Screening of plant growth-promoting traits in arsenic-resistant bacteria isolated from the rhizosphere of soybean plants from Argentinean agricultural soil

The purpose of this study was to investigate plant-growth promoting traits in native and arsenic (As) highly-resistant bacterial strains isolated from the rhizosphere of soybean (Glycine max) plants grown in an Argentinean agricultural field. Determination of MICs (Minimum inhibitory concentration) was carried out on solid media supplemented with arsenite (As 3+) or arsenate (As 5+). Morphological, cultural, physiological, biochemical and molecular characterization, and in vitro determination of plant growth promoting (PGP) properties of As resistant isolates were carried out. Arsenic in soil samples was determined by ICP-OES while residual arsenic on post-removal culture medium and accumulation in cells were estimated by GF-AAS after wet acid digestion. Isolated strains included gamma-proteobacteria such as Enterobacter sp. and Pseudomonas sp., and actinobacteria as Rhodococcus sp. All bacterial strains grew in presence of very high arsenite -over 24 mM- and arsenate -over 400 mM- concentrations. Pseudomonas sp. strains presented simultaneously several in vitro PGP traits, although Rhodococcus erythropolis AW3 did not display PGP traits. However, R. erythropolis AW3 was the most As resistant strain and removed and accumulated the greatest amounts of the metalloid. The presence of As resistant and plant-growth promoting bacterial strains in the rhizosphere of Glycine max, in arsenic containing agricultural soil, suggest that they could potentially play an important role in plant-growth promotion in stressed conditions. These strains were able to remove and accumulate As from liquid media, thus they could be beneficial for sustainable crop production.