A study was conducted to determine the suitability of the endophytes as probable next-generation biofertilizers and novel biostimulants. Enterobacter turicensis RCT5 and Stenotrophomonas maltophilia RCT31 showed a zone of solubilization, of phosphate, potassium, silicate, and zinc, produced phytase. Among the three media used for phosphate solubilization, the rhizospheric medium turned out to be the best-producing results in less than 24 h, while others took a longer time to give the same results. The strains exhibited differential ability to produce organic acids in the plate assay and eight of these were profuse producers of exopolysaccharides. We were able to partially elucidate the mechanism of solubilization of insoluble salts that included organic acids and protein activity in the cell-free culture filtrates of endophytes. All the root nodule endophytes showed potential as novel biostimulants and next-generation biofertilizers as found in the germination assay of tomato, a non-host crop using different methodologies. It proved that the endophytes have different mechanism of expressions of their plant growth-promoting traits as well as can promote the growth of tomato plant irrespective of the method used.
Keywords: Endophytes; Potassium; Proteobacteria; Sphingobacteria; Zinc.
© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.