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Diversity of nitrogen-removing microorganisms
Franchi, O.; Toledo-Alarcón, J.; Campos, J.L.; Jeison Nuñez, D.; Vaksmaa, A.; Tapia-Venegas, E. (2022). Diversity of nitrogen-removing microorganisms, in: Shah, M.P. et al. Development in wastewater treatment research and processes. pp. 133-164. https://dx.doi.org/10.1016/b978-0-323-91901-2.00009-7
In: Shah, M.P.; Rodriguez-Couto, S. (Ed.) (2022). Development in wastewater treatment research and processes. Elsevier: [s.l.]. ISBN 978-0-323-91901-2. https://dx.doi.org/10.1016/c2021-0-00302-3, more

Available in  Authors 
    NIOZ: NIOZ files 381503

Author keywords
    Autotrophic denitrification; N-damo system; Hydrogenotrophic bacteria; Sulfur-oxidizing bacteria; Microbial diversity

Authors  Top 
  • Franchi, O.
  • Toledo-Alarcón, J.
  • Campos, J.L.
  • Jeison Nuñez, D.
  • Vaksmaa, A., more
  • Tapia-Venegas, E.

Abstract
    This book chapter aims to address the microbial diversity associated with implementation prospects of nonconventional technologies for nitrogen removal in wastewater treatment plants. Special focus will be placed on the environmental advantages offered by these processes in contrast to conventional ones as heterotrophic denitrification and anammox. In addition, the operational and environmental conditions that promote the development of these microbial populations for nitrogen removal in wastewater will be addressed. Nitrate removal by an autotrophic process using sulfur compounds forms is the better characterized process and has been extensively applied in the treatment of wastewater with low C/N ratios rich in nitrates and sulfides. Hydrogenotrophic denitrification has attracted attention for application to nitrate removal from groundwater and industrial wastewater with very low organic matter content and high nitrate concentrations. This is because the process is clean, with a low biomass production and no residual organic matter. Anaerobic methanotrophic microorganisms using nitrate or nitrite (N-damo) have attracted attention for application in cooperation with anaerobic ammonia-oxidizing bacteria (anammox), resulting in the simultaneous removal of nitrogen (ammonium, nitrite, and nitrate) and methane.

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