Salinity constitutes a major abiotic factor that negatively affects crop productivity. Inoculation
with plant growth-promoting bacteria (PGPB) is proven to increase plant tolerance to abiotic …

Climate change and anthropogenic activities are responsible for extensive crop yield losses,
with negative impact on global agricultural production. The occurrence of extreme weather …

The rhizosphere and microbiome of halotolerant plants could be crucial for alleviating
salinity stress during plant growth. The aims of this work were (1) to isolate bacteria from …

Plants and their microbiomes, including plant growth-promoting bacteria (PGPB), can work
as a team to reduce the adverse effects of different types of stress, including drought, heat …

Soil salinity has emerged as a great threat to the agricultural ecosystems throughout the
globe. Many continents of the globe are affected by salinity and crop productivity is severely …

The salinization of soil is the process of progressive accumulation of salts such as sulfates,
sodium, or chlorides into the soil. The increased level of salt has significant effects on …

Salinity abiotic stress is increasing day by day due to continuous global warming and
climate change. This is also becoming one of the major causes behind the reduction in crop …

Use of Plant growth promoting rhizobacteria (PGPR) is a promising strategy to improve the
crop production under optimal or sub-optimal conditions. In the present study, five …

Soil deterioration has led to problems with the nutrition of the world's population. As one of
the most serious stressors, soil salinization has a negative effect on the quantity and quality …

Salinity is one of the significant abiotic stresses that exert harmful effects on plant growth and
crop production. It has been reported that the harmfulness of salinity can be mitigated by the …