References

1. P. Prachanurak, C. Chiemchaisri, W. Chiemchaisri, K. Yamamoto, Biomass production from fermented starch wastewater in photo-bioreactor with internal overflow recirculation, Bioresour. Technol., 165 (2014) 129–136.
2. K. Sasaki, M. Watanabe, Y. Suda, A. Ishizuka, N. Noparatnaraporn, Applications of photosynthetic bacteria for medical fields, J. Biosci. Bioeng., 100 (2005) 481–488.
3. T. Hülsen, E.M. Barry, Y. Lu, D. Puyol, J. Keller, D.J. Batstone, Domestic wastewater treatment with purple photo-trophic bacteria using a novel continuous photo anaerobic membrane bioreactor, Water Res., 100 (2016) 486–495.
4. H. Lu, G. Zhang, T. Wan, Y. Lu, Influences of light and oxygen conditions on photosynthetic bacteria macromolecule degradation: different metabolic pathways, Bioresour. Technol., 102 (2011) 9503–9508.
5. I.F. Petrir, J. Suling, Reclassification of species of the spiral shaped photo-trophic purple on sulfur bacteria of the protein bacteria, Int. J. Sys. Bact., 1 (1998) 793–798.
6. Jr. C.P. Grady, G.T. Daigger, H.C. Lim, Biological Wastewater Treatment. 2nd ed. Marcel Dekker Inc., New York. 1999.
7. M. Kobayashi, Mass culture and cell utilization of photosynthetic bacteria, Process Biochem., 13 (1978) 27–30.
8. A. Khursheed, R.Z. Gaur, M.K. Sharma, V.K. Tyagi, A.A. Khan, A.A. Kazmi, Dependence of enhanced biological nitrogen removal on carbon to nitrogen and rbcod to sbcod ratios during sewage treatment in sequencing batch reactor, J. Clean. Prod., 171 (2017) 1244–1254.
9. R. Carrey, P. Rodríguez-Escales, A. Soler, N. Otero, Tracing the role of endogenous carbon in denitrification using wine industry by-product as an external electron donor: Coupling isotopic tools with mathematical modeling, J. Environ. Manage., 207 (2018) 105–115.
10. G. Mannina, G.A. Ekama, M. Capodici, A. Cosenza, D. Di Trapani, H. Ødegaard, M.M.C. van Loosdrecht, Influence of carbon to nitrogen ratio on nitrous oxide emission in an integrated fixed film activated sludge membrane bioreactor plant, J. Clean. Prod., 176 (2018) 1078–1090.
11. C. Chen, W.S. Guo, H.H. Ngo, S.W. Chang, D.D. Nguyen, J. Zhang, S. Liang, J.B. Guo, X.B. Zhang, Effects of C/N ratio on the performance of a hybrid sponge-assisted aerobic moving bed-anaerobic granular membrane bioreactor for municipal wastewater treatment, Bioresour Technol., 247 (2017) 340.
12. Y. Yang, Y. Liu, T. Yang, Y. Lv, Characterization of a microbial consortium capable of heterotrophic nitrifying under wide C/N range and its potential application in phenolic and coking wastewater, Biochem. Eng. J., 120 (2017) 33–40.
13. Q. Fontenot, C. Bonvillain, M. Kilgen, R. Boopathy, Effects of temperature, salinity, and carbon: nitrogen ratio on sequencing batch reactor treating shrimp aquaculture wastewater, Bioresour. Technol., 98 (2007) 1700–1709.
14. D. Roy, K. Hassan, R. Boopathy, Effect of carbon to nitrogen (C:N) ratio on nitrogen removal from shrimp production waste water using sequencing batch reactor, J. Ind. Microbiol. Biotechnol., 37 (2010) 1105–1110.
15. M. Kim, S.Y. Jeong, S.J. Yoon, S.J. Cho, Y.H. Kim, M.J. Kim, E.Y. Ryu, S.J. Lee, Aerobic denitrification of Pseudomonas putida ad-21 at different C/N ratios, J. Biosci. Bioeng., 106 (2008) 498–502.
16. G. Samorì, C. Samorì, F. Guerrini, R. Pistocchi, Growth and nitrogen removal capacity of Desmodesmus communis and of a natural micro-algae consortium in a batch culture system in view of urban wastewater treatment: Part I, Water Res., 47 (2013) 791–801.
