gen. nov., sp. nov., sp. nov., sp. nov., sp. nov., Four Ferric-Reducing Bacteria Isolated From Paddy Soil, and Reclassification of Three Species of the Genus as Members of the Genus gen. nov.

In paddy soil, bacteria from the family have been shown to strongly contribute to the biogeochemical cycle. However, no species with validly published names have been isolated from paddy soil. In this study, we isolated and characterized four novel ferric reducing bacteria in the family from the paddy soils of three different fields in Japan. The four strains, S43, Red53, S62, and Red111, were Gram-stain negative, strictly anaerobic, chemoheterotrophic, and motile with peritrichous flagella. Phylogenetic studies based on 16S rRNA gene sequences, five concatenated housekeeping genes (, , , , and ) and 92 concatenated core genes revealed that the four strains belong to the family and are most closely related to Bem (97.4-98.2%, 16S rRNA gene sequence similarities) and Dfr1 (97.1-98.0%). Genomic analysis with average nucleotide identity (ANI) and digital DNA-DNA hybridization (GGDC) calculations clearly distinguished the four isolated strains from other species of the family and indicated that strains S43, Red53, S62, and Red111 represent independent species, with values below the thresholds for species delineation. Chemotaxonomic characteristics, including major fatty acid and whole cell protein profiles, showed differences among the isolates and their closest relatives, which were consistent with the results of DNA fingerprints and physiological characterization. Additionally, each of the four isolates shared a low 16S rRNA gene sequence similarity (92.4%) and average amino acid identity (AAI) with the type strain of the type species . Overall, strains S43, Red53, S62, and Red111 represent four novel species, which we propose to classify in a novel genus of the family , and the names gen. nov., sp. nov. (type strain S43), sp. nov. (type strain Red53), sp. nov. (type strain S62), and sp. nov. (type strain Red111) are proposed. Based on phylogenetic and genomic analyses, we also propose the reclassification of as comb. nov., as comb. nov., and as comb. nov.