References

1. FAO, FAO Yearbook, Fishery and Aquaculture Statistics, 2014, 2016.
2. C.E. Boyd, Guidelines for aquaculture effluent management at the farm-level, Aquaculture, 226 (2003) 101–112.
3. MEP, Report on the State of the Environment in China 2014, Ministry of Environment Protection of the People’s Republic of China, 2014.
4. K. Havens, T. Frazer, Rethinking the Role of Nitrogen and Phosphorus in the Eutrophication of Aquatic Ecosystems, Sea Grant, 2015.
5. B. Legube, N.K.V. Leitner, Catalytic ozonation: a promising advanced oxidation technology for water treatment, Catal. Today, 53 (1999) 61–72.
6. L.K. Wang, Y.T. Hung, N.K. Shammas, Advanced Physicochemical Treatment Processes, Handbook of Environmental Engineering, Vol. 4, 2006.
7. D.R. Kioussis, F.W. Wheaton, P. Kofinas, Reactive nitrogen and phosphorus removal from aquaculture wastewater effluents using polymer hydrogels, Aquacult. Eng., 23 (2000) 315–332.
8. Y.-F. Lin, S.-R. Jing, D.-Y. Lee, Y.-F. Chang, Y.-M. Chen, K.-C. Shih, Performance of a constructed wetland treating intensive shrimp aquaculture wastewater under high hydraulic loading rate, Environ. Pollut., 134 (2005) 411–421.
9. Y.-F. Lin, S.-R. Jing, D.-Y. Lee, T.-W. Wang, Nutrient removal from aquaculture wastewater using a constructed wetlands system, Aquaculture, 209 (2002) 169–184.
10. Y. Liang, H. Zhu, G. Bañuelos, B. Yan, B. Shutes, X. Cheng, X. Chen, Removal of nutrients in saline wastewater using constructed wetlands: plant species, influent loads and salinity levels as influencing factors, Chemosphere, 187 (2017) 52–61.
11. J.M. Jesus, A. Cassoni, A.S. Danko, A. Fiúza, M.-T. Borges, Role of three different plants on simultaneous salt and nutrient reduction from saline synthetic wastewater in lab-scale constructed wetlands, Sci. Total Environ., 579 (2017) 447–455.
12. U. Stottmeister, A. Wießner, P. Kuschk, U. Kappelmeyer, M. Kästner, O. Bederski, R. Müller, H. Moormann, Effects of plants and microorganisms in constructed wetlands for wastewater treatment, Biotechnol. Adv., 22 (2003) 93–117.
13. S. Henry, S. Texier, S. Hallet, D. Bru, C. Dambreville, D. Chèneby, F. Bizouard, J. Germon, L. Philippot, Disentangling the rhizosphere effect on nitrate reducers and denitrifiers: insight into the role of root exudates, Environ. Microbiol., 10 (2008) 3082–3092.
14. J. Woldendorp, The quantitative influence of the rhizosphere on denitrification, Plant Soil, 17 (1962) 267–270.
15. E. Benizri, O. Dedourge, C. Dibattista-Leboeuf, S. Piutti, C. Nguyen, A. Guckert, Effect of maize rhizodeposits on soil microbial community structure, Appl. Soil Ecol., 21 (2002) 261–265.
16. D. Cheneby, S. Perrez, C. Devroe, S. Hallet, Y. Couton, F. Bizouard, G. Iuretig, J. Germon, L. Philippot, Denitrifying bacteria in bulk and maize-rhizospheric soil: diversity and N₂O-reducing abilities, Can. J. Microbiol., 50 (2004) 469–474.
17. R. Boopathy, C. Bonvillain, Q. Fontenot, M. Kilgen, Biological treatment of low-salinity shrimp aquaculture wastewater using sequencing batch reactor, Int. Biodeterior. Biodegrad., 59 (2007) 16–19.
18. E. Marinho-Soriano, S.O. Nunes, M.A.A. Carneiro, D.C. Pereira, Nutrients’ removal from aquaculture wastewater using the macroalgae Gracilaria birdiae, Biomass Bioenergy, 33 (2009) 327–331.
19. S.I. Allakhverdiev, A. Sakamoto, Y. Nishiyama, M. Inaba, N. Murata, Ionic and osmotic effects of NaCl-induced inactivation of photosystems I and II in Synechococcus sp., Plant Physiol., 123 (2000) 1047–1056.
