Spore‐forming, plant growth‐promoting bacteria (PGPR) offer extraordinary opportunities for
increasing plant productivity in climate change scenarios. Plant–water relationships, root …

The salinization of soil is responsible for the reduction in the growth and development of
plants. As the global population increases day by day, there is a decrease in the cultivation …

Soil salinity is one of the most important abiotic stresses limiting plant growth and
productivity. The breeding of salt-tolerant wheat cultivars has substantially relieved the …

In the present study, ten morphologically distinct indigenous plant growth-promoting
rhizobacteria (PGPR) from wheat roots and rhizosphere were screened for multiple plant …

Salinity is an important abiotic stress affecting plant growth. We have known that plants can
recruit beneficial microbes from the surrounding soil. However, the ecological functions of …

Sustainable agriculture is threatened by salinity stress because of the low yield quality and
low crop production. Rhizobacteria that promote plant growth modify physiological and …

Soil salinity has become one of the major factors that threaten tall fescue growth and turf
quality. Plants recruit diverse microorganisms in the rhizosphere to cope with salinity stress …

Growth and productivity of rice and soil inhabiting microbial population is negatively affected
by soil salinity. However, some salt resistant, rhizosphere competent bacteria improve plant …

Background The accumulation of salts leads to assimilation of dissolved salts in the soil
which results in soil salinity. Salinity affects the crop yield by reducing the levels of minerals …

Soil salinization adversely affects plant growth and has become one of the major limiting
factors for crop productivity worldwide. The conventional approach, breeding salt-tolerant …