References

1. J. Das, B.S. Patra, N. Baliarsingh, K.M. Parida, Adsorption of phosphate by layered double hydroxides in aqueous solutions, Appl. Clay Sci., 32 (2006) 252–260.
2. S.M. Ashekuzzaman, J.Q. Jiang, Study on the sorption–desorption–regeneration performance of Ca-, Mg- and CaMg-based layered double hydroxides for removing phosphate from water, Chem. Eng. J., 246 (2014) 97–105.
3. X. Xu, B.Y. Gao, Q.Y. Yue, Q.Q. Zhong, Sorption of phosphate onto giant reed based adsorbent: FTIR, Raman spectrum analysis and dynamic sorption/desorption properties in filter bed, Bioresour. Technol., 102 (2011) 5278–5282.
4. U.S. Environmental Protection Agency (USEPA), Quality Criteria for Water, Office of Water, Regulation and Standard, Washington, D.C. 20460, EPA 440/5-86-001, 1986.
5. Florida Everglades Forever Act, Florida State Legislature, Tallahassee, Florida, 1994.
6. L.M. Blaney, S. Cinar, A.K. SenGupta, Hybrid anion exchanger for trace phosphate removal from water and wastewater, Water Res., 41 (2007) 1603–1613.
7. A. Soares, M. Veesam, F. Simoes, E. Wood, S.A. Parsons, T. Stephenson, Bio-struvite: a new route to recover phosphorus from wastewater, Clean Soil Air Water, 42 (2014) 994–997.
8. E.M.v. Voorthuizen, A. Zwijnenburg, M. Wessling, Nutrient removal by NF and RO membranes in a decentralized sanitation system, Water Res., 39 (2005) 3657–3667.
9. A. Oehmen, P.C. Lemos, G. Carvalho, Z. Yuan, J. Keller, L.L. Blackall, M.A. Reis, Advances in enhanced biological phosphorus removal: from micro to macro scale, Water Res., 41 (2007) 2271–2300.
10. X.X. Ju, S.B. Wu, Y.S. Zhang, R.J. Dong, Intensified nitrogen and phosphorus removal in a novel electrolysis-integrated tidal flow constructed wetland system, Water Res., 59 (2014) 37–45.
11. L. De-Bashan, Y. Bashan, Recent advances in removing phosphorus from wastewater and its future use as fertilizer (1997-2003), Water Res., 38 (2004) 4222–4246.
12. R. Chitrakar, S. Tezuka, A. Sonoda, K. Sakane, K. Ooi, T. Hirotsu, Phosphate adsorption on synthetic goethite and akaganeite, J. Colloid Interface Sci., 298 (2006) 602–608.
13. L. Bouhouf, C. Boukhalfa, L. Reinert, L. Duclaux, Characterization of phosphate removal from aqueous solution by manganese oxyhydroxyde, Desal. Wat. Treat., 89 (2017) 274– 279 .
14. W. Chen, L. Li, W. Zhang, F. Xu, M. Niu, J. Wang, Y. Wang, Microwave-assisted dried volcanic tephra/calcium alginate composite for phosphate removal from micro-polluted wastewater, Clean Soil Air Water, 42 (2014) 561–570.
15. F. Peng, P.-W. He, Y. Luo, X. Lu, Y. Liang, J. Fu, Adsorption of phosphate by biomass char deriving from fast pyrolysis of biomass waste, Clean Soil Air Water, 40 (2012) 493–498.
16. R. Chintala, T.E. Schumacher, L.M. McDonald, D.E. Clay, D.D. Malo, S.K. Papiernik, S.A. Clay, J.L. Julson, Phosphorus sorption and availability from biochars and soil/biochar mixtures, Clean Soil Air Water, 42 (2014) 626–634.
17. O.R. Harvey, R.D. Rhue, Kinetics and energetics of phosphate sorption in a multi-component Al(III)–Fe(III) hydr(oxide) sorbent system, J. Colloid Interface Sci., 322 (2008) 384–393.
18. Y. Su, W.Y. Yang, W.Z. Sun, Q. Li, J.K. Shang, Synthesis of mesoporous cerium–zirconium binary oxide nanoadsorbents by a solvothermal process and their effective adsorption of phosphate from water, Chem. Eng. J., 268 (2015) 270–279.
19. G.S. Zhang, H.J. Liu, R.P. Liu, J.H. Qu, Removal of phosphate from water by a Fe–Mn binary oxide adsorbent, J. Colloid Interface Sci., 335 (2009) 168–174.
20. Z.M. Ren, L.N. Shao, G.S. Zhang, Adsorption of phosphate from aqueous solution using an iron–zirconium binary oxide sorbent, Water Air Soil Pollut., 223 (2012) 4221–4231.
21. J.B. Lü, H.J. Liu, R.P. Liu, X. Zhao, L.P. Sun, J.H. Qu, Adsorptive removal of phosphate by a nanostructured Fe–Al–Mn trimetal oxide adsorbent, Powder Technol., 233 (2013) 146–154.