20. U. Deinlein, A.B. Stephan, T. Horie, W. Luo, G. Xu, J.I. Schroeder, Plant salt-tolerance mechanisms, Trends Plant Sci., 19 (2014) 371–379.
21. J.M. Webb, R. Quinta, S. Papadimitriou, L. Norman, M. Rigby, D.N. Thomas, L. Le Vay, Halophyte filter beds for treatment of saline wastewater from aquaculture, Water Res., 46 (2012) 5102–5114.
22. J.J. Brown, E.P. Glenn, K.M. Fitzsimmons, S.E. Smith, Halophytes for the treatment of saline aquaculture effluent, Aquaculture, 175 (1999) 255–268.
23. J. Song, B. Wang, Using euhalophytes to understand salt tolerance and to develop saline agriculture: Suaeda salsa as a promising model, Ann. Bot., 115 (2015) 541–553.
24. Y. Liang, H. Zhu, G. Bañuelos, B. Yan, Q. Zhou, X. Yu, X. Cheng, Constructed wetlands for saline wastewater treatment: a review, Ecol. Eng., 98 (2017) 275–285.
25. J. Vymazal, Constructed wetlands for wastewater treatment: five decades of experience, Environ. Sci. Technol., 45 (2011) 61–69.
26. D.O. Huett, S.G. Morris, G. Smith, N. Hunt, Nitrogen and phosphorus removal from plant nursery runoff in vegetated and unvegetated subsurface flow wetlands, Water Res., 39 (2005) 3259–3272.
27. L.-y. Zhang, L. Zhang, Y.-d. Liu, Y.-w. Shen, H. Liu, Y. Xiong, Effect of limited artificial aeration on constructed wetland treatment of domestic wastewater, Desalination, 250 (2010) 915–920.
28. Y. Ding, X. Song, Y. Wang, D. Yan, Effects of dissolved oxygen and influent COD/N ratios on nitrogen removal in horizontal subsurface flow constructed wetland, Ecol. Eng., 46 (2012) 107–111.
29. F. Li, L. Lu, X. Zheng, H.H. Ngo, S. Liang, W. Guo, X. Zhang, Enhanced nitrogen removal in constructed wetlands: effects of dissolved oxygen and step-feeding, Bioresour. Technol., 169 (2014) 395–402.
30. B. Adrados, O. Sánchez, C.A. Arias, E. Becares, L. Garrido, J. Mas, H. Brix, J. Morató, Microbial communities from different types of natural wastewater treatment systems: vertical and horizontal flow constructed wetlands and biofilters, Water Res., 55 (2014) 304–312.
31. L. Kuai, W. Verstraete, Ammonium removal by the oxygenlimited autotrophic nitrification-denitrification system, Appl. Environ. Microbiol., 64 (1998) 4500–4506.
32. S.Q. Ni, B.Y. Gao, C.C. Wang, J.G. Lin, S. Sung, Fast start-up, performance and microbial community in a pilot-scale anammox reactor seeded with exotic mature granules, Bioresour. Technol., 102 (2011) 2448–2454.
33. I. Tsushima, Y. Ogasawara, T. Kindaichi, H. Satoh, S. Okabe, Development of high-rate anaerobic ammonium-oxidizing (anammox) biofilm reactors, Water Res., 41 (2007) 1623–1634.
34. D. Jang, Y. Hwang, H. Shin, W. Lee, Effects of salinity on the characteristics of biomass and membrane fouling in membrane bioreactors, Bioresour. Technol., 141 (2013) 50–56.
35. D.R. Kester, I.W. Duedall, D.N. Connors, R.M. Pytkowicz, Preparation of artificial seawater, Limnol. Oceanogr., 12 (1967) 176–179.
36. V.H. Riveramonroy, L.A. Torres, N. Bahamon, F. Newmark, R.R. Twilley, The potential use of mangrove forests as nitrogen sinks of shrimp aquaculture pond effluents: the role of denitrification, J. World Aquacult. Soc., 30 (1999) 12–25.
37. C. Schulz, J. Gelbrecht, B. Rennert, Treatment of rainbow trout farm effluents in constructed wetland with emergent plants and subsurface horizonal water flow, Aquaculture, 217 (2003) 207–221.
