References

  1. C.H. Hsieh, A.P. Davis, B.A. Needelman, Nitrogen removal from urban stormwater runoff through layered bioretention columns, Water Environ. Res., 79 (2007) 2404–2411.
  2. K. Bratieres, T.D. Fletcher, A. Deletic, Y. Zinger, Nutrient and sediment removal by stormwater biofilters:
    a large-scale design optimisation study, Water Res., 42 (2008) 3930–3940.
  3. J. Liu, D.J. Sample, C. Bell, Y. Guan, Review and research needs of bioretention used for the treatment of urban stormwater, Water, 6 (2014) 1069–1099.
  4. A.P. Davis, W.F. Hunt, R.G. Traver, M. Clar, Bioretention technology: overview of current practice and future needs, J. Environ. Eng.-ASCE, 135 (2009) 109–117.
  5. W.F. Hunt, J.T. Smith, S.J. Jadlocki, J.M. Hathaway, P.R. Eubanks, Pollutant removal and peak flow mitigation by a bioretention cell in urban charlotte, N.C, J. Environ. Eng.-ASCE, 134 (2008) 403–408.
  6. R.J. Winston, J.D. Dorsey, W.F. Hunt, Quantifying volume reduction and peak flow mitigation for three bioretention cells in clay soils in northeast Ohio, Sci. Total Environ., 553 (2016) 83–95.
  7. M. Osman, K.W. Yusof, H. Takaijudin, H.W. Goh, M.A. Malek, N.A. Azizan, S.I. Abdurrasheed, A review of nitrogen removal for urban stormwater runoff in bioretention system, Sustainability, 11 (2019) 5415, doi:10.3390/su11195415.
  8. H.W. Goh, K.S. Lem, N.A. Azizan, C.K. Chang, A. Talei, C.S. Leow, N.A. Zakaria, A review of bioretention components and nutrient removal under different climates-future directions for tropics, Environ. Sci. Pollut. Res., 26 (2019) 14904–14919.
  9. K. Björklund, L. Li, Removal of organic contaminants in bioretention medium amended with activated carbon from sewage sludge, Environ. Sci. Pollut. Res., 24 (2017) 19167–19180.
  10. Y. Li, X. Lin, J. Li, M. Wen, Purification effect and accumulative characteristics of dissolved heavy metals by modified bioretention system, Desal. Water Treat., 195 (2020) 403–412.
  11. T. Ruan, J. Li, Y. Li, H. Li, M. Wen, Adsorption characteristics of amended bioretention fillers on heavy metals, Desal. Water Treat., 140 (2019) 259–267.
  12. J. Li, A.P. Davis, A unified look at phosphorus treatment using bioretention, Water Res., 90 (2016) 141–155.
  13. S. Kandel, J. Vogel, C. Penn, G. Brown, Phosphorus retention by fly ash amended filter media in aged bioretention cells, Water, 9 (2017) 746, doi: 10.3390/w9100746.
  14. L.C. Søberg, A.M. Al-Rubaei, M. Viklander, G.-T. Blecken, Phosphorus and TSS removal by stormwater bioretention: effects of temperature, salt, and a submerged zone and their interactions, Water Air Soil Pollut., 231 (2020) 1–12.
  15. C. Jiang, J. Li, B. Zhang, H. Li, Phosphorus removal of retrofit bioretention systems on urban surface runoff, Desal. Water Treat., 126 (2018) 239–247.
  16. A.P. Davis, Field performance of bioretention: water quality, Environ. Eng. Sci., 24 (2007) 1048–1064.
  17. C. Wang, F. Wang, H. Qin, X. Zeng, X. Li, S.L. Yu, Effect of saturated zone on nitrogen removal processes in stormwater bioretention systems, Water, 10 (2018) 162, doi: 10.3390/w10020162.
  18. Z.X. Wan, T. Li, Z.B. Shi, A layered bioretention system for inhibiting nitrate and organic matters leaching, Ecol. Eng., 107 (2017) 233–238.
  19. L. Li, J. Yang, A.P. Davis, Y. Liu, Dissolved inorganic nitrogen behavior and fate in bioretention systems: role of vegetation and saturated zones, J. Environ. Eng.-ASCE, 145 (2019) 4019074, doi: 10.1061/(ASCE)EE.1943-7870.0001587.
  20. C. Jiang, J. Li, H Li, Y Li, An improved approach to design bioretention system media, Ecol. Eng., 136 (2019) 125–133.
  21. J. Li, L. Li, W. Dong, H. L, Purification effects of amended bioretention columns on phosphorus in urban rainfall runoff, Water Sci. Technol., 78 (2018) 1937–1945.
  22. B. Zhang, J. Li, Y. Li, H. Li, Adsorption characteristics of several bioretention-modified fillers for phosphorus, Water, 10 (2018) 831, doi: 10.3390/w10070831.
  23. W. Zhang, X. Zhong, W. Che, H. Sun, H. Zhang, Removal of nutrients in a bioretention system using media amended with river sediment: a laboratory study, Desal. Water Treat., 147 (2019) 203–210.
  24. M. Sang, M. Huang, W. Zhang, W. Che, H. Sun, A pilot bioretention system with commercial activated carbon and river sediment-derived biochar for enhanced nutrient removal from stormwater, Water Sci. Technol., 80 (2019) 707–716.
  25. E.A. Dayton, N.T. Basta, C.A. Jakober, J.A. Hattey, Using treatment residuals to reduce phosphorus in agricultural runoff, J. Am. Water Works Assn., 95 (2003) 151–158.
