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*Adams, M. C. 2003. [http://www.stormh2o.com/SW/Articles/Porous_Asphalt_Pavement_With_Recharge_Beds_20_Year_228.aspx Porous Asphalt Pavement with Recharge Beds: 20 years and Still Working]. Stormwater 4 (2003): 24-32.
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Also see [[References for infiltration]]
*Adams, Michele. 2011. [http://www.lccwc.com/pdf/Sem2_2011Adams-KarstGeology_09_20_2011.pdf Infiltration and Karst: Design Considerations for Success]. [Powerpoint Slides] N.p.: Meliora Environmental Design, LLC.
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==A==
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*Adams, M. C. 2003. [http://www.truckeeriverinfo.org/news/2008/10/21/976 Porous Asphalt Pavement with Recharge Beds: 20 years and Still Working]. Stormwater 4:24-32.
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*Adams, Michele. 2011. ''Infiltration and Karst: Design Considerations for Success''. [Powerpoint Slides] N.p.: Meliora Environmental Design, LLC.
 
*Agency for Toxic Substances and Disease Registry (ATSDR). 1995. [http://www.atsdr.cdc.gov/toxprofiles/tp69.pdf Toxicological Profile for Polycyclic Aromatic Hydrocarbons]. N.p.: US EPA.
 
*Agency for Toxic Substances and Disease Registry (ATSDR). 1995. [http://www.atsdr.cdc.gov/toxprofiles/tp69.pdf Toxicological Profile for Polycyclic Aromatic Hydrocarbons]. N.p.: US EPA.
 
*Agency for Toxic Substances and Disease Registry (ATSDR). 2004. [http://www.atsdr.cdc.gov/ToxProfiles/tp132-c1-b.pdf Toxicological Profile for Copper]. N.p.: US EPA.
 
*Agency for Toxic Substances and Disease Registry (ATSDR). 2004. [http://www.atsdr.cdc.gov/ToxProfiles/tp132-c1-b.pdf Toxicological Profile for Copper]. N.p.: US EPA.
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*Agency for Toxic Substances and Disease Registry (ATSDR). 2012. [http://www.atsdr.cdc.gov/ToxProfiles/tp7-c1-b.pdf Toxicological Profile for Chromium]. N.p.: US EPA.
 
*Agency for Toxic Substances and Disease Registry (ATSDR). 2012. [http://www.atsdr.cdc.gov/ToxProfiles/tp7-c1-b.pdf Toxicological Profile for Chromium]. N.p.: US EPA.
 
*Agency for Toxic Substances and Disease Registry (ATSDR). 2012. [http://www.atsdr.cdc.gov/ToxProfiles/tp151-c1-b.pdf Toxicological Profile for Manganese]. N.p.: US EPA.
 
*Agency for Toxic Substances and Disease Registry (ATSDR). 2012. [http://www.atsdr.cdc.gov/ToxProfiles/tp151-c1-b.pdf Toxicological Profile for Manganese]. N.p.: US EPA.
*Agency for Toxic Substances and Disease Registry. Technical Factsheet on: CYANIDE. N.p.: US EPA, n.d.
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*Agency for Toxic Substances and Disease Registry. 2006. [https://archive.epa.gov/water/archive/web/pdf/archived-technical-fact-sheet-on-cyanide.pdf Technical Factsheet on: CYANIDE]. N.p.: US EPA.
*Alachula County. [http://www.alachuacounty.us/Depts/EPD/Documents/WaterResources/Remediation%20BMP.pdf Best Management Practices for Controlling Runoff during Remediation at Contaminated Sites]. N.d.
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*Ahmed, F., R. Nestingen, J.L. Nieber, J.S. Gulliver, R.M. Hozalski. 2014. ''A Modified Philip-Dunne Infiltrometer for Measuring the Field-Saturated Hydraulic Conductivity of Surface Soil''. Vadose Zone Journal. 13(10).
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*Ahmed, F., P. Natarajan, J.S. Gulliver, P.T. Weiss and J.L. Nieber, 2014. [http://www.lrrb.org/PDF/201430.pdf  Final Report 2014-30]. Research Services and library, Office of Transportation System Management. Minnesota Department of Transportation. August.
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*Alachula County. [http://www.alachuacounty.us/Depts/EPD/Documents/WaterResources/Remediation%20BMP.pdf Best Management Practices for Controlling Runoff during Remediation at Contaminated Sites].
 
*Alexander, Calvin E., Jr., and Geri L. Maki. 1988 [http://conservancy.umn.edu/bitstream/handle/11299/58436/sinkholes%5B1%5D.pdf?sequence=4&isAllowed=y Sinkholes and Sinkhole Probability Map, Olmsted County, MN]. University of Minnesota, MN USGS, Olmsted County Board of Commissioners.
 
