Reactor performance, biofilm property and microbial community of anaerobic ammonia-oxidizing bacteria under long-term exposure to elevated Cu (II)

In this study, the variation of reactor performance, biofilm property and microbial community in response to the elevated Cu (II) in Anammox system were investigated. The nitrogen removal, extracellular polymeric substance (EPS) and copper content in biofilm, soluble microbial products (SMP), dehydr...

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Published inInternational biodeterioration & biodegradation Vol. 129; pp. 156 - 162
Main Authors Ma, Yongpeng, Yuan, Dongli, Mu, Bailong, Zhou, Jianuan, Zhang, Xiaojing
Format Journal Article
LanguageEnglish
Published Barking Elsevier Ltd 01.04.2018
Elsevier BV
Subjects
AAOB
Ammonia
Ammonia-oxidizing bacteria
anaerobic ammonium oxidation
Anaerobic microorganisms
Anammox
biofilm
Biofilms
Candidatus Kuenenia
chronic exposure
Communities
Copper
Cu (II)
Dehydrogenase activity
Dehydrogenases
enzyme activity
EPS
microbial communities
Microbiomes
Microorganisms
nitrifying bacteria
Nitrogen
Nitrogen removal
Oxidation
polymers
Reactors
Recovery
Nitrogen removal
Cu (II)
Anammox
EPS
AAOB
Dehydrogenase activity
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Abstract In this study, the variation of reactor performance, biofilm property and microbial community in response to the elevated Cu (II) in Anammox system were investigated. The nitrogen removal, extracellular polymeric substance (EPS) and copper content in biofilm, soluble microbial products (SMP), dehydrogenase activity (DHA) and microbial community were evaluated. The self-recovery ability was also investigated after stopping Cu (II) supply. Results showed the long-term feeding of Cu (II) significantly suppressed the nitrogen removal in Anammox system. The nitrogen removal rate (NRR) decreased to 0.210, 0.145 and 0 kg m−3 d−1, respectively in 1, 5 and 10 mg L−1 Cu (II), from the initial 0.50 kg m−3 d−1, with the decreasing ratio of 57.3%, 71.0% and 100%. With the elevation of Cu (II), the SMP, EPS and copper content gradually increased while DHA sharply decreased. Cu (II) improved the microbial diversity and lowered the Candidatus Kuenenia abundance to 1.36% from the initial 6.50%. The self-recovery ability of Anammox system was unsatisfactory, the NRR only recovered to 26.7% after one month operation free from Cu (II). Finally, the mechanism of Cu (II) interacting with Anammox biofilm was analyzed. •The mechanism of Cu (II) interacting with Anammox biofilm was proposed.•10 mg L−1 Cu (II) decreased the nitrogen removal to 0 in Anammox system.•Copper content in biofilm was the key factor affecting AAOB bioactivity.•Copper content showed negative correlation with both NRR and DHA.•Cu (II) performed more durable inhibition on AAOB bioactivity than on the microbial community.
AbstractList In this study, the variation of reactor performance, biofilm property and microbial community in response to the elevated Cu (II) in Anammox system were investigated. The nitrogen removal, extracellular polymeric substance (EPS) and copper content in biofilm, soluble microbial products (SMP), dehydrogenase activity (DHA) and microbial community were evaluated. The self-recovery ability was also investigated after stopping Cu (II) supply. Results showed the long-term feeding of Cu (II) significantly suppressed the nitrogen removal in Anammox system. The nitrogen removal rate (NRR) decreased to 0.210, 0.145 and 0 kg m−3 d−1, respectively in 1, 5 and 10 mg L−1 Cu (II), from the initial 0.50 kg m−3 d−1, with the decreasing ratio of 57.3%, 71.0% and 100%. With the elevation of Cu (II), the SMP, EPS and copper content gradually increased while DHA sharply decreased. Cu (II) improved the microbial diversity and lowered the Candidatus Kuenenia abundance to 1.36% from the initial 6.50%. The self-recovery ability of Anammox system was unsatisfactory, the NRR only recovered to 26.7% after one month operation free from Cu (II). Finally, the mechanism of Cu (II) interacting with Anammox biofilm was analyzed. •The mechanism of Cu (II) interacting with Anammox biofilm was proposed.•10 mg L−1 Cu (II) decreased the nitrogen removal to 0 in Anammox system.•Copper content in biofilm was the key factor affecting AAOB bioactivity.•Copper content showed negative correlation with both NRR and DHA.•Cu (II) performed more durable inhibition on AAOB bioactivity than on the microbial community.
In this study, the variation of reactor performance, biofilm property and microbial community in response to the elevated Cu (II) in Anammox system were investigated. The nitrogen removal, extracellular polymeric substance (EPS) and copper content in biofilm, soluble microbial products (SMP), dehydrogenase activity (DHA) and microbial community were evaluated. The self-recovery ability was also investigated after stopping Cu (II) supply. Results showed the long-term feeding of Cu (II) significantly suppressed the nitrogen removal in Anammox system. The nitrogen removal rate (NRR) decreased to 0.210, 0.145 and 0 kg m−3 d−1, respectively in 1, 5 and 10 mg L−1 Cu (II), from the initial 0.50 kg m−3 d−1, with the decreasing ratio of 57.3%, 71.0% and 100%. With the elevation of Cu (II), the SMP, EPS and copper content gradually increased while DHA sharply decreased. Cu (II) improved the microbial diversity and lowered the Candidatus Kuenenia abundance to 1.36% from the initial 6.50%. The self-recovery ability of Anammox system was unsatisfactory, the NRR only recovered to 26.7% after one month operation free from Cu (II). Finally, the mechanism of Cu (II) interacting with Anammox biofilm was analyzed.
Author Ma, Yongpeng
Mu, Bailong
Zhang, Xiaojing
Zhou, Jianuan
Yuan, Dongli
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Keywords Nitrogen removal
Cu (II)
Anammox
EPS
AAOB
Dehydrogenase activity
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Snippet In this study, the variation of reactor performance, biofilm property and microbial community in response to the elevated Cu (II) in Anammox system were...
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SubjectTerms AAOB
Ammonia
Ammonia-oxidizing bacteria
anaerobic ammonium oxidation
Anaerobic microorganisms
Anammox
biofilm
Biofilms
Candidatus Kuenenia
chronic exposure
Communities
Copper
Cu (II)
Dehydrogenase activity
Dehydrogenases
enzyme activity
EPS
microbial communities
Microbiomes
Microorganisms
nitrifying bacteria
Nitrogen
Nitrogen removal
Oxidation
polymers
Reactors
Recovery
Title Reactor performance, biofilm property and microbial community of anaerobic ammonia-oxidizing bacteria under long-term exposure to elevated Cu (II)
URI https://dx.doi.org/10.1016/j.ibiod.2018.02.006
https://www.proquest.com/docview/2065252228
https://www.proquest.com/docview/2335120883
Volume 129
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