22. W. Zhang, X.W. Wang, J. Chen, G.S. Zhang, Highly efficient removal of phosphate using a novel Fe-La binary (hydro) oxide as adsorbent: behavior and mechanism, Desal. Wat. Treat., 83 (2017) 98–110.
23. G.L. Li, S. Gao, G.S. Zhang, X.W. Zhang, Enhanced adsorption of phosphate from aqueous solution by nanostructured iron(III)- copper(II) binary oxides, Chem. Eng. J., 235 (2014) 124–131.
24. X.M. Dou, Y.S. Zhang, H.J. Wang, T.J. Wang, Y.L. Wang, Performance of granular zirconium-iron oxide in the removal of fluoride from drinking water, Water Res., 45 (2011) 3571–3578.
25. L.L. Ma, N. Chen, C.P. Feng, Comparison of phosphorus removal characteristics using synthesized Fe-loaded granular composites, Desal. Wat. Treat., 77 (2017) 221–228.
26. C. Vervaet, J.P. Remon, Continuous granulation in the pharmaceutical industry, Chem. Eng. Sci., 60 (2005) 3949–3957.
27. E. Ahmadi, M.N. Haghighi, Z. Mohamadnia, A. Ramazani, Preparation of shishkebab and nanofiber polyethylene with chromium/santa barbara amorphous silica-15 catalysts, J. Appl. Polym. Sci., 118 (2010) 3658–3665.
28. D.G. Kinniburgh, J.K. Syers, M.L. Jackson, Specific adsorption of trace amounts of calcium and strontium by hydrous oxides of iron and aluminum, Soil Sci. Soc. Am. Proc., 39 (1975) 464–470.
29. J. Lalley, C. Han, X. Li, D.D. Dionysiou, M.N. Nadagouda, Phosphate adsorption using modified iron oxide-based sorbents in lake water: kinetics, equilibrium, and column tests, Chem. Eng. J., 284 (2016) 1396–1396.
30. F. Long, J.L. Gong, G.M. Zeng, L. Chen, X.Y. Wang, J.H. Deng, Q.Y. Niu, H.Y. Zhang, X.R. Zhang, Removal of phosphate from aqueous solution by magnetic Fe-Zr binary oxide, Chem. Eng. J., 171 (2011) 448–455.
31. S.Y. Yoon, C.G. Lee, J.A. Park, J.H. Kim, S.B. Kim, S.H. Lee, J.W. Choi, Kinetic, equilibrium and thermodynamic studies for phosphate adsorption to magnetic iron oxide nanoparticles, Chem. Eng. J., 236 (2014) 341–347.
32. H. Li, J.Y. Ru, W. Yin, X.H. Liu, J.Q. Wang, W.D. Zhang, Removal of phosphate from polluted water by lanthanum doped vesuvianite, J. Hazard. Mater., 168 (2009) 326–330.
33. J.B. Xiong, Q. Mahmood, Adsorptive removal of phosphate from aqueous media by peat, Desalination, 259 (2010) 59–64.
34. S. Hussain, H.A. Aziz, M.H. Isa, A. Ahmad, J.V. Leeuwen, L. Zou, S. Beecham, M. Umar, Orthophosphate removal from domestic wastewater using limestone and granular activated carbon, Desalination, 271 (2011) 265–272.
35. J. Xie, C. Li, L. Chi, D. Wu, Chitosan modified zeolite as a versatile adsorbent for the removal of different pollutants from water, Fuel, 103 (2013) 480–485.
36. B. Hui, Y. Zhang, L. Ye, Preparation of PVA hydrogel beads and adsorption mechanism for advanced phosphate removal, Chem. Eng. J., 235 (2014) 207–214.
37. W. Stumm, Chemistry of the Solid–Water Interface, Wiley Interscience, New York, 1996.
38. M. Badruzzaman, P. Westerhoff, D.R.U. Knappe, Intraparticle diffusion and adsorption of arsenate onto granular ferric hydroxide (GFH), Water Res., 38 (2004) 4002–4012.
39. M. D’Arcy, D. Weiss, M. Bluck, R. Vilar, Adsorption kinetics, capacity and mechanism of arsenate and phosphate on a bifunctional TiO₂–Fe₂O₃ bi-composite, J. Colloid Interface Sci., 364 (2011) 205–212.
40. K.O. Konhauser, S.V. Lalonde, L. Amskold, H.D. Holland, Was there really an Archean phosphate crisis?, Science, 315 (2007) 1234–1234.
41. G.S. Zhang, Z.M. Ren, X.W. Zhang, J. Chen, Nanostructured iron(III)-copper(II) binary oxide: a novel adsorbent for enhanced arsenic removal from aqueous solutions, Water Res., 47 (2013) 4022–4031.
42. G. Lefevre, In situ Fourier-transform infrared spectroscopy studies of inorganic ions adsorption on metal oxides and hydroxides, Adv. Colloid Interface, 107 (2004) 109–123.