*Alexander, Calvin E., Jr., and Geri L. Maki. 1988 [http://conservancy.umn.edu/bitstream/handle/11299/58436/sinkholes%5B1%5D.pdf?sequence=4&isAllowed=y Sinkholes and Sinkhole Probability Map, Olmsted County, MN]. University of Minnesota, MN USGS, Olmsted County Board of Commissioners.
*Alexander, E. Calvin, and Robert G. Tipping. "Karst Features of Minnesota." Karst Database. Minnesota Geological Survey. Last modified 2002. https://conservancy.umn.edu/handle/11299/93148
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*Alexander, E. Calvin, and Robert G. Tipping. 2002. [https://conservancy.umn.edu/handle/11299/93148 Karst Features of Minnesota]. Karst Database. Minnesota Geological Survey.
*Alexander, E. Calvin, Jr., and Bob Tipping. “Minnesota Geology.” Minnesota Geological Survey. http://www.mngs.umn.edu/indx.html  
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*Alexander, E. Calvin, Jr., and Bob Tipping. [http://www.mngs.umn.edu/indx.html Minnesota Geology]. Minnesota Geological Survey.
*Alexander, E. Calvin, Jr., David J. Berner, Yongli Gao, and Jeffery A. Green. Sinkholes and Sinkhole Probability, and Springs and Seeps. Map. Goodhue County, MN: MN DNR, Division of Waters, 2003. http://files.dnr.state.mn.us/waters/groundwater_section/mapping/cga/c12_goodhue/pdf_files/plate10.pdf
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*Alexander, E. Calvin, Jr., David J. Berner, Yongli Gao, and Jeffery A. Green. 2003. [http://files.dnr.state.mn.us/waters/groundwater_section/mapping/cga/c12_goodhue/pdf_files/plate10.pdf Sinkholes and Sinkhole Probability, and Springs and Seeps]. Map. Goodhue County, MN: MN DNR, Division of Waters. 
*Alexander, E. Calvin, Jr.. Minnesota Karst Lands. Map. University of Minnesota, Department of Earth Sciences. http://www.esci.umn.edu/sites/www.esci.umn.edu/files/user/user174/MN%20Karstlands%202006.jpg
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*Alexander, E. Calvin, Jr.. 2006. [http://www.esci.umn.edu/sites/www.esci.umn.edu/files/user/user174/MN%20Karstlands%202006.jpg Minnesota Karst Lands. Map]. University of Minnesota, Department of Earth Sciences. 
*Armstrong, D.E. and Llena, R. 1992. “Stormwater Infiltration: Potential for Pollutant Removal”. Project Report to the U.S. Environmental Protection Agency. Wisconsin Department of Natural Resources, Water Chemistry Program.
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*Armstrong, D.E. and Llena, R. 1992. ''Stormwater Infiltration: Potential for Pollutant Removal''. Project Report to the U.S. Environmental Protection Agency. Wisconsin Department of Natural Resources, Water Chemistry Program.
*ATSDR. 2002. [http://www.atsdr.cdc.gov/phs/phs.asp?id=79&tid=20#bookmark02 Public Health Statement for DDT, DDE, and DDD]. Agency for Toxic Substances & Disease Registry: Toxic Substances Portal. Last modified September 2002.  
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*Asleson, B.C., R.S. Nestingen, J.S. Gulliver, R.M. Hozalski, and J.L. Nieber. 2009. ''Assessment of Rain Gardens by Visual Inspection and Controlled Testing''. Journal of the American Water Resources Association. 45(4):1019-1031.
*Bean, E.Z., W.F. Hunt, D.A. Bidelspach, Evaluation of Four Permeable Pavement Sites in Eastern North Carolina for Runoff Reduction and Water Quality Impacts, ASCE Journal of Irrigation and Drainage Engineering 133, No. 6 (2007b): 583-592.
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*Asleson, B.C.,, R.S. Nestingen, J.S. Gulliver, R.M. Hozalski, and J.L. Nieber. 2007. [https://conservancy.umn.edu/handle/11299/115331 Development and Application of a Four-Level Rain Garden Assessment]. SAFL Project Report 494, July 2007.
*Bean, E.Z., W.F. Hunt, D.A. Bidelspach. “A Field Survey of Permeable Pavement Surface Infiltration Rates.” ASCE Journal of Irrigation and Drainage Engineering 133, no. 3 (2007a): 249-255.
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*ATSDR. 2002. [https://www.atsdr.cdc.gov/ToxProfiles/tp35-c1-b.pdf Public Health Statement for DDT, DDE, and DDD]. Agency for Toxic Substances & Disease Registry: Toxic Substances Portal. Last modified September 2002.
*Beard, P.J. "Longavity of Eberthalla Typhosus in Various Soils." American Journal of Public Health and Nations Health, 1940, 1077-82.  
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*Betts, Lynn. "Runoff of Soil & Fertilizer." In Wikipedia, edited by Wikimedia. 1999. http://commons.wikimedia.org/wiki/File:Runoff_of_soil_%26_fertilizer.jpg
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==B==
*Birch, G. F., M.S. Fazeli, and C. Matthai. "Efficiency of an Infiltration Basin in Removing Contaminants from Urban Stormwater." Environmental Monitoring & Assessment 101, nos. 1-3 (2005): 23-38.  
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*Bean, E.Z., W.F. Hunt, D.A. Bidelspach, 2007b. ''Evaluation of Four Permeable Pavement Sites in Eastern North Carolina for Runoff Reduction and Water Quality Impacts''. ASCE Journal of Irrigation and Drainage Engineering 133: No. 6: 583-592.
*Bitton, G., and C.P Gerba. "Microbial Pollutants: Their Survival and Transport Pattern to Groundwater." Groundwater Pollution Microbiology, 1994.  
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*Bean, E.Z., W.F. Hunt, D.A. Bidelspach. 2007a. ''A Field Survey of Permeable Pavement Surface Infiltration Rates''. ASCE Journal of Irrigation and Drainage Engineering 133: no. 3: 249-255.
*Board of County Commissioners, Water Resources Management Ordinance, 2004b. (Md. 2004).  
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*Beard, P.J. 1940. [http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1531066/pdf/amjphnation00737-0063.pdf Longevity of Eberthalla Typhosus in Various Soils]. American Journal of Public Health and Nations Health. 1077-82.  
*Bowers, Robert, Kevin Burlingham, and Joseph Sun. “Sinkholes and Seepage: Embankment Repair at Hat Creek 1.” Hydroworld.com. Last modified August 27, 2013. http://www.hydroworld.com/articles/hr/print/volume-32/issue-7/cover-story/sinkholes-and-seepage-embankment-repair-at-hat-creek-1.html
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*Betts, Lynn. 1999. [http://commons.wikimedia.org/wiki/File:Runoff_of_soil_%26_fertilizer.jpg Runoff of Soil & Fertilizer]. In Wikipedia, edited by Wikimedia.
*Braga, Andrea; Horst, Michael; Traver, Michael. 2007. “Temperature Effects on the Infiltration Rate through an Infiltration Basin BMP”. Journal of Irrigation and Drainage Engineering, 133, no. 6: 598 605
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*Birch, G. F., M.S. Fazeli, and C. Matthai. 2005. ''Efficiency of an Infiltration Basin in Removing Contaminants from Urban Stormwater''. Environmental Monitoring & Assessment 101: nos. 1-3: 23-38.
*Brattebo, B. O. and D. B. Booth. “Long-term Stormwater Quantity and Quality Performance of Permeable Pavement Systems.Water Research 37, no. 18 (2003): 4369-4376.
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*Bitton, G., and C.P Gerba. 2004. ''Microbial Pollutants: Their Survival and Transport Pattern to Groundwater.'' Groundwater Pollution Microbiology.
*Brown, R. A., and W. F. Hunt. “Underdrain Configuration to Enhance Bioretention Exfiltration to Reduce Pollutant Loads.” Journal of Environmental Engineering 137, no. 11 (2001): 1082-1091.
