Enhanced nitrogen removal by bioelectrochemical coupling anammox and characteristics of microbial communities.
- Author:
Lai XIE
1
;
Min YANG
1
;
Enzhe YANG
1
;
Zhihua LIU
1
;
Xin GENG
2
;
Hong CHEN
1
Author Information
- Publication Type:Journal Article
- Keywords: anammox; bioelectrochemical system; biological nitrogen removal; denitrification; electroactive microorganism
- MeSH: Denitrification; Wastewater; Anaerobic Ammonia Oxidation; Nitrogen; Oxidation-Reduction; Bioreactors/microbiology*; Ammonium Compounds; Bacteria/genetics*; Microbiota; Sewage
- From: Chinese Journal of Biotechnology 2023;39(7):2719-2729
- CountryChina
- Language:Chinese
- Abstract: To investigate the bioelectrochemical enhanced anaerobic ammonia oxidation (anammox) nitrogen removal process, a bioelectrochemical system with coupled anammox cathode was constructed using a dual-chamber microbial electrolysis cell (MEC). Specifically, a dark incubation batch experiment was conducted at 30 ℃ with different influent total nitrogen concentrations under an applied voltage of 0.2 V, and the enhanced denitrification mechanism was investigated by combining various characterization methods such as cyclic voltammetry, electrochemical impedance spectroscopy and high-throughput sequencing methods. The results showed that the total nitrogen removal rates of 96.9%±0.3%, 97.3%±0.4% and 99.0%±0.3% were obtained when the initial total nitrogen concentration was 200, 300 and 400 mg/L, respectively. In addition, the cathode electrode biofilm showed good electrochemical activity. High-throughput sequencing results showed that the applied voltage enriched other denitrifying functional groups, including Denitratisoma, Limnobacter, and ammonia oxidizing bacteria SM1A02 and Anaerolineaceae, Nitrosomonas europaea and Nitrospira, besides the anammox bacteria. These electrochemically active microorganisms comprised of ammonium oxidizing exoelectrogens (AOE) and denitrifying electrotrophs (DNE). Together with anammox bacteria Candidatus Brocadia, they constituted the microbial community structure of denitrification system. Enhanced direct interspecies electron transfer between AOE and DNE was the fundamental reason for the further improvement of the total nitrogen removal rate of the system.