38. W. Zhi, L. Yuan, G. Ji, C. He, Enhanced long-term nitrogen removal and its quantitative molecular mechanism in tidal flow constructed wetlands, Environ. Sci. Technol., 49 (2015) 4575–4583.
39. APHA, Standard Methods for the Examination of Water and Wastewater, Vol. 4, 14th ed., American Public Health Association, 1971, p. 113.
40. R. Bray, Determination of total, organic and available forms of phosphorus in soils, Soil Sci., 59 (1944) 39–46.
41. J. Liu, Z. Yang, W. Yu, J. Hu, H. Xie, S. Wang, J. Zhang, Relationship between nitrogen transformation and its related genes: comparison among riparian, marsh, and full-scale constructed wetlands, Desal. Wat. Treat., 57 (2016) 21806–21816.
42. M. Shpigel, D. Ben-Ezra, L. Shauli, M. Sagi, Y. Ventura, T. Samocha, J.J. Lee, Constructed wetland with Salicornia as a biofilter for mariculture effluents, Aquaculture, 412–413 (2013) 52–63.
43. J. Yun, G. Zhuang, A. Ma, H. Guo, Y. Wang, H. Zhang, Community structure, abundance, and activity of methanotrophs in the Zoige wetland of the Tibetan Plateau, Microb. Ecol., 63 (2012) 835–843.
44. J. Wang, Y.S. Zhang, J.Q. Qin, Y.X. Miao, X.Y. Zeng, H.F. Ren, Influence of seawater salinity on purification efficiency of subsurface flow constructed wetland, China Water Wastewater, 25 (2009) 9–11.
45. J. Qiu, J. Wang, Y. Zhang, Applicability of constructed wetlands to the treatment of wastewater with high salinity and its research progress, Ind. Water Treat., 29 (2009) 1–3.
46. Y. Liu, Y.J. Liu, Biosorption isotherms, kinetics and thermodynamics, Sep. Purif. Technol., 61 (2008) 229–242.
47. S.M.S. Algarni, Increasing NaCl –salt tolerance of a halophytic plant Phragmites australis by mycorrhizal symbiosis, Am.-Eurasian J. Agric. Environ. Sci., 1 (2006) 119–126.
48. L. Zheng, C. Chen, F.Y. Zhang, Development of water quality model in the Satilla River Estuary, Georgia, Ecol. Modell., 178 (2004) 457–482.
49. C.M. Magalhaes, S.B. Joye, R.M. Moreira, W.J. Wiebe, A.A. Bordalo, Effect of salinity and inorganic nitrogen concentrations on nitrification and denitrification rates in intertidal sediments and rocky biofilms of the Douro River estuary, Portugal, Water Res., 39 (2005) 1783–1794.
50. C. Cortés-Lorenzo, M. Rodríguez-Díaz, D. Sipkema, B. Juárez- Jiménez, B. Rodelas, H. Smidt, J. González-López, Effect of salinity on nitrification efficiency and structure of ammoniaoxidizing bacterial communities in a submerged fixed bed bioreactor, Chem. Eng. J., 266 (2015) 233–240.
51. R. Chitrakar, S. Tezuka, A. Sonoda, K. Sakane, K. Ooi, T. Hirotsu, Adsorption of phosphate from seawater on calcined MgMn-layered double hydroxides, J. Colloid Interface Sci., 290 (2005) 45–51.
52. S. Liu, F. Yang, Z. Gong, Z. Su, Assessment of the positive effect of salinity on the nitrogen removal performance and microbial composition during the start-up of CANON process, Appl. Microbiol. Biotechnol., 80 (2008) 339–348.
53. A.R. Dinçer, F. Kargi, Salt inhibition of nitrification and denitrification in saline wastewater, Environ. Technol., 20 (1999) 1147–1153.
54. B. Kartal, M. Koleva, R. Arsov, d.S.W. Van, M.S. Jetten, M. Strous, Adaptation of a freshwater anammox population to high salinity wastewater, J. Biotechnol., 126 (2006) 546–553.
55. B.M. Marks, L. Chambers, J.R. White, Effect of fluctuating salinity on potential denitrification in coastal wetland soil and sediments, Soil Sci. Soc. Am. J., 80 (2016) 516.