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*Board of County Commissioners. 2004. Water Resources Management Ordinance. Carroll County, MD.
*Browne, D., A. Deletic, G.M. Mudd, and T.D. Fletcher. "Modeling the Development and Consequences of Clogging for Stormwater Infiltration Trenches." 12th International Conference on Urban Drainage, September 11, 2011, 1-16. http://www.waterforliveability.org.au/wp-content/uploads/2011_Browne-et-al_12ICUD.pdf
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*Bowers, Robert, Kevin Burlingham, and Joseph Sun. 2013. [https://www.hydroreview.com/world-regions/sinkholes-and-seepage-embankment-repair-at-hat-creek-1/#gref Sinkholes and Seepage: Embankment Repair at Hat Creek 1]. Hydroworld.com. Last modified August 27, 2013.  
*Browne, D., A. Deletic, G.M. Mudd, and T.D. Fletcher. A Comparison of the Hydrologic Effectiveness of a Range of Infiltration Basin Trench Systems in Melbourn with Sandy Loam and Sandy Clay Surrounding Soils with and Without Clogging. Photograph. 12th International Conference on Urban Drainage. September 11, 2011. http://www.waterforliveability.org.au/wp-content/uploads/2011_Browne-et-al_12ICUD.pdf
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*Braga, Andrea; Horst, Michael; Traver, Michael. 2007. ''Temperature Effects on the Infiltration Rate through an Infiltration Basin BMP''. Journal of Irrigation and Drainage Engineering. 133: no. 6: 598 605
*California Stormwater Association. California Stormwater BMP Handbook – New Development and Redevelopment. Menlow Park, CA: California Stormwater Association, 2003.
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*Brattebo, B. O. and D. B. Booth. 2003. ''Long-term Stormwater Quantity and Quality Performance of Permeable Pavement Systems''. Water Research 37: no. 18: 4369-4376.
*Carleton, Glen B. Simulation of Groundwater Mounding Beneath Hypothetical Stormwater Infiltration Basins. Photograph. U.S. Geological Survey. January 10, 2013. http://pubs.usgs.gov/sir/2010/5102/support/sir2010-5102.pdf
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*Brown, R. A., and W. F. Hunt. 2001. ''Underdrain Configuration to Enhance Bioretention Exfiltration to Reduce Pollutant Loads''. Journal of Environmental Engineering 137: no. 11: 1082-1091.
*Center for Watershed Protection, Inc.. “Appendix C: Stormwater Management Design Guidelines in Karst Areas. ”West Virginia Stormwater Management & Design Guidance Manual. West Virginia Department of Environmental Protection (WVDEP). Last modified November 2012. http://www.dep.wv.gov/WWE/Programs/stormwater/MS4/Pages/StormwaterManagementDesignandGuidanceManual.aspx.
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*Browne, D., A. Deletic, G.M. Mudd, and T.D. Fletcher. 2011. Modeling the Development and Consequences of Clogging for Stormwater Infiltration Trenches. 12th International Conference on Urban Drainage, September 11, 2011, 1-16.  
*Center for Watershed Protection. "Neighborhood Source Assessment, Hotspot Site Investigation, Pervious Area Assessment - Field Sheets." Field sheet, 2014.
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*Browne, D., A. Deletic, G.M. Mudd, and T.D. Fletcher. 2011. A Comparison of the Hydrologic Effectiveness of a Range of Infiltration Basin Trench Systems in Melbourn with Sandy Loam and Sandy Clay Surrounding Soils with and Without Clogging. Photograph. 12th International Conference on Urban Drainage. September 11, 2011.
*Center for Watershed Protection. 2005. Unified Subwatershed and Site Reconnaissance: A User’s Manual, Version 2.0.
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*Centers for Disease Control and Prevention. "Giardiasis Frequently Asked Questions." Centers for Disease Control and Prevention. http://www.cdc.gov/parasites/giardia/gen_info/faqs.html
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==C==
*Chase, Ronald, Tuncer Edil, Alan Kehew, Philip Keillor, and David Mickelson. "Stabilizing Coastal Slopes on the Great Lakes." University of Wisconsin Sea Grant WISCU-G-05-003 (June 26, 2007): 1-12. http://www.seagrant.umn.edu/downloads/ch003.pdf
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*California Stormwater Association. 2003. [https://www.casqa.org/sites/default/files/BMPHandbooks/BMP_NewDevRedev_Complete.pdf California Stormwater BMP Handbook – New Development and Redevelopment]. Menlow Park, CA: California Stormwater Association.
*Chiles, Jim, comp. Comprehensive Report on MPCA Rules: Made to the Governor and the Legislature. St.Paul, MN: Minnesota Pollution Control Agency, 2013. http://www.pca.state.mn.us/index.php/view-document.html?gid=18901
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*Carleton, Glen B. 2013. [http://pubs.usgs.gov/sir/2010/5102/support/sir2010-5102.pdf Simulation of Groundwater Mounding Beneath Hypothetical Stormwater Infiltration Basins]. Photograph. U.S. Geological Survey. January 10, 2013.
*Clark, Shirley E., and Robert Pitt. "Influencing Factors and a Proposed Evaluation Methodology for Predicting Groundwater Contamination Potential from Stormwater Infiltration Activities." Water Environment Research 79, nos. 1-4 (January 2007): 29-36.
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*Center for Watershed Protection, Inc. 2012. [http://www.dep.wv.gov/WWE/Programs/stormwater/MS4/Pages/StormwaterManagementDesignandGuidanceManual.aspx Appendix C: Stormwater Management Design Guidelines in Karst Areas]. West Virginia Stormwater Management & Design Guidance Manual. West Virginia Department of Environmental Protection (WVDEP). Last modified November 2012.
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*Center for Watershed Protection. 2014. Neighborhood Source Assessment, Hotspot Site Investigation, Pervious Area Assessment - Field Sheets. Field sheet.
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*Center for Watershed Protection. 2005. [https://owl.cwp.org/mdocs-posts/urban-subwatershed-restoration-manual-series-manual-11/ Unified Subwatershed and Site Reconnaissance: A User’s Manual, Version 2.0].
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*Centers for Disease Control and Prevention. [http://www.cdc.gov/parasites/giardia/gen_info/faqs.html Giardiasis Frequently Asked Questions]. Centers for Disease Control and Prevention.
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*Chase, Ronald, Tuncer Edil, Alan Kehew, Philip Keillor, and David Mickelson. 2007. [https://publications.aqua.wisc.edu/product/stabilizing-coastal-slopes-on-the-great-lakes/ Stabilizing Coastal Slopes on the Great Lakes]. University of Wisconsin Sea Grant WISCU-G-05-003 (June 26, 2007): 1-12.
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*Chiles, Jim, comp. 2013. [https://www.pca.state.mn.us/sites/default/files/lr-mmrule-2sy13.pdf Comprehensive Report on MPCA Rules: Made to the Governor and the Legislature]. St.Paul, MN: Minnesota Pollution Control Agency.
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*Clark, Shirley E., and Robert Pitt. 2007. ''Influencing Factors and a Proposed Evaluation Methodology for Predicting Groundwater Contamination Potential from Stormwater Infiltration Activities''. Water Environment Research 79, nos. 1-4:29-36.
 
