Biological Nitrogen Removal Database

A manually curated data resource for microbial nitrogen removal


Detailed information

Microorganism

Candidatus Anammoxoglobus propionicus clone Y3_Winter_17

Taxonomy

  • Phylum : Planctomycetes
  • Class : Candidatus Brocadiae
  • Order :Candidatus Brocadiales
  • Family : Candidatus Brocadiaceae
  • Genus : Candidatus Anammoxoglobus

Electron Acceptor

Sodium nitrite (NaNO2-)

Electron Donor

Ammonium ion

Information about Article

Reference:Zheng et al., 2016

Title:Shifts in the community structure and activity of anaerobic ammonium oxidation bacteria along an estuarine salinity gradient

Pubmed ID:nan

Pubmed link:Link

Full research link:Link

Abstract: Anaerobic ammonium oxidation (anammox) is a major microbial pathway for nitrogen (N) removal in estuarine and coastal environments. However, understanding of anammox bacterial dynamics and associations with anammox activity remains scarce along estuarine salinity gradient. In this study, the diversity, abundance, and activity of anammox bacteria, and their potential contributions to total N2 production in the sediments along the salinity gradient (0.1–33.8) of the Yangtze estuarine and coastal zone, were studied using 16S rRNA gene clone library, quantitative polymerase chain reaction assay, and isotope‐tracing technique. Phylogenetic analysis showed a significant change in anammox bacterial community structure along the salinity gradient (P < 0.01), with the dominant genus shifting from Brocadia in the freshwater region to Scalindua in the open ocean. Anammox bacterial abundance ranged from 3.67 × 105 to 8.22 × 107 copies 16S rRNA gene g−1 and related significantly with salinity (P < 0.05). The anammox activity varied between 0.08 and 6.46 nmol N g−1 h−1 and related closely with anammox bacterial abundance (P < 0.01). Contributions of anammox activity to total N loss were highly variable along the salinity gradient, ranging from 5 to 77% and were significantly negatively correlated with salinity (P < 0.01). Sediment organic matter was also recognized as an important factor in controlling the relative role of anammox to total N2 production in the Yangtze estuarine and coastal zone. Overall, our data demonstrated a biogeographical distribution of anammox bacterial diversity, abundance, and activity along the estuarine salinity gradient and suggested that salinity is a major environmental control on anammox process in the estuarine and coastal ecosystems.