Insights into the roles of anammox bacteria in post-treatment of anaerobically-treated sewage

Qian Wang; Giin Yu Amy Tan; Mohammad Azari; Xiaowu Huang; Martin Denecke; Yujie Men; Jin Young Jung; Satoshi Okabe; Muhammad Ali; Yu Tzu Huang; Zhuoying Wu; Wai hung Lo; Ji Dong Gu; Jih Gaw Lin; Po Heng Lee

doi:10.1080/10643389.2018.1474679

Insights into the roles of anammox bacteria in post-treatment of anaerobically-treated sewage

Qian Wang, Giin Yu Amy Tan, Mohammad Azari, Xiaowu Huang, Martin Denecke, Yujie Men, Jin Young Jung, Satoshi Okabe, Muhammad Ali, Yu Tzu Huang, Zhuoying Wu, Wai hung Lo, Ji Dong Gu, Jih Gaw Lin, Po Heng Lee^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

Complete anaerobic treatment of sewage has the potential to achieve net energy production via capturing the energy of organics in sewage, but not nitrogen, which remains a concern. Anaerobic ammonium oxidation (anammox) is potential for energy-efficient nitrogen removal from anaerobically-treated sewage. Given the sensitivity of anammox bacteria and the challenge of the low ammonium-bearing influent with reduced compounds such as volatile fatty acids, methane, and sulfide, this article critically reviewed and analyzed, using thermodynamic computation as a tool, the potential interactions of anammox bacteria with other microbes induced by the reduced compounds in anaerobically-treated sewage. The dynamics of anammox bacteria to cooperate with these microbes that metabolize non-ammonium pollutants and to outcompete for the common substrate, i.e., nitrite, are extensively discussed. The versatile metabolism of anammox bacteria on volatile fatty acids and iron, which would help facilitate the treatment efficiency, was also reviewed. The information offered in this review will be beneficial to researchers and engineers in controlling process stability, enhancing total nitrogen removal, and achieving better effluent quality in post-treatment of anaerobically-treated sewage by anammox-based processes.

Original language	English
Pages (from-to)	655-684
Number of pages	30
Journal	Critical Reviews in Environmental Science and Technology
Volume	48
Issue number	6
DOIs	https://doi.org/10.1080/10643389.2018.1474679
State	Published - 19 Mar 2018
Externally published	Yes

Keywords

Anammox versatility
microbial interaction
thermodynamics

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10.1080/10643389.2018.1474679

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Wang, Q., Tan, G. Y. A., Azari, M., Huang, X., Denecke, M., Men, Y., Jung, J. Y., Okabe, S., Ali, M., Huang, Y. T., Wu, Z., Lo, W. H., Gu, J. D., Lin, J. G., & Lee, P. H. (2018). Insights into the roles of anammox bacteria in post-treatment of anaerobically-treated sewage. Critical Reviews in Environmental Science and Technology, 48(6), 655-684. https://doi.org/10.1080/10643389.2018.1474679

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title = "Insights into the roles of anammox bacteria in post-treatment of anaerobically-treated sewage",

abstract = "Complete anaerobic treatment of sewage has the potential to achieve net energy production via capturing the energy of organics in sewage, but not nitrogen, which remains a concern. Anaerobic ammonium oxidation (anammox) is potential for energy-efficient nitrogen removal from anaerobically-treated sewage. Given the sensitivity of anammox bacteria and the challenge of the low ammonium-bearing influent with reduced compounds such as volatile fatty acids, methane, and sulfide, this article critically reviewed and analyzed, using thermodynamic computation as a tool, the potential interactions of anammox bacteria with other microbes induced by the reduced compounds in anaerobically-treated sewage. The dynamics of anammox bacteria to cooperate with these microbes that metabolize non-ammonium pollutants and to outcompete for the common substrate, i.e., nitrite, are extensively discussed. The versatile metabolism of anammox bacteria on volatile fatty acids and iron, which would help facilitate the treatment efficiency, was also reviewed. The information offered in this review will be beneficial to researchers and engineers in controlling process stability, enhancing total nitrogen removal, and achieving better effluent quality in post-treatment of anaerobically-treated sewage by anammox-based processes.",

keywords = "Anammox versatility, microbial interaction, thermodynamics",

author = "Qian Wang and Tan, {Giin Yu Amy} and Mohammad Azari and Xiaowu Huang and Martin Denecke and Yujie Men and Jung, {Jin Young} and Satoshi Okabe and Muhammad Ali and Huang, {Yu Tzu} and Zhuoying Wu and Lo, {Wai hung} and Gu, {Ji Dong} and Lin, {Jih Gaw} and Lee, {Po Heng}",

