References

  1. R. Khiewwijit, H. Rijnaarts, H. Temmink, K.J. Keesman, Glocal assessment of integrated wastewater treatment and recovery concepts using partial nitritation/Anammox and microalgae for environmental impacts, Sci. Total Environ., 628–629 (2018) 74–84.
  2. A. Mulder, A.A. van de Graaf, L.A. Robertson, J.G. Kuenen, Anaerobic ammonium oxidation discovered in a denitrifying fluidized bed reactor, FEMS Microbiol. Ecol., 16 (1995) 177–183.
  3. J. Zhang, Y. Miao, Y. Sun, Q. Zhang, J. Dai, Y. Peng, An effective strategy for in situ start-up of mainstream anammox process treating domestic sewage, Bioresour. Technol., 339 (2021) 125525, doi:10.1016/j.biortech.2021.125525.
  4. Y.H. Ahn, I.S. Hwang, K.S. Min, ANAMMOX and partial denitritation in anaerobic nitrogen removal from piggery waste, Water Sci. Technol., 49 (2004) 145–153.
  5. J. Li, L. Zhang, Y. Peng, Q. Zhang, Effect of low COD/N ratios on stability of single-stage partial nitritation/anammox (SPN/A) process in a long-term operation, Bioresour. Technol., 244 (2017) 192–197.
  6. X. Zhang, H. Zhang, C. Ye, M. Wei, J. Du, Effect of COD/N ratio on nitrogen removal and microbial communities of CANON process in membrane bioreactors, Bioresour. Technol., 189 (2015) 302–308.
  7. Y. Qin, Y. Cao, J. Ren, T. Wang, B. Han, Effect of glucose on nitrogen removal and microbial community in anammoxdenitrification system, Bioresour. Technol., 244 (2017) 33–39.
  8. W. Wang, H. Xie, H. Wang, H. Xue, J. Wang, M. Zhou, X. Dai, Y. Wang, Organic compounds evolution and sludge properties variation along partial nitritation and subsequent anammox processes treating reject water, Water Res., 184 (2020) 116197, doi: 10.1016/j.watres.2020.116197.
  9. L. Liu, M. Ji, F. Wang, Z. Tian, T. Wang, S. Wang, S. Wang, Z. Yan, Insight into the short-term effect of fulvic acid on nitrogen removal performance and N-acylated-L-homoserine lactones (AHLs) release in the anammox system, Sci. Total Environ., 704 (2020) 135285, doi: 10.1016/j.scitotenv.2019.135285.
  10. N. Hubaux, G. Wells, E. Morgenroth, Impact of coexistence of flocs and biofilm on performance of combined nitritationanammox granular sludge reactors, Water Res., 68 (2015) 127–139.
  11. M. Azari, M. Lübken, M. Denecke, Simulation of simultaneous anammox and denitrification for kinetic and physiological characterization of microbial community in a granular biofilm system, Biochem. Eng. J., 127 (2017) 206–216.
  12. J. Zhang, Y. Miao, Q. Zhang, Y. Sun, L. Wu, Y. Peng, Mechanism of stable sewage nitrogen removal in a partial nitrificationanammox biofilm system at low temperatures: microbial community and EPS analysis, Bioresour. Technol., 297 (2020) 122459, doi: 10.1016/j.biortech.2019.122459.
  13. D. Naghipour, E. Rouhbakhsh, J. Jaafari, Application of the biological reactor with fixed media (IFAS) for removal of organic matter and nutrients in small communities, Int. J. Environ. Anal. Chem., (2020) 1803851, doi: 10.1080/03067319.2020.1803851.
  14. J. Jaafari, A.B. Javid, H. Barzanouni, A. Younesi, N.A.A. Farahani, M. Mousazadeh, P. Soleimani, Performance of modified onestage Phoredox reactor with hydraulic up-flow in biological removal of phosphorus from municipal wastewater, Desal. Water Treat., 171 (2019) 216–222.
  15. J. Jafari, A. Mesdaghinia, R. Nabizadeh, M. Farrokhi, A.H. Mahvi, Investigation of anaerobic fluidized bed reactor/aerobic moving bed bio reactor (AFBR/MMBR) system for treatment of currant wastewater, Iran. J. Public Health, 42 (2013) 860–867.
  16. S. He, Y. Chen, M. Qin, Z. Mao, L. Yuan, Q. Niu, X. Tan, Effects of temperature on anammox performance and community structure, Bioresour. Technol., 260 (2018) 186–195.