*Connecticut Department of Environmental Protection. 2004. [http://www.ct.gov/deep/cwp/view.asp?a=2721&q=325704&depNav_GID=1654#download. Chapter 6: Introduction to Stormwater Treatment Practices]. In 2004 Connecticut Stormwater Quality Manual, 6-1-6-11. Hartford, CT: CT DEP and U.S. EPA.
 
*Connecticut Department of Environmental Protection. 2004. [http://www.ct.gov/deep/cwp/view.asp?a=2721&q=325704&depNav_GID=1654#download. Chapter 6: Introduction to Stormwater Treatment Practices]. In 2004 Connecticut Stormwater Quality Manual, 6-1-6-11. Hartford, CT: CT DEP and U.S. EPA.
*Dalgleish, Janet B., and E. Calvin Alexander, Jr.. 1984. [http://reflections.mndigital.org/cdm/ref/collection/mgs/id/623 Sinkholes and Sinkhole Probability. Map. Winona County, MN]. University of Minnesota, MN USGS, and Winona County Board of Commissioners.   
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==D==
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*Dalgleish, Janet B., and E. Calvin Alexander, Jr.. 1984. [https://maps.princeton.edu/catalog/4d5fbb13-3b78-41c1-967c-c7bb40973bca Sinkholes and Sinkhole Probability. Map. Winona County, MN]. University of Minnesota, MN USGS, and Winona County Board of Commissioners.   
 
*Davis, A. P., M. Shokouhian, H. Sharma, and C. Minami. 2001. ''Laboratory Study of Biological Retention for Urban Stormwater Management''. Water Environmental Research. 5-14.
 
