1. Y. Liu, L.M. Ahiablame, V.F. Bralts, B.A. Engel, Enhancing a rainfall-runoff model to assess the impacts of BMPs and LID practices on storm runoff, J. Environ. Manage., 147 (2015) 12–23.
  2. T.F.M. Chui, X. Liu, W. Zhan, Assessing cost-effectiveness of specific LID practice designs in response to large storm events, J. Hydrol., 533 (2016) 353–364.
  3. C.R. Jacobson, Identification and quantification of the hydrological impacts of imperviousness in urban catchments: a review, J. Environ. Manage., 92 (2011) 1438–1448.
  4. R. Charbonneau, G. Kondolf, Land use change in California, USA: nonpoint source water quality impacts, Environ. Manage., 17 (1993) 453–460.
  5. L.A. Rossman, Storm Water Management Model User’s Manual, Version 5.0, Office of Research and Development, US Environmental Protection Agency Cincinnati, National Risk Management Research Laboratory, OH, 2010.
  6. M. Kayhanian, B.D. Fruchtman, J.S. Gulliver, C. Montanaro, E. Ranieri, S. Wuertz, Review of highway runoff characteristics: comparative analysis and universal implications, Water Res., 46 (2012) 6609–6624.
  7. M.E. Dietz, Low impact development practices: a review of current research and recommendations for future directions, Water Air Soil Pollut., 186 (2007) 351–363.
  8. L.M. Ahiablame, B.A. Engel, I. Chaubey, Effectiveness of low impact development practices: literature review and suggestions for future research, Water Air Soil Pollut., 223 (2012) 4253–4273.
  9. A. Palla, I. Gnecco, Hydrologic modeling of low impact development systems at the urban catchment scale, J. Hydrol., 528 (2015) 361–368.
  10. A.H. Elliott, S.A. Trowsdale, A review of models for low impact urban stormwater drainage, Environ. Modell. Software, 22 (2007) 394–405.
  11. S.S. Baek, D.H. Choi, J.W. Jung, H.J. Lee, K.S. Yoon, K.H. Cho, Optimizing low impact development (LID) for stormwater runoff treatment in urban area, Korea: experimental and modeling approach, Water Res., 86 (2015) 122–131.
  12. M. Guan, N. Sillanpaa, H. Koivusalo, Assessment of LID practices for restoring pre-development runoff regime in an urbanized catchment in southern Finland, Water Sci. Technol., 71 (2015) 1485–1491.
  13. J. Gironas, L.A. Roesner, L.A. Rossman, J. Davis, A new applications manual for the Storm Water Management Model (SWMM), Environ. Modell. Software, 25 (2010) 813–814.
  14. E. Burszta-Adamiak, M. Mrowiec, Modelling of green roofs’ hydrologic performance using EPA’s SWMM, Water Sci. Technol., 68 (2013) 36–42.
  15. Z. Zahmatkesh, S.J. Burian, M. Karamouz, H. Tavakol-Davani, E. Goharian, Low-impact development practices to mitigate climate change effects on urban stormwater runoff: case study of New York City, J. Irrig. Drain. Eng., 141 (2014) 04014043.
  16. H.P. Qin, Z.X. Li, G. Fu, The effects of low impact development on urban flooding under different rainfall characteristics, J. Environ. Manage., 129 (2013) 577–585.
  17. N.B. Chang, Hydrological connections between low-impact development, watershed best management practices, and sustainable development, J. Hydrol. Eng., 15 (2010) 384–385. 8 D.J. Jeon et al. / Desalination and Water Treatment 86 (2017) 1–8
  18. K. Zomorodi, Simplified Solutions for Groundwater Mounding Under Stormwater Infiltration Facilities, AWRA 2005 Annual Water Resources Conference, 2005, pp. 7–10.
  19. C. Hinman, Low Impact Development: Technical Guidance Manual for Puget Sound, Puget Sound Action Team, 2005.
  20. I.H. Elsebaie, Developing rainfall intensity–duration–frequency relationship for two regions in Saudi Arabia, J. King Saud Univ. Eng. Sci., 24 (2012) 131–140.
  21. J.V. Bonta, Development and utility of Huff curves for disaggregating precipitation amounts, Appl. Eng. Agric., 20 (2004) 641–653.
  22. J.V. Bonta, Determination of watershed curve number using derived distributions, J. Irrig. Drain. Eng., 123 (1997) 28–36.
  23. J.C. Guo, Preservation of watershed regime for low-impact development through detention, J. Hydrol. Eng., 15 (2009) 15–19.
  24. J.L. Bertrand-Krajewski, G. Chebbo, A. Saget, Distribution of pollutant mass vs volume in stormwater discharges and the first flush phenomenon, Water Res., 32 (1998) 2341–2356.
  25. H. Jia, X. Wang, C. Ti, Y. Zhai, R. Field, A.N. Tafuri, H. Cai, L.Y. Shaw, Field monitoring of a LID-BMP treatment train system in China, Environ. Monit. Assess., 187 (2015) 1–18.
  26. A. Deletic, T.D. Fletcher, Performance of grass filters used for stormwater treatment—a field and modelling study, J. Hydrol., 317 (2006) 261–275.
  27. S.L. Yu, J.T. Kuo, E.A. Fassman, H. Pan, Field test of grassedswale performance in removing runoff pollution, J. Water Resour. Plann. Manage., 127 (2001) 168–171.
  28. S. Lloyd, T. Fletcher, T. Wong, R. Wootton, Assessment of Pollutant Removal in a Newly Constructed Bio-Retention System, Proc. 2nd South Pacific Stormwater Conference, 2001, pp. 20–30