Denitrification genes in SAR11 and other ubiquitous lineages of marine bacteria isolated from the northern Benguela Upwelling System

Denitrification is a microbial process that leads to nitrogen loss from marine oxygen minimum zones (OMZs). The complete metabolic pathway for denitrification reduces nitrate to dinitrogen gas in four sequential steps. Many anaerobic and facultatively anaerobic bacteria are capable of the initial step of nitrate reduction to nitrite. Far fewer reduce nitrite to nitric oxide, nitrous oxide, or dinitrogen gas. In this study, we cultured and sequenced the complete genomes of 24 bacteria isolated from low dissolved oxygen waters (DO = 24 µM) in the northern Benguela Upwelling System (nBUS) OMZ to identify facultatively anaerobic bacteria with the genetic potential to contribute to denitrification. Most of the isolates obtained from the nBUS have denitrification genes (83%). They include several new species in the order Pelagibacterales (SAR11), as well as representatives from a previously uncultured family of Arenicellales (UBA868), a previously uncultured genus of Paracoccaceae , and a previously undescribed genus of Porticoccaceae . All ten nBUS SAR11 genomes encode a copper-containing nitrite reductase ( nirK ) and key components of a cbb3-type cytochrome c oxidase ( cco ), suggesting that they respire oxygen under low DO concentrations and have the potential to contribute to nitrogen loss by respiring nitrite to nitric oxide.