References

  1. L.F. Konikow, E. Kendy, Groundwater depletion: A global problem, Hydro geol. J., 13 (2005) 317–320.
  2. T. Reemtsma, G. Regina, M. Jekel, Infiltration of combined sewer overflow and tertiary municipal wastewater: an integrated laboratory and field study on nutrients and dissolved organics, Water Res., 34 (2000) 1179–1186.
  3. T. Gleeson, J. VanderSteen, M.A. Sophocleous, M. Taniguchi, W.M. Alley, D.M. Allen, Y. Zhou, Groundwater sustainability strategies, Nat. Geo. Sci., 6 (2010) 378–379.
  4. C. Xu, W. Yujie, Z. Peihua, C. Huiyu, L. Yaqing, Porous hematite micro flowers toward the adsorption of organic pollutants from water, Mater. Lett., 159 (2015) 64–67.
  5. Y. Wada, L.PH.V. Beek, C.M.V. Kempen, J.WTM. Reckman, S. Vasak, M.FP. Bierkens, Global depletion of groundwater resources, Geo. Phys. Res. Let., 20 (2010).
  6. S.S. Eslamian, In: M. Sayahi, B. Khosravi, Urban Water Reuse Handbook, Conjunctive Use of Water Reuse and Urban Water, Taylor and Francis Group, CRC Press, USA, pp. 1071–1078.
  7. P. Ollivier, N. Surdyk, M. Azaroual, K. Besnard, J. Casanova, N. Rampnoux, Linking water quality changes to geochemical processes occurring in a reactive soil column during treated wastewater infiltration using a large-scale pilot experiment: Insights into Mn behavior, Chem. Geol., 356 (2013) 109–125.
  8. N. Icekson-Tal, O. Avraham, J. Sack, H. Cikurel, Water reuse in Israel-the Dan Region Project: evaluation of water quality and reliability of plant’s operation, Water Sci. Technol., 4 (2003) 231–237.
  9. V. Lazarova, G. Cirelli, P. Jeffrey, M. Salgot, N. Icekson, F. Brissaud, Enhancement of integrated water management and water reuse in Europe and the Middle East, Water Sci. Technol., 42 (2000) 193–202.
  10. S. Sudhakaran, S. Lattemann, G.L. Amy, Appropriate drinking water treatment processes for organic micro pollutants removal based on experimental and model studies—a multi-criteria analysis study, Sci. Total Environ., 442 (2013) 478–488.
  11. H. Im, I. Yeo, S.K. Maeng, C.H. Park, H. Choi, Simultaneous attenuation of pharmaceuticals, organic matter, and nutrients in wastewater effluent through managed aquifer recharge: batch and column studies, Chemosphere, 143 (2016) 135–141.
  12. S.K. Maeng, S.K. Sharma, K. Lekkerkerker-Teunissen, G.L. Amy, Occurrence and fate of bulk organic matter and pharmaceutically active compounds in managed aquifer recharge: a review, Water Res., 45 (2011) 3015–3033.
  13. C. Ray, T. Grischek, J. Schubert, J.Z. Wang, T.F. Speth, A perspective of riverbank filtration, J. AWWA, 94 (2002) 149.
  14. Y. Chen, J. Tarchitzky, A. Gilboa, I. Nadav, The effect of wastewater originating organic matter on the hydraulic properties of infiltration basin soils. Research Report Submitted to Mekorot, Israel National Water Authority, Rehovot, Israel, 2009.
  15. A. Feigin, I. Ravina, J. Shalhevet, Irrigation with treated sewage effluent: management for environmental protection, Springer Science & Business Media, 17, 2012.
  16. Y. Chen, O. Lerner, J. Tarchitzky, Hydraulic conductivity and soil hydrophobicity: effect of irrigation with reclaimed wastewater, 9th Nordic IHSS symposium on abundance and functions of natural organic matter species in soil and water, Mid-Sweden University, Sundsvall, 19 (2003).
  17. G. Arye, J. Tarchitzky, Y. Chen, Treated wastewater effects on water repellency and soil hydraulic properties of soil aquifer treatment infiltration basins, J. Hydrol., 397 (2011) 136–145.
  18. O. Lerner, Effect of irrigation with reclaimed wastewater on soil water distribution, Master’s thesis, Hebrew University of Jerusalem, Rehovot, Israel, 2002.
  19. J. Tarchitzky, O. Lerner, U. Shani, G.L.A.A. Arye, A. Lowengart- Aycicegi, A. Brener, Y. Chen, Water distribution pattern in treated wastewater irrigated soils: hydrophobicity effect, Eur. J. Soil Sci., 58 (2007) 573–588.
