References

1. A.G. Capodaglio, P. Hlavínek, M. Raboni, Physico-chemical technologies for nitrogen removal from wastewaters: a review, Interdiscip. J. Appl. Sci., 10 (2015) 481–498.
2. A. Azizi, A. Dargahi, A. Almasi, Biological removal of diazinon in a moving bed biofilm reactor-process optimization with central composite design, Toxin Rev., (2019) 1–11, doi: 10.1080/15569543.2019.1675708.
3. A. Almasi, M. Mahmoudi, M. Mohammadi, A. Dargahi, H. Biglari, Optimizing biological treatment of petroleum industry wastewater in a facultative stabilization pond for simultaneous removal of carbon and phenol, Toxin Rev., (2019) 1–9, doi: 10.1080/15569543.2019.1573433.
4. A. Dargahi, M. Mohammadi, F. Amirian, A. Karami, A. Almasi, Phenol removal from oil refinery wastewater using anaerobic stabilization pond modeling and process optimization using response surface methodology (RSM), Desal. Water Treat., 87 (2017) 199–208.
5. R. Shokoohi, A.J. Jafari, A. Dargahi, Z. Torkshavand, Study of the efficiency of bio-filter and activated sludge (BF/AS) combined process in phenol removal from aqueous solution: determination of removing model according to response surface methodology (RSM), Desal. Water Treat., 77 (2017) 356–263.
6. A. Almasi, A. Dargahi, M.M.H. Ahagh, H. Janjani, M. Mohammadi, L. Tabandeh, Efficiency of a constructed wetland in controlling organic pollutants, nitrogen, and heavy metals from sewage, J. Chem. Pharm. Sci., 9 (2016) 2924–2928.
7. E. Broda, Two kinds of lithotrophs missing in nature, J. Basic Microbiol., 17 (1977) 491–493.
8. 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.
9. J.W. Li, J.L. Li, R.T. Gao, M. Wang, L. Yang, X.L. Wang, L. Zhang, Y.Z. Peng, A critical review of one-stage anammox processes for treating industrial wastewater: optimization strategies based on key functional microorganisms, Bioresour. Technol., 265 (2018) 498–505.
10. M.R.J. Daelman, E.M. Van Voorthuizen, U.G.J.M. Van Dongen, E.I.P. Volcke, M.C.M. van Loosdrecht, Seasonal and diurnal variability of N₂O emissions from a full-scale municipal wastewater treatment plant, Sci. Total Environ., 536 (2015) 1–11.
11. T.M. Massara, S. Malamis, A. Guisasola, J.A. Baeza, C. Noutsopoulos, E. Katsou, A review on nitrous oxide (N₂O) emissions during biological nutrient removal from municipal wastewater and sludge reject water, Sci. Total Environ., 596 (2017) 106–123.
12. P.L. McCarty, Energetics and Bacterial Growth, Marcel Dekker, Inc., New York, NY, 1971.
13. P.L. McCarty, Stoichiometry of biological reactions, Prog. Water Technol., 7 (1975) 157–172.
14. B.E. Rittman, P.L. McCarty, Environmental Biotechnology: Principles and Application, McGraw-Hill Book Co., New York, NY, 2001.
15. P.L. McCarty, What is the best biological process for nitrogen removal: when and why?, Environ. Sci. Technol., 52 (2018) 3835–3841.
16. R.K. Thauer, K. Jungermann, K. Decker, Energy conservation in chemotrophic anaerobic bacteria, Bacteriol. Rev., 41 (1977) 100–180.
17. W.C. Hiatt, C.P.L. Grady Jr., An updated process model for carbon oxidation, nitrification, and denitrification, Water Environ. Res., 80 (2008) 2145–2156.
18. H.A. Ahn, R. Yu, K. Chandran, Distinctive microbial ecology and biokinetics of autotrophic ammonia and nitrite oxidation in a partial nitrification bioreactor, Biotechnol. Bioeng., 100 (2008) 1078–1087.
19. F. Fang, B.J. Ni, X.Y. Li, G.P. Sheng, H.Q. Yu, Kinetic analysis on the two-step processes of AOB and NOB in aerobic nitrifying granules, Appl. Microbiol. Biotechnol., 83 (2009) 1159–1169.
20. A.O. Sliekers, K.A. Third, W. Abma, J.G. Kuenen, M.S.M. Jetten, Canon and anammox in a gas-lift reactor, FEMS Microbiol. Lett., 218 (2003) 339–344.
21. K. Windey, I. De Bo, W. Verstraete, Oxygen-limited autotrophic nitrification-denitrification (OLAND) in a rotating biological contactor treating high-salinity wastewater, Water Res., 39 (2005) 4512–4520.
22. D. Paredes, P. Kuschk, T.S.A. Mbwette, F. Stange, R.A. Müller, H. Köser, New aspects of microbial nitrogen transformations in the context of wastewater treatment - a review, Eng. Life Sci., 7 (2007) 13–25.
23. L.A. Robertson, J.G. Kuenen, Aerobic denitrification: a controversy revived, Arch. Microbiol., 139 (1984) 351–354.
24. L.A. Robertson, J.G. Kuenen, Aerobic denitrification – old wine in new bottles? Antonie van Leeuwenhoek, 50 (1984b) 525–544.
25. L.A. Robertson, E.W.J. Van Neil, R.A.M. Torremans, J.G. Kuenen, Simultaneous nitrification and denitrification in aerobic chemostat cultures of Thiosphaera pantotropha, Appl. Environ. Microbiol., 54 (1988) 2812–2818.
26. E.V. Münch, P. Lant, J. Keller, Simultaneous nitrification and denitrification in bench-scale sequencing batch reactors, Water Res., 30 (1996) 277–284.
27. K.F. Ettwig, M.K. Butler, D.L. Paslier, E. Pelletiere, S. Mangenots, M.M.M. Kuypers, F. Schreiber, B.E. Dutilh, J. Zedelius, D. de Beer, J. Gloerich, H.J.C.T. Wessels, T. van Alen, F. Lueken, M.L. Wu, K.T. van de Pas-Schoonen, H.J.M. Op den Camp, E.M. Janssen-Megens, K.J. Fransoijs, H. Stunnenberg, J. Weissenbach, M.S.M. Jetten, M. Strous, Nitrite-driven anaerobic methane oxidation by oxygenic bacteria, Nature, 464 (2010) 543–548.
28. A. König, K. Riedel, J.W. Metzger, Microbial sensor for detecting inhibitors of nitrification in wastewater, Biosens. Bioelectron., 13 (1998) 869–874.
29. G.W. McCarty, Modes of action of nitrification inhibitors, Biol. Fertil. Soils, 29 (1999) 1–9.