17. Q. Zhou, G. Zhang, Y. Lu, P. Wu, Feasibility study and process optimization of citric acid wastewater treatment and biomass production by photosynthetic bacteria, Desal. Water Treat., 57 (2015) 1–7.
18. A. Yang, G. Zhang, G. Yang, H. Wang, F. Meng, H. Wang, M. Peng, Denitrification of aging biogas slurry from livestock farm by photosynthetic bacteria, Bioresour. Technol., 232 (2017) 408.
19. W. Zhao, C.H. He, G.M. Zhang, Culture medium optimization for photosynthetic bacteria, Adv. Mater. Res., 113–116 (2010) 1443–1446.
20. F. Meng, A. Yang, H. Wang, G. Zhang, X. Li, Y. Zhang, Z. Zou, One-step treatment and resource recovery of high-concentration non-toxic organic wastewater by photosynthetic bacteria, Bioresour. Technol., 251 (2018) 121–127.
21. R.M.A. El-Shishtawy, Y. Kitajima, S. Otsuka, S.Kawasaki, M. Morimoto, Study on the behavior of production and uptake of photo biohydrogen by photosynthetic bacterium Rhodobacter sphaeroides RV, BioHydrogen, (1998) 117–122.
22. O.H. Lowry, N.J. Rosebrough, A.L. Farr, R.J. Randall, Protein measurement with the folin phenol reagent, J. Biol. Chem., 193 (1951) 265–275.
23. D.E. Wachenheim, J.A. Patterson, M.R. Ladisch, Analysis of the logistic function model: derivation and applications specific to batch cultured microorganisms, Bioresour. Technol., 86 (2003) 157–164.
24. F. Meng, A. Yang, H. Wang, G. Zhang, X. Li, Y. Zhang, Z. Zou, One-step treatment and resource recovery of high-concentration non-toxic organic wastewater by photosynthetic bacteria, Bioresour. Technol., 251 (2018) 121.
25. H. Lu, G. Zhang, X. Dai, L. Schideman, Y. Zhang, B. Li, H. Wang, A novel wastewater treatment and biomass cultivation system combining photosynthetic bacteria and membrane bioreactor technology, Desalination, 322 (2013) 176–181.
26. W. Zhi, G. Ji, Quantitative response relationships between nitrogen transformation rates and nitrogen functional genes in a tidal flow constructed wetland under C/N ratio constraints, Water Res., 64 (2014) 32–41.
27. Y. Miao, Y. Peng, L. Zhang, B. Li, X. Li, L. Wu, S. Wang, Partial nitrification-anammox (PNA) treating sewage with intermittent aeration mode: effect of influent C/N ratios, Chem. Eng. J., 334 (2018) 664–672.
28. Q. Zhang, S. Liu, C. Yang, F. Chen, S. Lu, Bioreactor consisting of pressurized aeration and dissolved air flotation for domestic wastewater treatment, Sep. Purif. Technol., 138 (2014) 186–190.
29. F. Meng, G. Zhang, A. Yang, J. Li, Y. Zhang, Z. Zou, X. Qian, Bioconversion of wastewater by photosynthetic bacteria: Nitrogen source range, fundamental kinetics of nitrogen removal, and biomass accumulation, Bioresour. Technol. Reports, 4 (2018) 9–15.
30. A. Yang, M. Peng, G. Zhang, F. Meng, Y. Zhang, Z. Zou, Effects of light-oxygen conditions on microbial community of photosynthetic bacteria during treating high-ammonia wastewater, Process Biochem., 72 (2018) 137–142.
31. A. Yang, G. Zhang, F. Meng, P. Lu, X. Wang, M. Peng, Enhancing protein to extremely high content in photosynthetic bacteria during biogas slurry treatment, Bioresour. Technol., 245 (2017) 1277–1281.
32. X. Qiao, Z. Liu, Z. Liu, Y. Zeng, Z. Zhang, Immobilization of activated sludge in poly(ethylene glycol) by UV technology and its application in micro-polluted wastewater, Biochem. Eng. J., 50 (2010) 71–76.