*Davis, A. P., M. Shokouhian, H. Sharma, and C. Minami. 2001. ''Laboratory Study of Biological Retention for Urban Stormwater Management''. Water Environmental Research. 5-14.
 
*Davis, A. P., M. Shokouhian, H. Sharma, and C. Minami. 2006. ''Water Quality Improvement through Bioretention Media: Nitrogen and Phosphorous Removal''. Water Environmental Research 78: no.3: 5-14.  
 
*Davis, A. P., M. Shokouhian, H. Sharma, and C. Minami. 2006. ''Water Quality Improvement through Bioretention Media: Nitrogen and Phosphorous Removal''. Water Environmental Research 78: no.3: 5-14.  
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*Dechesne, M., S. Barraud, and J.P Bardin. 2005. ''Experimental Assessment of Stormwater Infiltration Basin Evolution''. Journal of Environmental Engineering 131: no. 7:1090-98.
 
*Dechesne, M., S. Barraud, and J.P Bardin. 2005. ''Experimental Assessment of Stormwater Infiltration Basin Evolution''. Journal of Environmental Engineering 131: no. 7:1090-98.
 
*Denich, Chris and Andrea Bradford. 2013. ''Estimation of Evapotranspiration from Bioretention Areas Using Weighing Lysimeters''. Journal of Hydrologic Engineering 15: no. 6: 522-530.
 