  26. S.W. O’Neill, A.P. Davis, Water treatment residual as a bioretention amendment for phosphorus. I: evaluation studies, J. Environ. Eng.-ASCE, 138 (2012) 318–327.
  27. S.W. O’Neill, A.P. Davis, Water treatment residual as a bioretention amendment for phosphorus. II: Long-term column studies, J. Environ. Eng.-ASCE, 138 (2012) 328–336.
  28. E.T. Palmer, C.J. Poor, C. Hinman, J.D. Stark, Nitrate and phosphate removal through enhanced bioretention media: mesocosm study, Water Environ. Res., 85 (2013) 823–832.
  29. Q. Yan, B.R. James, A.P. Davis, Lab-scale column studies for enhanced phosphorus sorption from synthetic urban stormwater using modified bioretention media, J. Environ. Eng.-ASCE, 143 (2017) 04016073.
  30. J. Li, Z. Liang, Y. Li, P. Li, C. Jiang, Experimental study and simulation of phosphorus purification effects of bioretention systems on urban surface runoff, PLoS One, 13 (2018) e0196339, doi: 10.1371/journal.pone.0196339.
  31. C.J. Poor, K. Conkle, A. MacDonald, K. Duncan, Water treatment residuals in bioretention planters to reduce phosphorus levels in stormwater, Environ. Eng. Sci., 36 (2019) 265–272.
  32. G. Fan, Z. Li, S. Wang, K. Huang, J. Luo, Migration and transformation of nitrogen in bioretention system during rainfall runoff, Chemosphere, 232 (2019) 54–62.
  33. H. Kim, E.A. Seagren, A.P. Davis, Engineered bioretention for removal of nitrate from stormwater runoff, Water Environ. Res., 75 (2003) 355–367.
  34. I.J. Peterson, S. Igielski, A.P. Davis, Enhanced denitrification in bioretention using woodchips as an organic carbon source, J. Sustainable Water Built Environ., 1 (2015) 04015004, doi: 10.1061/JSWBAY.0000800.
  35. J. Wu, X. Cao, J. Zhao, Y. Dai, N. Cui, Z. Li, S. Cheng, Performance of biofilter with a saturated zone for urban stormwater runoff pollution control: influence of vegetation type and saturation time, Ecol. Eng., 105 (2017) 355–361.
  36. M. Wang, D. Zhang, Y. Li, Q. Hou, Y. Yu, J. Qi, Y. Cheng, Effect of a submerged zone and carbon source on nutrient and metal removal for stormwater by bioretention cells, Water, 10 (2018) 1629, doi: 10.3390/w10111629.
  37. W. Zhang, M. Sang, W. Che, H. Sun, Nutrient removal from urban stormwater runoff by an up-flow and mixed-flow bioretention system, Environ. Sci. Pollut. Res., 26 (2019) 17731–17739.
  38. J. Liu, D.J. Sample, J.S. Owen, J. Li, G. Evanylo, Assessment of selected bioretention blends for nutrient retention using mesocosm experiment, J. Environ. Qual., 43 (2014) 1754–1763.
  39. F. Qiu, S. Zhao, D. Zhao, J. Wang, K. Fu, Enhanced nutrient removal in bioretention systems modified with water treatment residuals and internal water storage zone, Environ. Sci. Water Res. Technol., 5 (2019) 993–1003.
  40. Y.J. Yang, H.P. Zhang, X.Q. Qian, J.N. Duan, G.L. Wang, Excessive application of pig manure increases the risk of P loss in calcic cinnamon soil in China, Sci. Total Environ., 609 (2017) 102–108.
  41. W.F. Hunt, A.R. Jarrett, J.T. Smith, L.J. Sharkey, Evaluating bioretention hydrology and nutrient removal at three field sites in North Carolina, J. Irrig. Drain. Eng.-ASCE, 132 (2006) 600–608.
  42. Y.F. Ren, X.K. Wang, Z.Y. Ouyang, H. Zheng, X.N. Duan, Stormwater runoff quality from different surfaces in an urban catchment in Beijing, China, Water Environ. Res., 80 (2008) 719–724.
  43. W. Zhang, W. Che, D.K. Liu, Y.P. Gan, F.F. Lv, Characterization of runoff from various urban catchments at different spatial scales in Beijing, China, Water Sci. Technol., 66 (2012) 21–27.
  44. APHA, AWWA, WEF, Standard Methods for the Examination of Water and Wastewater, 22nd ed., American Public Health Association, Washington, DC, 2012.
  45. A.P. Davis, R.G. Traver, W.F. Hunt, R.S. Lee, R.A. Brown, J.M. Olszewski, Hydrologic performance of bioretention stormwater control measures, J. Hydrol. Eng., 17 (2012) 604–614.
  46. D. Xu, L.Y. Lee, F.Y. Lim, Z. Lyu, H. Zhu, S.L. Ong, J. Hu, Water treatment residual: a critical review of its applications on pollutant removal from stormwater runoff and future perspectives, J. Environ. Manage., 259 (2020) 109649, doi: 10.1016/j.jenvman.2019.109649.
  47. S. Igielski, B.V. Kjellerup, A.P. Davis, Understanding urban stormwater denitrification in bioretention internal water storage zones, Water Environ. Res., 91 (2019) 32–44.
  48. L. Li, A.P. Davis, Urban stormwater runoff nitrogen composition and fate in bioretention systems, Environ. Sci. Technol., 48 (2014) 3403–3410.