Davis also suggested using an impervious liner just around the internal water storage zone - so that it is always wet and can always perform denitrification.
Some suggested studies to add to this page:
H. Kim, E. A. Seagren, and A. P. Davis, “En...Davis also suggested using an impervious liner just around the internal water storage zone - so that it is always wet and can always perform denitrification.
Some suggested studies to add to this page:
H. Kim, E. A. Seagren, and A. P. Davis, “Engineered Bioretention for Removal of Nitrate from Stormwater Runoff,” in Water Environment Federation Technical Exhibition and Conference, 2000.
[13] M. E. Dietz, “Low impact development practices: A review of current research and recommendations for future directions,” Water. Air. Soil Pollut., vol. 186, no. 1–4, pp. 351–363, 2007.
[14] E. Passeport, W. F. Hunt, D. E. Line, R. A. Smith, and R. A. Brown, “Field Study of the Ability of Two Grassed Bioretention Cells to Reduce Storm-Water Runoff Pollution,” J. Irrig. Drain. Eng., vol. 135, no. 4, pp. 505–510, 2009.
[15] X. Chen, E. Peltier, B. S. M. Sturm, and C. B. Young, “Nitrogen removal and nitrifying and denitrifying bacteria quantification in a stormwater bioretention system,” J. Water Res., vol. 47, pp. 1691–1700, 2013.
[16] E. V. Lopez-Ponnada, T. J. Lynn, M. Peterson, S. J. Ergas, and J. R. Mihelcic, “Application of denitrifying wood chip bioreactors for management of residential non-point sources of nitrogen,” J. Biol. Eng., vol. 11, no. 16, p. 14, Dec. 2017.More
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