(Created page with "==References for bioretention== *ASCE/EPA. [http://www.bmpdatabase.org/ International BMP Database]. *Atlanta Regional Commission. [https://atlantaregional.org/natural-resourc...")
 
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*Winer, R. 2000. [http://www.stormwatercenter.net/Library/STP-Pollutant-Removal-Database.pdf National Pollutant Removal Performance Database]. Center for Watershed Protection.
 
*Winer, R. 2000. [http://www.stormwatercenter.net/Library/STP-Pollutant-Removal-Database.pdf National Pollutant Removal Performance Database]. Center for Watershed Protection.
 
*Wisconsin DNR. 2004. [https://dnr.wi.gov/topic/stormwater/documents/1004Bioretention.pdf Bioretention for Infiltration Conservation Practice Standard 1004].
 
*Wisconsin DNR. 2004. [https://dnr.wi.gov/topic/stormwater/documents/1004Bioretention.pdf Bioretention for Infiltration Conservation Practice Standard 1004].
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==References for dry swale (grass swale)==
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*Brown, R.A. and Hunt, W.F. 2010. ''Impacts of construction activity on bioretention performance''. Journal of Hydrologic Engineering. 15(6):386-394.
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*Erickson, A.J., P.T. Weiss, and J.S. Gulliver. 2013. ''Optimizing Stormwater Treatment Practices: A Handbook of Assessment and Maintenance''. Springer Publishing, New York, NY, USA.
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*Gulliver, J.S., A.J. Erickson, and P.T. Weiss (editors). 2010. [http://stormwaterbook.safl.umn.edu/ Stormwater Treatment: Assessment and Maintenance]. University of Minnesota, St. Anthony Falls Laboratory. Minneapolis, MN.
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*Hatt, B.E., Steinel, A., Deletic, A., and Fletcher, T.D. 2011. ''Retention of heavy metals by stormwater filtration systems: Breakthrough analysis''. Water, Science, and Technology. 64(9):1913-1919.
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*Hunt, W.F., Jarrett, A.R., Smith, J.T., and Sharkey, L.J. 2006. ''Evaluating bioretention hydrology and nutrient removal at three field sites in North Carolina''. Journal of Irrigation and Drainage Engineering. 132(6):600-608.
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*Lefevre, G.H., P.J. Novak, R.M. Hozalski. 2012. ''Fate of naphthalene in laboratory-scale bioretention cells: implications for sustainable stormwater management''. Environmental Science and Technology 46(2):995-1002.
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*Li, H. and Davis, A.P. 2008. ''Heavy metal capture and accumulation in bioretention media''. Environmental Science & Technology. 42:5247-5253.
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*Morgan, J.G., K.A. Paus, R.M. Hozalski and J.S. Gulliver. 2011. [https://www.pca.state.mn.us/sites/default/files/p-gen3-13s.pdf Sorption and Release of Dissolved Pollutants Via Bioretention Media]. SAFL Project Report No. 559. September 2011.
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*North Carolina Department of Environment and Natural Resources. 2009.  [https://deq.nc.gov/media/5076/download NCDENR Stormwater BMP Manual – Section 14, Grassed Swale].
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*O’Neill, S.W. and Davis, A.P. 2012. ''Water treatment residual as a bioretention amendment for phosphorus. I: Evaluation studies''. Journal of Environmental Engineering. 138(3), 318-327.
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*Virginia Department of Conservation and Recreation (VA DCR). 2011. [https://chesapeakestormwater.net/2012/03/design-specification-no-3-grass-channels/#:~:text=Grass%20channels%20can%20provide%20a,storm%20drain%20inlets%20and%20pipes. Virginia DCR Stormwater Design Specification No. 3  – Grass Channels]. Version 1.8, March 1, 2011. Division of Soil and Water Conservation. Richmond, VA.
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*Virginia Department of Conservation and Recreation (VA DCR). 2011. [http://chesapeakestormwater.net/wp-content/uploads/downloads/2012/02/DCR-BMP-Spec-No-10_DRY-SWALE_Final-Draft_v1-9_03012011.pdf Virginia DCR Stormwater Design Specification No. 10 – Dry Swales]. Version 1.9, March 1, 2011. Division of Soil and Water Conservation. Richmond, VA.

Revision as of 22:58, 21 July 2022

References for bioretention

References for dry swale (grass swale)

  • Brown, R.A. and Hunt, W.F. 2010. Impacts of construction activity on bioretention performance. Journal of Hydrologic Engineering. 15(6):386-394.
  • Erickson, A.J., P.T. Weiss, and J.S. Gulliver. 2013. Optimizing Stormwater Treatment Practices: A Handbook of Assessment and Maintenance. Springer Publishing, New York, NY, USA.
  • Gulliver, J.S., A.J. Erickson, and P.T. Weiss (editors). 2010. Stormwater Treatment: Assessment and Maintenance. University of Minnesota, St. Anthony Falls Laboratory. Minneapolis, MN.
  • Hatt, B.E., Steinel, A., Deletic, A., and Fletcher, T.D. 2011. Retention of heavy metals by stormwater filtration systems: Breakthrough analysis. Water, Science, and Technology. 64(9):1913-1919.
  • Hunt, W.F., Jarrett, A.R., Smith, J.T., and Sharkey, L.J. 2006. Evaluating bioretention hydrology and nutrient removal at three field sites in North Carolina. Journal of Irrigation and Drainage Engineering. 132(6):600-608.
  • Lefevre, G.H., P.J. Novak, R.M. Hozalski. 2012. Fate of naphthalene in laboratory-scale bioretention cells: implications for sustainable stormwater management. Environmental Science and Technology 46(2):995-1002.
  • Li, H. and Davis, A.P. 2008. Heavy metal capture and accumulation in bioretention media. Environmental Science & Technology. 42:5247-5253.
  • Morgan, J.G., K.A. Paus, R.M. Hozalski and J.S. Gulliver. 2011. Sorption and Release of Dissolved Pollutants Via Bioretention Media. SAFL Project Report No. 559. September 2011.
  • North Carolina Department of Environment and Natural Resources. 2009. NCDENR Stormwater BMP Manual – Section 14, Grassed Swale.
  • O’Neill, S.W. and Davis, A.P. 2012. Water treatment residual as a bioretention amendment for phosphorus. I: Evaluation studies. Journal of Environmental Engineering. 138(3), 318-327.
  • Virginia Department of Conservation and Recreation (VA DCR). 2011. Virginia DCR Stormwater Design Specification No. 3 – Grass Channels. Version 1.8, March 1, 2011. Division of Soil and Water Conservation. Richmond, VA.
  • Virginia Department of Conservation and Recreation (VA DCR). 2011. Virginia DCR Stormwater Design Specification No. 10 – Dry Swales. Version 1.9, March 1, 2011. Division of Soil and Water Conservation. Richmond, VA.