*Denich, Chris and Andrea Bradford. 2013. ''Estimation of Evapotranspiration from Bioretention Areas Using Weighing Lysimeters''. Journal of Hydrologic Engineering 15: no. 6: 522-530.
*Denton, Robert. 2008. [http://semanticommunity.info/@api/deki/files/838/=BobDenton09172008.pdf  The Characterization and Remediation of Sinkholes]. [Powerpoint Slides]. Potomac Environmental Services.  
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*Denton, Robert. 2008. The Characterization and Remediation of Sinkholes. [Powerpoint Slides]. Potomac Environmental Services.  
*Department of Agriculture and Consumer Sciences. [ftp://ftp-fc.sc.egov.usda.gov/WLI/1212OldWLIfromUSGS/wli/Training/REDOX.PDF Redoximorphic Features for Identifying Aquic Conditions]. Technical report no. 301. Raleigh, NC: North Carolina State University, n.d.   
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*Department of Agriculture and Consumer Sciences. [https://content.ces.ncsu.edu/redoximorphic-features-for-identifying-aquic-conditions Redoximorphic Features for Identifying Aquic Conditions]. Technical report no. 301. Raleigh, NC: North Carolina State University, n.d.   
*Department of Environmental Protection, Bureau of Watershed Management. 2006. [http://www.elibrary.dep.state.pa.us/dsweb/Get/Version-48477/07_Chapter_6 Chapter 6: Structural BMPs]. In Pennsylvania Stormwater Best Management Practices Manual. N.p.: n.p.  
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*Department of Environmental Protection, Bureau of Watershed Management. 2006. [http://www.depgreenport.state.pa.us/elibrary/GetFolder?FolderID=4673 Chapter 6: Structural BMPs]. In Pennsylvania Stormwater Best Management Practices Manual. N.p.: n.p.  
*Department of Planning/Environment and Resource Protection Program, Bureau of Resource Management. 2004a. [http://ccgovernment.carr.org/ccg/compplan/resourcemgt/wrmmanual.pdf Water Resource Management Manual: Carroll County, Maryland]. May ed. Westminster, MD: Carroll County Government.  
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*Department of Planning/Environment and Resource Protection Program, Bureau of Resource Management. 2004a. [https://www.carrollcountymd.gov/government/directory/land-resource-management/resource-management/programs/water-resource-management-program/water-resource-management-program-formsapplications/ Water Resource Management Manual: Carroll County, Maryland]. May ed. Westminster, MD: Carroll County Government.  
*DiBlasi, C. J., H. Li, A. P. Davis, and U. Ghosh. “Removal and Fate of Polycyclic Aromatic Hydrocarbon Pollutants in an Urban Stormwater Bioretention Facility.Environmental Science and Technology 43, no. 2 (2009): 494-502.
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*DiBlasi, C. J., H. Li, A. P. Davis, and U. Ghosh. 2009. ''Removal and Fate of Polycyclic Aromatic Hydrocarbon Pollutants in an Urban Stormwater Bioretention Facility''. Environmental Science and Technology 43, no. 2 (2009): 494-502.
*Domey, William R. “Effect of Underlying Groundwater System on the Rate of Infiltration of Stormwater Infiltration Structures." Storm Water Infiltration & Groundwater Recharge A Conference on Reducing Runoff while Maintaining Water Quality, May 21, 2002, 1-9.  
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*Domey, William R. 2002. Effect of Underlying Groundwater System on the Rate of Infiltration of Stormwater Infiltration Structures. Storm Water Infiltration & Groundwater Recharge A Conference on Reducing Runoff while Maintaining Water Quality, May 21, 2002. 1-9.  
*Drinking Water Protection Program. "Maps and Geospatial Data: Source Water Protection." Minnesota Department of Health. http://www.health.state.mn.us/divs/eh/water/swp/maps/  
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*Drinking Water Protection Program. [https://www.health.state.mn.us/communities/environment/water/swp/maps/index.htm Maps and Geospatial Data: Source Water Protection]. Minnesota Department of Health.
*Drinking Water Protection Program. Flow Chart for Evaluating Proposed Stormwater Infiltration Projects in Areas with Vulnerable Groundwater. Illustration. Minnesota Department of Health. July 1, 2007. http://www.health.state.mn.us/divs/eh/water/swp/stormwater.pdf 
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*Emerson, C.H., & Traver, R.G. 2008. “Multiyear and seasonal variation of infiltration from storm-water best management practices”. Journal of Irrigation and Drainage Engineering, 135, no. 5: 593-601.
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==E==
*Environmental Science Institute. "What is Karst?" Caves: A Window into the Edwards Aquifer. http://www.esi.utexas.edu/outreach/caves/karst.php
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*Emerson, C.H., & Traver, R.G. 2008. ''Multiyear and seasonal variation of infiltration from storm-water best management practices''. Journal of Irrigation and Drainage Engineering, 135, no. 5: 593-601.
*Erickson, A.J, J.S. Gulliver, and P.T. Weiss. "Capturing Phosphates with Iron Enhanced Sand Filtration." Water Research 46, June 1, 2012, 3032-42.  
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*Environmental Science Institute. What is Karst? Caves: A Window into the Edwards Aquifer.  
*Erickson, Andrew J., Weiss, Peter T., Gulliver, John S.  2013.  Optimizing Stormwater Treatment Practices, A Handbook of Assessment and Maintenance.  Springer, New York.
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*Erickson, A.J, J.S. Gulliver, and P.T. Weiss. 2012. ''Capturing Phosphates with Iron Enhanced Sand Filtration''. Water Research 46:3032-42.  
*Erosion Management Program. What You Should Know as a Ravine or Bluff Property Owner. N.p.: Toronto and Region Conservation, 2013. http://www.trca.on.ca/dotAsset/83077.pdf
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*Erickson, Andrew J., Weiss, Peter T., Gulliver, John S.  2013.  ''Optimizing Stormwater Treatment Practices, A Handbook of Assessment and Maintenance''.  Springer, New York.
*Fenwick, Ryan. "Sustainable Water Management on Brownfield Sites." University of Louisville, Center for Environmental Policy and Management, October 2012, 1-12. http://louisville.edu/cepm/projects/sustainable-community-capacity-building/green-infrastructure-on-brownfields
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*Erosion Management Program. 2013. [http://www.trca.on.ca/dotAsset/83077.pdf  What You Should Know as a Ravine or Bluff Property Owner]. Toronto and Region Conservation.
*Fischer, D., E.G Charles, and A.L Baehr. "Effects of Stormwater Infiltration on Quality of Groundwater Beneath Retention and Detention Basins." Journal of Environmental Engineering 129, no. 5 (2003): 464-71.  
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*Gao, Yongli, E. Calvin Alexander, Jr., and Robert G. Tipping. “The Development of a Karst Feature Database for Southeastern Minnesota.Journal of Cave and Karst Studies 64, no. 1 (April 2002): 51 57. https://caves.org/pub/journal/PDF/V64/v64n1-Goa.pdf   
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==F==
*Ginn, T.R, B.D Wood, K.E Nelson, T.D Scheibe, E.M Murphy, and T.P Clement. "Processes in Microbial Transport in the Natural Surbsurface." Advances in Water Resources 25, no. 8 (2002): 1017-42.
+
*Fenwick, Ryan. 2012. [http://louisville.edu/cepm/projects/sustainable-community-capacity-building/green-infrastructure-on-brownfields  Sustainable Water Management on Brownfield Sites]. University of Louisville, Center for Environmental Policy and Management, October 2012, 1-12.
*Green, Jeffery A., E. Calvin Alexander, Jr., William J. Marken, and Scott C. Alexander. Karst Hydrogeomorphic Units. Map. Mower County, MN: MN DNR, Divison of Waters and University of Minnesota, Department of Geology and Geophysics, 2002. http://files.dnr.state.mn.us/waters/groundwater_section/mapping/cga/c11_mower/pdf_files/plate10.pdf  
+
*Fischer, D., E.G Charles, and A.L Baehr. 2003. ''Effects of Stormwater Infiltration on Quality of Groundwater Beneath Retention and Detention Basins''. Journal of Environmental Engineering 129, no. 5:464-71.
*Hantush, M.S. “Growth and Decay of Groundwater Mounds in Response to Uniform Percolation.” Water Resources Research 3, no. 1 (1967): 227-234.
+
 