  17. Y. Xiong, S. Hu, H. Zhou, H. Zeng, X. He, D. Huang, X. Li, High-throughput 16S rDNA sequencing of the pulmonary microbiome of rats with allergic asthma, Genes Dis., 7 (2020) 272–282.
  18. J. Ji, Y. Peng, W. Mai, J. He, B. Wang, X. Li, Q. Zhang, Achieving advanced nitrogen removal from low C/N wastewater by combining endogenous partial denitrification with anammox in mainstream treatment, Bioresour. Technol., 270 (2018) 570–579.
  19. H. Su, D. Zhang, P. Antwi, L. Xiao, Z. Zhang, X. Deng, C. Lai, J. Zhao, Y. Deng, Z. Liu, M. Shi, Adaptation, restoration and collapse of anammox process to La(III) stress: performance, microbial community, metabolic function and network analysis, Bioresour. Technol., 325 (2021) 124731, doi:10.1016/j.biortech.2021.124731.
  20. D. Kang, T. Yu, D. Xu, Z. Zeng, A. Ding, M. Zhang, S. Shan, W. Zhang, P. Zheng, The anammox process at typical feastfamine states: reactor performance, sludge activity and microbial community, Chem. Eng. J., 370 (2019) 110–119.
  21. T. Ya, S. Du, Z. Li, S. Liu, M. Zhu, X. Liu, Z. Jing, R. Hai, X. Wang, Successional dynamics of molecular ecological network of anammox microbial communities under elevated salinity, Water Res., 188 (2021) 116540, doi:10.1016/j.watres.2020.116540.
  22. H.T.T. Nguyen, V.Q. Le, A.A. Hansen, J.L. Nielsen, P.H. Nielsen, High diversity and abundance of putative polyphosphateaccumulating Tetrasphaera-related bacteria in activated sludge systems, FEMS Microbiol. Ecol., 76 (2011) 256–267.
  23. S. Cho, Y. Takahashi, N. Fujii, Y. Yamada, H. Satoh, S. Okabe, Nitrogen removal performance and microbial community analysis of an anaerobic up-flow granular bed anammox reactor, Chemosphere, 78 (2010) 1129–1135.
  24. Y. Zhao, S. Liu, B. Jiang, Y. Feng, T. Zhu, H. Tao, X. Tang, S. Liu, Genome-centered metagenomics analysis reveals the symbiotic organisms possessing ability to cross-feed with anammox bacteria in anammox consortia, Environ. Sci. Technol., 52 (2018) 11285–11296.
  25. M.C.M.S. Costa, L. Carvalho, C.D. Leal, M.F. Dias, K.L. Martins, G.B. Garcia, I.D. Mancuelo, T. Hipólito, E.F. Abreu Mac Conell, D. Okada, C. Etchebehere, C.A.L. Chernicharo, J.C. Araujo, Impact of inocula and operating conditions on the microbial community structure of two anammox reactors, Environ. Technol., 35 (2014) 1811–1822.
  26. D. Jeong, W. Kim, H. Lim, H. Bae, Shift in bacterial community structure in response to salinity in a continuous anaerobic ammonium oxidation (anammox) reactor, Int. Biodeterior. Biodegrad., 147 (2020) 104873, doi:10.1016/j.ibiod.2019.104873.
  27. Q. Wang, J. He, Complete nitrogen removal via simultaneous nitrification and denitrification by a novel phosphate accumulating Thauera sp. strain SND5, Water Res., 185 (2020) 116300, doi:10.1016/j.watres.2020.116300.
  28. Q. Kong, X. He, Y. Feng, M.-s. Miao, Q. Wang, Y.-d. Du, F. Xu, Pollutant removal and microorganism evolution of activated sludge under ofloxacin selection pressure, Bioresour. Technol., 241 (2017) 849–856.
  29. S. Chong, T.K. Sen, A. Kayaalp, H.M. Ang, The performance enhancements of upflow anaerobic sludge blanket (UASB) reactors for domestic sludge treatment – a state-of-the-art review, Water Res., 46 (2012) 3434–3470.
  30. S.-Q. Ni, J.-Y. Ni, D.-L. Hu, S. Sung, Effect of organic matter on the performance of granular anammox process, Bioresour. Technol., 110 (2012) 701–705.