A holistic analysis of ANAMMOX process in response to salinity : from adaptation to collapse
The application of anaerobic ammonium oxidation (ANAMMOX) process to industrial wastewater treatment usually faces the challenge of high salinity. However, most of the current ANAMMOX sludge was enriched from low-salinity water, resulting in the critical gap between the inoculum and saline wastewate...
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sg-ntu-dr.10356-1504132021-08-04T08:53:23Z A holistic analysis of ANAMMOX process in response to salinity : from adaptation to collapse Lu, Huifeng Li, Yiyu Shan, Xiaoyu Abbas, Ghulam Zeng, Zhuo Kang, Da Wang, Yayi Zheng, Ping Zhang, Meng Nanyang Environment and Water Research Institute Advanced Environmental Biotechnology Centre (AEBC) Engineering::Environmental engineering Anaerobic Ammonium Oxidation Salinity The application of anaerobic ammonium oxidation (ANAMMOX) process to industrial wastewater treatment usually faces the challenge of high salinity. However, most of the current ANAMMOX sludge was enriched from low-salinity water, resulting in the critical gap between the inoculum and saline wastewater. In this work, an ANAMMOX reactor fed with inoculum enriched from low-salinity water successfully adapted to saline wastewater (500 mmol/L NaCl, 2.92%) after a long-term stepwise acclimatization. The nitrogen removal rate and total nitrogen removal efficiency reached 9.72 kg·m⁻³·d⁻¹ and 80.90%, respectively. However, further salinity increase to 600 mmol/L caused a collapse of reactor performance. The proportion of inorganic matters improved along with the increase of salinity, which might be attributed to the compact particles observed in the microstructure of ANAMMOX sludge. A microbial community succession occurred in response to the increase of salinity. When the salinity increased to 160 mmol/L, the dominant functional bacteria shifted from Candidatus Kuenenia to unclassified Brocadiaceae, which was supposed to be salt-tolerant. The up and down regulations of polysaccharides and ζ potential in EPS were positive strategies for salinity adaptation of ANAMMOX bacteria. However, the barrier of seawater salinity (3–5%) could not be overcome. The present work would provide a holistic view for the enrichment of salt-tolerant ANAMMOX bacteria and help in the selection of seeding sludge for the treatment of saline wastewater by ANAMMOX process. This work was supported by the National Natural Science Foundation of China (Grant: numbers: 51608474, 51578484 and 51778563), State Key Laboratory of Pollution Control and Resource Reuse Foundation (Grant number: PCRRF16011), Sichuan Provincial Key Lab of Process Equipment and Control Foundation (Grant number: GK201617), and Research Funds for Central Universities (Grant number: 2017xzzx010-03). 2021-08-04T08:53:23Z 2021-08-04T08:53:23Z 2019 Journal Article Lu, H., Li, Y., Shan, X., Abbas, G., Zeng, Z., Kang, D., Wang, Y., Zheng, P. & Zhang, M. (2019). A holistic analysis of ANAMMOX process in response to salinity : from adaptation to collapse. Separation and Purification Technology, 215, 342-350. https://dx.doi.org/10.1016/j.seppur.2019.01.016 1383-5866 https://hdl.handle.net/10356/150413 10.1016/j.seppur.2019.01.016 2-s2.0-85060057241 215 342 350 en Separation and Purification Technology © 2019 Elsevier B.V. All rights reserved. |
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Engineering::Environmental engineering Anaerobic Ammonium Oxidation Salinity |
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Engineering::Environmental engineering Anaerobic Ammonium Oxidation Salinity Lu, Huifeng Li, Yiyu Shan, Xiaoyu Abbas, Ghulam Zeng, Zhuo Kang, Da Wang, Yayi Zheng, Ping Zhang, Meng A holistic analysis of ANAMMOX process in response to salinity : from adaptation to collapse |
| description |
The application of anaerobic ammonium oxidation (ANAMMOX) process to industrial wastewater treatment usually faces the challenge of high salinity. However, most of the current ANAMMOX sludge was enriched from low-salinity water, resulting in the critical gap between the inoculum and saline wastewater. In this work, an ANAMMOX reactor fed with inoculum enriched from low-salinity water successfully adapted to saline wastewater (500 mmol/L NaCl, 2.92%) after a long-term stepwise acclimatization. The nitrogen removal rate and total nitrogen removal efficiency reached 9.72 kg·m⁻³·d⁻¹ and 80.90%, respectively. However, further salinity increase to 600 mmol/L caused a collapse of reactor performance. The proportion of inorganic matters improved along with the increase of salinity, which might be attributed to the compact particles observed in the microstructure of ANAMMOX sludge. A microbial community succession occurred in response to the increase of salinity. When the salinity increased to 160 mmol/L, the dominant functional bacteria shifted from Candidatus Kuenenia to unclassified Brocadiaceae, which was supposed to be salt-tolerant. The up and down regulations of polysaccharides and ζ potential in EPS were positive strategies for salinity adaptation of ANAMMOX bacteria. However, the barrier of seawater salinity (3–5%) could not be overcome. The present work would provide a holistic view for the enrichment of salt-tolerant ANAMMOX bacteria and help in the selection of seeding sludge for the treatment of saline wastewater by ANAMMOX process. |
| author2 |
Nanyang Environment and Water Research Institute |
| author_facet |
Nanyang Environment and Water Research Institute Lu, Huifeng Li, Yiyu Shan, Xiaoyu Abbas, Ghulam Zeng, Zhuo Kang, Da Wang, Yayi Zheng, Ping Zhang, Meng |
| format |
Article |
| author |
Lu, Huifeng Li, Yiyu Shan, Xiaoyu Abbas, Ghulam Zeng, Zhuo Kang, Da Wang, Yayi Zheng, Ping Zhang, Meng |
| author_sort |
Lu, Huifeng |
| title |
A holistic analysis of ANAMMOX process in response to salinity : from adaptation to collapse |
| title_short |
A holistic analysis of ANAMMOX process in response to salinity : from adaptation to collapse |
| title_full |
A holistic analysis of ANAMMOX process in response to salinity : from adaptation to collapse |
| title_fullStr |
A holistic analysis of ANAMMOX process in response to salinity : from adaptation to collapse |
| title_full_unstemmed |
A holistic analysis of ANAMMOX process in response to salinity : from adaptation to collapse |
| title_sort |
holistic analysis of anammox process in response to salinity : from adaptation to collapse |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/150413 |
| _version_ |
1707774584191713280 |