Isolation and characterization of Pantoea ananatis and P. agglomerans in quinoa: P. ananatis as a potential fungal biocontroller and plant growth promoter.

Abstract

Chenopodium quinoa, globally recognized as quinoa, stands out as one of the cereals with the highest nutritional value native to the Americas. It is cultivated in the Andes Mountain range, and Colombia is no exception, with the Boyacá department emerging as a significant quinoa-producing region. The quinoa ecosystem harbors a rich array of microorganisms within its rhizosphere. In this current study, nitrogen-fixing and phosphate-solubilizing isolates AM-0261 (Pantoea ananatis) and AM-0263 (Pantoea agglomerans) were sourced from rhizospheric soil samples of quinoa. These isolates were subjected to biochemical characterization and identification through PCR analysis and Sanger sequencing targeting a partial sequence of the 16 s region of the rRNA. To assess their potential as plant growth-promoting rhizobacteria (PGPR), taking into consideration that P. ananatis is an IAA producer, greenhouse-based bioassays were conducted using seedlings. Additionally, dual culture assays were employed to showcase their antagonistic capabilities against primary beneficial and phytopathogenic fungi associated with quinoa cultivation in the region. The results underscore the remarkable potential of P. ananatis as a PGPR and a biocontrol agent against quinoa's phytopathogenic fungi. This study represents the pioneering exploration of the interaction between these two bacterial strains with quinoa rhizosphere tissue. In addition, the isolate of P. annatis (AM-0261) stands out, which presents phosphate solubilization capacity, nitrogen fixation, antagonistic capacity, and IAA production, characteristics that make it a promising strain for its use for the management of diseases of fungal origin, and in the future, it could be useful in reducing the use of chemical fertilizers.