Physiological stabilization, community characterization, and nitrogen degradation dynamics in an anammox consortium from estuarine sediments

Physiological stabilization, community characterization, and nitrogen degradation dynamics in an anammox consortium from estuarine sediments

Anammox is a cost‐effective and sustainable process for nitrogen removal; however, the production of a physiologically stable inoculum is a critical point in the start‐up process. In this work, estuarine sediments were used as incubation seeds to obtain cultures with stable anammox activity. Assays...

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Bibliographic Details
Published in:Water environment research Vol. 93; no. 4; pp. 636 - 644
Main Authors: Ronzón Bravo, Jaime J., María Cuervo‐López, Flor, Andrade Torres, Antonio, Arteaga‐Vázquez, Mario A., Martínez Hernández, Sergio
Format: Journal Article
Language:English
Published: United States Blackwell Publishing Ltd 01-04-2021
Subjects:
Ammonia
Ammonia-oxidizing bacteria
Ammonium
Ammonium Compounds
Anaerobic microorganisms
Anaerobiosis
anammox consortium
Bacteria
Bacteria - genetics
Biodegradation
Bioreactors
Brackishwater environment
Candidatus Jettenia
community characterization
Consortia
Critical point
Cultures
DNA
Estuaries
estuary sediments
Humans
Incubation period
Inoculum
Microorganisms
Nitrates
Nitrites
Nitrogen
nitrogen degradation
Nitrogen removal
Nucleotide sequence
Oxidation
Oxidation-Reduction
PCR
physiological stabilization
Physiology
Sediment
Sediments
Stoichiometry
Substrates
nitrogen degradation
community characterization
anammox consortium
estuary sediments
physiological stabilization
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Summary:Anammox is a cost‐effective and sustainable process for nitrogen removal; however, the production of a physiologically stable inoculum is a critical point in the start‐up process. In this work, estuarine sediments were used as incubation seeds to obtain cultures with stable anammox activity. Assays were performed in batch cultures fed with stoichiometric amounts of ammonium and nitrite, analyzing physiological response variables and the microbial community. Estuarine sediments showed a stable anammox process after 90 days, consuming ammonium and nitrite simultaneously with concomitant generation of N2 and nitrate in stoichiometric amounts. In kinetic assays, substrates were fully consumed after 210 hr, exhibiting N2 and nitrate yields of 0.85 and 0.10, respectively. The microbial community analysis using PCR‐DGGE indicated the presence of uncultured anammox bacteria and members of the genus Candidatus Jettenia. The results evidenced the achievement of anammox cultures, although their start‐up and kinetic characteristics were less favorable than those recorded in man‐made systems. Practitioner points Estuarine sediments were used as incubation seeds to obtain cultures with stable anammox activity. The sediments were fed with stoichiometric amounts of ammonium and nitrite, analyzing the physiological response variables and the microbial community. Sediments showed a stable anammox process after 90 days, converting the substrates into N2 and nitrate according to stoichiometry. Anammox cultures were achieved although their start‐up and kinetic characteristics were less favorable than those recorded in man‐made systems. Microbial community analysis using PCR‐DGGE indicated the presence of uncultured anaerobic ammonia‐oxidizing bacterium and members of genus Candidatus Jettenia. Evaluation of estuarine sediments as incubation seeds to obtain microbial cultures with stable anammox activity.
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ISSN:1061-4303
1554-7531
DOI:10.1002/wer.1466