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doi = "10.1080/10643389.2018.1474679",

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Wang, Q, Tan, GYA, Azari, M, Huang, X, Denecke, M, Men, Y, Jung, JY, Okabe, S, Ali, M, Huang, YT, Wu, Z, Lo, WH, Gu, JD, Lin, JG & Lee, PH 2018, 'Insights into the roles of anammox bacteria in post-treatment of anaerobically-treated sewage', Critical Reviews in Environmental Science and Technology, vol. 48, no. 6, pp. 655-684. https://doi.org/10.1080/10643389.2018.1474679

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T1 - Insights into the roles of anammox bacteria in post-treatment of anaerobically-treated sewage

AU - Wang, Qian

AU - Tan, Giin Yu Amy

AU - Azari, Mohammad

AU - Huang, Xiaowu

AU - Denecke, Martin

AU - Men, Yujie

AU - Jung, Jin Young

AU - Okabe, Satoshi

AU - Ali, Muhammad

AU - Huang, Yu Tzu

AU - Wu, Zhuoying

AU - Lo, Wai hung

AU - Gu, Ji Dong

AU - Lin, Jih Gaw

AU - Lee, Po Heng

PY - 2018/3/19

Y1 - 2018/3/19

N2 - Complete anaerobic treatment of sewage has the potential to achieve net energy production via capturing the energy of organics in sewage, but not nitrogen, which remains a concern. Anaerobic ammonium oxidation (anammox) is potential for energy-efficient nitrogen removal from anaerobically-treated sewage. Given the sensitivity of anammox bacteria and the challenge of the low ammonium-bearing influent with reduced compounds such as volatile fatty acids, methane, and sulfide, this article critically reviewed and analyzed, using thermodynamic computation as a tool, the potential interactions of anammox bacteria with other microbes induced by the reduced compounds in anaerobically-treated sewage. The dynamics of anammox bacteria to cooperate with these microbes that metabolize non-ammonium pollutants and to outcompete for the common substrate, i.e., nitrite, are extensively discussed. The versatile metabolism of anammox bacteria on volatile fatty acids and iron, which would help facilitate the treatment efficiency, was also reviewed. The information offered in this review will be beneficial to researchers and engineers in controlling process stability, enhancing total nitrogen removal, and achieving better effluent quality in post-treatment of anaerobically-treated sewage by anammox-based processes.

AB - Complete anaerobic treatment of sewage has the potential to achieve net energy production via capturing the energy of organics in sewage, but not nitrogen, which remains a concern. Anaerobic ammonium oxidation (anammox) is potential for energy-efficient nitrogen removal from anaerobically-treated sewage. Given the sensitivity of anammox bacteria and the challenge of the low ammonium-bearing influent with reduced compounds such as volatile fatty acids, methane, and sulfide, this article critically reviewed and analyzed, using thermodynamic computation as a tool, the potential interactions of anammox bacteria with other microbes induced by the reduced compounds in anaerobically-treated sewage. The dynamics of anammox bacteria to cooperate with these microbes that metabolize non-ammonium pollutants and to outcompete for the common substrate, i.e., nitrite, are extensively discussed. The versatile metabolism of anammox bacteria on volatile fatty acids and iron, which would help facilitate the treatment efficiency, was also reviewed. The information offered in this review will be beneficial to researchers and engineers in controlling process stability, enhancing total nitrogen removal, and achieving better effluent quality in post-treatment of anaerobically-treated sewage by anammox-based processes.

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Insights into the roles of anammox bacteria in post-treatment of anaerobically-treated sewage

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Keywords

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