References
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- J. Li, A.P. Davis, A unified look at phosphorus treatment using
bioretention, Water Res., 90 (2016) 141–155.
- 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.
- 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.
- 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.
- A.P. Davis, Field performance of bioretention: water quality,
Environ. Eng. Sci., 24 (2007) 1048–1064.
- 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.
- 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.
- 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.
- C. Jiang, J. Li, H Li, Y Li, An improved approach to design
bioretention system media, Ecol. Eng., 136 (2019) 125–133.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- H. Kim, E.A. Seagren, A.P. Davis, Engineered bioretention for
removal of nitrate from stormwater runoff, Water Environ. Res.,
75 (2003) 355–367.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- APHA, AWWA, WEF, Standard Methods for the Examination
of Water and Wastewater, 22nd ed., American Public Health
Association, Washington, DC, 2012.
- 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.
- 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.
- 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.
- L. Li, A.P. Davis, Urban stormwater runoff nitrogen composition
and fate in bioretention systems, Environ. Sci. Technol.,
48 (2014) 3403–3410.