*Haritash, A.K., and C.P. Kaushik. "Bioddegradation Aspects of Polycyclic Aromatic Hydrocarbons (PAHs): A Review." Journal of Hazardous Materials 169 (2009).
+
==G==
*Hathaway, Jon M., E.I., and William F. Hunt. "Urban Waterways: Removal of Pathogens in Stormwater." North Carolina Cooperative Extension, 1-10. http://www.bae.ncsu.edu/stormwater/PublicationFiles/PathogensSW.2008.pdf 
+
*Gao, Yongli, E. Calvin Alexander, Jr., and Robert G. Tipping. 2002. [https://caves.org/pub/journal/PDF/V64/v64n1-Goa.pdf The develeopment of a Karst Feature database for Southeastern Minnesota]. Journal of Cave and Karst Studies 64, no. 1: 51 57.  
*Hewes, Will. “Using Green Infrastructure in Karst Regions.” American Rivers. N.d.: 1-5. http://www.eahcp.org/files/uploads/09-03-10Attachment4aUsing_Green_Infrastructure.pdf
+
*Ginn, T.R, B.D Wood, K.E Nelson, T.D Scheibe, E.M Murphy, and T.P Clement. 2002. ''Processes in Microbial Transport in the Natural Surbsurface''. Advances in Water Resources 25: no. 8: 1017-42.
*Hogland, W., M. Marques, and V. Karlaviciene. “Stormwater Runoff from Industrial Areas and Pollution Transport.” Proceedings from 1st International Conference on Urban Drainage and Highway Runoff in Cold Climate. Riksgansen, Sweden, 2003.
+
*Green, Jeffery A., E. Calvin Alexander, Jr., William J. Marken, and Scott C. Alexander. 2002. [http://files.dnr.state.mn.us/waters/groundwater_section/mapping/cga/c11_mower/pdf_files/plate10.pdf Karst Hydrogeomorphic Units]. Map. Mower County, MN: MN DNR, Divison of Waters and University of Minnesota, Department of Geology and Geophysics.
*Hollander, Justin, Niall Kirkwood, and Julia Gold. Principles of Brownfield Regeration: Cleanup, Design, and Reuse of Derelict Land. Washington D.C.: Island Press, 2010.
+
*Gulliver, J.S., A.J. Erickson and P.T. Weiss, Eds.. 2010. [http://stormwaterbook.safl.umn.edu/ Stormwater Treatment: Assessment and Maintenance]. St. Anthony Falls Laboratory, University of Minnesota, Minneapolis, MN, 2009.  
*Hong, E., E. A. Seagren, and A. P. Davis. “Sustainable Oil and Grease Removal from Synthetic Stormwater Runoff Using Bench0Scale Bioretention Studies.” Water Environment Research 78, no. 2 (2006): 141-155.
+
*Gurdak J., and Qi L. Sharon. 2012. ''Vulnerability of Recently Recharged Groundwater in Principle Aquifers of the United States to Nitrate Contamination''. Environmental Science and Technology 46: 6004-12.
*Hoogestraat, Galen. Runoff Flowing through Arrowhead Golf Course. Photograph. USGS South Dakota Water Science Center: Stormwater Monitoring in Rapid City. January 7, 2013. http://sd.water.usgs.gov/projects/Stormwater/stormwater.html
+
 
*Hsiech, C.H. and A. P. Davis. “Evaluation and Optimization of Bioretention Media for Treatment of Urban Storm Water Runoff.” Journal of Environmental Engineering 131, no. 11 (2005): 1521-1531.
+
==H==
*Hunt, W. F., A. R. Jarrett, J. T. Smith and L. J. Sharkey. “Evaluation Bioretention Hydrology and Nutrient Removal at three Field Sites in North Carolina.” Journal of Irrigation Drainage Engineering 132, no. 6 (2006): 600-608.
+
*Hantush, M.S. 1967. ''Growth and Decay of Groundwater Mounds in Response to Uniform Percolation''. Water Resources Research 3, no. 1:227-234.
*J, Prey, Chern L, Holaday S, Johnson C, Donovan T, and Mather P. "Nonpoint Source and Land Management Section." In The Wisconsin Stormwater Manual Part 1: Overview. N.p.: Wisconsin Department of Natural Resources Bureau of Water Resources Managment, n.d.
+
*Haritash, A.K., and C.P. Kaushik. 2009. ''Biodegradation Aspects of Polycyclic Aromatic Hydrocarbons (PAHs): A Review''. Journal of Hazardous Materials 169.
*Jammal, S. E., J. W. Casper, A. M. Sallam, D. Fratta, A. J. Puppala, and B. Munhunthan. "Development Mechanism and Remediation of Multiple Spontaneous Sinkholes: A Case History." Proceedings of GeoFlorida 2010: Advances in Analysis, Modeling and Design. (February 2010): 681-688.
+
*Hathaway, Jon M., E.I., and William F. Hunt. 2008. Urban Waterways: Removal of Pathogens in Stormwater. North Carolina Cooperative Extension, 1-10.  
*Jason, Gurdak J., and Qi L. Sharon. "Vulnerability of Recently Recharged Groundwater in Principle Aquifers of the United States to Nitrate Contamination." Environmental Science and Technology 46 (2012): 6004-12.
+
*Hewes, Will. [https://aquiferalliance.org/Library/LibraryFiles/Resources/Using_Green_Infrastructure_in_Karst_Regions_American_Riv.pdf Using Green Infrastructure in Karst Regions. American Rivers. 1-5.
*Karathanasis, A., T. Mueller, B. Boone, and Y. Thompson. "Effect of Soil Depth and Texture on Fecal Bacteria Removal from Septic Effluents." Journal of Water and Health 4, no. 3 (2006): 395-404.
+
*Hogland, W., M. Marques, and V. Karlaviciene. 2003. ''Stormwater Runoff from Industrial Areas and Pollution Transport''. Proceedings from 1st International Conference on Urban Drainage and Highway Runoff in Cold Climate. Riksgansen, Sweden.
*Karst Working Group. Stormwater Guidelines for Karst Terrain in the Chesapeake Bay Watershed Version 2.0. Technical report no. 1. N.p.: Chesapeake Stormwater Network, 2009.
+
*Hollander, Justin, Niall Kirkwood, and Julia Gold. 2010. ''Principles of Brownfield Regeration: Cleanup, Design, and Reuse of Derelict Land''. Washington D.C.: Island Press.
*Kibbey, H.J, D. Hagedorn, and E.L McCoy. "Use of Fecal Streptococci as Indicators of Pollution in Soils." Applied and Environmental Microbiology 35, no. 4 (1987): 711-17.  
+
*Hong, E., E. A. Seagren, and A. P. Davis. 2006. ''Sustainable Oil and Grease Removal from Synthetic Stormwater Runoff Using Bench0Scale Bioretention Studies''. Water Environment Research 78: no. 2: 141-155.
*Komlos, J., and T. G. Traver. “Long-term Orthophosphate Removal in a Field-scale Storm-water Bioinfiltration Rain Garden.” Journal of Environmental Engineering 138, no. 10 (2012): 991-998.
+
*Hoogestraat, Galen. 2013. Runoff Flowing through Arrowhead Golf Course. Photograph. USGS South Dakota Water Science Center: Stormwater Monitoring in Rapid City. January 7, 2013.  
*Kroening, Sharon, and Mark Ferrey. "The Condition of Minnesota's Groundwater, 2007-2011." Minnesota Pollution Control Agency, August 2013. http://www.pca.state.mn.us/index.php/view-document.html?gid=19743
+
*Hossain, M.A., Furumai H, Nakajima F, and Aryal R.K. 2007. ''Heavy Metals Speciation in Soakaways Sediment and Evaluation of Metal Retention Properties of Surrounding Soil''. Water Science & Technology 56, no. 11:81-89.
*Laughland, John Charles. "Stormwater Management Design in Karst Terrane: Adjusting Hydrology Models and Using Karstic Features." Facility Design Group, 2007, 1-6. http://www.region9wv.com/bay/Stormwater_management_design_in_karst_terrane.pdf
+
*Hsieh, C.H. and A. P. Davis. 2005. ''Evaluation and Optimization of Bioretention Media for Treatment of Urban Storm Water Runoff''. Journal of Environmental Engineering 131, no. 11:1521-1531.
*Lawrence, S.J. "Description, Properties, and Degradation of Selected Volatile Organic Compounds Detected in Ground Water – A Review of Selected Literature." Review. U.S. Geological Survey. http://pubs.usgs.gov/of/2006/1338/pdf/ofr2006-1338.pdf 
+
*Hunt, W. F., A. R. Jarrett, J. T. Smith and L. J. Sharkey. 2006. ''Evaluation Bioretention Hydrology and Nutrient Removal at three Field Sites in North Carolina''. Journal of Irrigation Drainage Engineering 132, no. 6:600-608.
*Lewis, W.J, S.S Foster, and B.S Drasar. International Reference Centre for Waste Disposal (IRCWD). Report no. 01/82. Duebendorf, Switzerland: International Reference Centre for Waste Disposal (IRCWD), 1980.  
+
 
