as a
sustainable alternative to the use of chemical fertilizers to increase crop yields, and effective …