33. T. Liu, B. Ma, X. Chen, B. Ni, Y. Peng, J. Guo, Evaluation of mainstream nitrogen removal by simultaneous partial nitrification, anammox and denitrification (SNAD) process in a granulebased reactor, Chem. Eng. J., 327 (2017) 973–981.
34. S. Sheng, B. Liu, X. Hou, Z. Liang, X. Sun, L. Du, Effects of different carbon sources and C/N ratios on the simultaneous anammox and denitrification process, Int. Biodeter. Biodegr., 127 (2018) 26–34.
35. J.B. Guckert, G.J. Carr, T.D. Johnson, B.G. Hamm, D.H. Davidson, Y. Kumagai, Community analysis by Biolog: Curve integration for statistical analysis of activated sludge microbial habitats, J. Microbiol. Methods, 27 (1996) 183–197.
36. K.Z. Su, H.Q. Yu, Formation and characterization of aerobic granules in a sequencing batch reactor treating soybean-processing wastewater, Environ. Sci. Technol., 39 (2005) 2818–2827.
37. P. Chatterjee, M.M. Ghangrekar, S. Rao, Development of anammox process for removal of nitrogen from wastewater in a novel self-sustainable biofilm reactor, Bioresour. Technol., 218 (2016) 723–730.
38. Z. Bi, M. Takekawa, G. Park, S. Soda, J. Zhou, S. Qiao, M. Ike, Effects of the C/N ratio and bacterial populations on nitrogen removal in the simultaneous anammox and heterotrophic denitrification process: mathematic modeling and batch experiments, Chem. Eng. J., 280 (2015) 606–613.
39. T. Xue, K.C. Yu, J. Guan, X. Huang, X.H. Wen, X.N. Miao, Determination of kinetic parameters of activated sludge in an MBR wastewater treatment plant, Environ. Sci., 32 (2011) 1027–1033.
40. Q. Zhao, X. Chen, M. Tong, Y. Zhao, Y. Zhou, J. Lu, Removal of ammonium nitrogen from petrochemical wastewater by anaerobic-aerobic process. Asian. J. Chem., 25 (2013) 9591–9594.
41. H. Sun, H. Zhao, B. Bai, Y. Chen, Q. Yang, Y. Peng, Advanced removal of organic and nitrogen from ammonium-rich landfill leachate using an anaerobic-aerobic system, Chinese J. Chem. Eng., 23 (2015) 1047–1051.
42. J. Gagnaire, X.Y. Wang, L. Chapon, P. Moulin, B. Marrot, Kinetic study of compost liquor nitrification, Water Sci. Technol., 63 (2011) 868–876.
43. K. Medhi, A. Singhal, D.K. Chauhan, I.S. Thakur, Investigating the nitrification and denitrification kinetics under aerobic and anaerobic conditions by paracoccus denitrificans istod1, Bioresour. Technol., 242 (2017) 334–343.
44. W. Qin, W. Li, D. Zhang, X. Huang, Y. Song, Ammonium reduction kinetics in drinking water by newly isolated Acinetobacter sp. hitli 7 at low temperatures, Desal. Water Treat., 57(24) (2016) 11275–11282.
45. K. Bernat, D. Kulikowska, M. Zielińska, A. Cydzik-Kwiatkowska, I. Wojnowska-Baryła, Nitrogen removal from wastewater with a low COD/N ratio at a low oxygen concentration, Bioresour. Technol., 102 (2011) 4913–4916.
46. J.C. Leyva-Díaz, A. González-Martínez, M.M. Munio, J.M. Poyatos, Two-step nitrification in a pure moving bed biofilm reactor-membrane bioreactor for wastewater treatment: nitrifying and denitrifying microbial populations and kinetic modeling, Appl. Microbiol. Biotechnol., 99 (2015) 10333–10343.
47. A.G. Geyik, F. Çeçen, Production of protein-and carbohydrate-EPS in activated sludge reactors operated at different carbon to nitrogen ratios, J. Chem. Technol. Biot., 91 (2016) 522–531.
48. H. Dong, D. Wei, J. Wei, F. Han, T. Yan, M.S. Khan, B. Du, Q. Wei, Qualitative and quantitative spectrometric evaluation of soluble microbial products formation in aerobic granular sludge system treating nitrate wastewater, Bioproc. Biosyst. Eng., (2018) 1–10.