  20. M. Vandenbossche, M. Casetta, M. Jimenez, S. Bellayer, M. Traisnel, Cysteine-grafted nonwoven geotextile: A new and efficient material for heavy metals sorption–Part A, J. Environ. Manage., 132 (2014) 107–112.
  21. M. Spychała, R. Błażejewski, T. Nawrot, Performance of innovative textile biofilters for domestic wastewater treatment, Environ. Technol., 34 (2013) 157–163.
  22. E.N. Korkut, J.P. Martin, C. Yaman, Wastewater treatment with biomass attached to porous geo textile baffles, J. Environ. Eng., 132 (2006) 284–288.
  23. X.P. Cui, Studying of the Grafting Modification on the PP Melt-Blown Non-Woven Fabric Used in Sewage Filtration, Adv. Mat. Res., Trans Tech Publications, 634 (2013) 307–310.
  24. K. Sivula, F. Le Formal, M. Grätzel, Chem. Sus. Chem., 4 (2011) 432–449.
  25. S. Nishimura, N. Abrams, B.A. Lewis, L.I. Halaoui, T.E. Mallouk, K.D. Benkstein, J. Lagemaat, A.J. Frank, Standing wave enhancement of red absorbance and photo current in dye-sensitized titanium dioxide photo electrodes coupled to photonic crystals, J. Am. Chem. Soc., 125 (2003) 6306–6310.
  26. C.R. Usher, A.E. Michel, V.H. Grassian, Reactions on mineral dust, Chem. Rev., 103 (2003) 4883–4940.
  27. R.M. Cornell, U. Schwertmann, The iron oxides: structure, properties, reactions, occurrences and uses, John Wiley & Sons, 2003.
  28. E.J. Elzinga, D.L. Sparks, Phosphate adsorption onto hematite: an in situ ATR-FTIR investigation of the effects of pH and loading level on the mode of phosphate surface complexation, J. Colloid Interf. Sci., 308 (2007) 53–70.
  29. T. Asano, J.A. Cotruvo, Groundwater recharge with reclaimed municipal wastewater: health and regulatory considerations, Water Res., 38 (2004) 1941–1951.
  30. P. Dillon, P. Pavelic, S. Toze, S. Rinck-Pfeiffer, R. Martin, A. Knapton, D. Pidsley, Role of aquifer storage in water reuse, Desalination, 188 (2006) 123–134.
  31. M.B. Gohil, Land Treatment of Waste Water. New Age International, 2000.
  32. Y.Y. Oh, S.Y. Hamm, S.Y. Chung, B.D. Lee, Characterizing hydraulic properties by grain-size analysis of fluvial deposits depending on stream path in Korea, Environ. Res. Eng., 18 (2013) 129–137.
  33. A.E. Fryar, S.A. Macko, W.F. Mullican III, K.D. Romanak, P.C. Bennett, Nitrate reduction during ground-water recharge, Southern High Plains, Texas, J. Contam. Hydrol., 40 (2000) 335–363.
  34. J.S. Johnson, L.A. Baker, P. Fox, Geochemical transformations during artificial groundwater recharge: soil–water interactions of inorganic constituents, Water Res., 33 (1999) 196–206.
  35. R.M. Atlas, R. Bartha, Bio geochemical cycling: nitrogen, sulfur, phosphorus, iron and other elements, Microbial ecology, Fundamentals and Applications, (1998) 414–459.
  36. W. Cha, H. Choi, J. Kim, J. Cho, Water quality dependence on the depth of the vadose zone in SAT-simulated soil columns, Water Sci. Technol., 5 (2005) 17–24.
  37. M.J. Baker, D.W. Blowes, C.J. Ptacek, Laboratory development of permeable reactive mixtures for the removal of phosphorus from onsite wastewater disposal systems, Environ. Sci. Technol., 32 (1998) 2308–2316.
  38. E. Idelovitch, M. Michail, Soil-aquifer treatment: a new approach to an old method of wastewater reuse, J. Water Pollut. Control Fed., (1984) 936–943.
  39. S.I. Lee, S.Y. Weon, C.W. Lee, B. Koopman, Removal of nitrogen and phosphate from wastewater by addition of bittern, Chemosphere, 51 (2003) 265–271.
  40. H. Bouwer, Artificial recharge of groundwater: hydrogeology and engineering, Hydrogeol. J., 10 (2002) 121–142.