Rhizobacteria are well recognized for their beneficial multifunctions as key promoters of
plant development, suppressing pathogens, and improving soil health. In this study …

The O chrobactrum anthropi Mn 1 strain, taxonomically identified using 16S ribosomal DNA
sequence, was isolated from roots of J erusalem artichoke. Its endophytic colonization was …

Due to different functions of phosphate solubilizing bacteria (PSB) and arbuscular
mycorrhizal fungi (AMF), their potential synergistic effects on enhancing plant growth and …

New eco-friendly approaches are required to improve plant biomass production. Beneficial
plant growth-promoting (PGP) bacteria may be exploited as excellent and efficient …

Purpose The application of excessive chemical fertilizers during the cultivation of Astragalus
membranaceus leads to a decline in the quality of this medicinal plant as well as the soil's …

The rhizosphere is undoubtedly the most complex microhabitat, comprised of an integrated
network of plant roots, soil, and a diverse consortium of bacteria, fungi, eukaryotes, and …

Engineering of plant rhizosphere with beneficial plant growth promoting (PGP) bacteria
offers a great promise for sustainable crop productivity. In this context, 49 rhizospheric …

Although plant growth-promoting rhizobacteria (PGPR) have been reported to influence
plant growth, yield and nutrient uptake by an array of mechanisms, the specific traits by …

The use of PGPR as a multifunctional biofertilizer or biostimulant is an alternative way to
prevent soil pollution and preserve agricultural for sustainable economy. In this study, 102 …

Plant growth promoting rhizobacteria (PGPR) colonizes almost all the ecological niches in
and around the plant roots and enhances plant growth and show profound impact upon …