*Li, H. and A. P. Davis. “Water Quality Improvement through Reductions of Pollutant Loads Using Bioretention.” Journal of Environmental Engineering 135, no. 8 (2009): 567-576.
+
==J==
*Li, L. and A. P. Davis. “Urban Stormwater Runoff Nitrogen Composition and Fate in Bioretention Systems.” Environmental Science and Technology 48, no. 6 (2014): 3403-3410.
+
*Jammal, S. E., J. W. Casper, A. M. Sallam, D. Fratta, A. J. Puppala, and B. Munhunthan. 2010. ''Development Mechanism and Remediation of Multiple Spontaneous Sinkholes: A Case History''. Proceedings of GeoFlorida: Advances in Analysis, Modeling and Design. pp 681-688.
*Lin, C., Greenwald, D., & Banin, A. 2003. “Temperature dependence of infiltration rate during large scale water recharge into soils”. Soil Science Society of America Journal, 67, no. 2, 487-493.
+
 
*Low Impact Development, Inc. Nitrogen Cycle in Soil. Image. Urban Design Tools. 2007. http://www.lid-stormwater.net/greenroofs_benefits_ncycle.htm
+
==K==
*M.A, Hossain, Furumai H, Nakajima F, and Aryal R.K. "Heavy Metals Speciation in Soakaways Sediment and Evaluation of Metal Retention Properties of Surrounding Soil." Water Science & Technology 56, no. 11 (2007): 81-89.
+
*Kakuturu, S. and Clark, S. 2015. ''Effects of Deicing Salts on the Clogging of Stormwater Filter Media and on the Media Chemistry''. J. Environ. Eng., 141(9), 04015020.  
*Machusick, M.D. and R. G. Traver. “The Observed Effects of Stormwater Infiltration on Groundwater.” World Environmental and Water Resources Congress 2009: Great Rivers. (2009): 5343-5353.
+
*Karathanasis, A., T. Mueller, B. Boone, and Y. Thompson. 2006. ''Effect of Soil Depth and Texture on Fecal Bacteria Removal from Septic Effluents''. Journal of Water and Health 4, no. 3: 395-404.
*Maimone M., D. E. O’Rourke, J. O. Knighton, and C.P. Thomas. “Potential Impacts of Extensive Stormwater Infiltration in Philadelphia.”  Environmental Engineer Applied Research and Practice 14, Fall (2011): 1-12. http://www.researchgate.net/profile/James_Knighton/publication/262765556_Potential_Impacts_of_Extensive_Stormwater_Infiltration_in_Philadelphia/links/00b7d538cc1710afde000000.pdf 
+
*Karst Working Group. 2009. [https://chesapeakestormwater.net/stormwater-guidance-for-karst-terrain/ Stormwater Guidelines for Karst Terrain in the Chesapeake Bay Watershed Version 2.0]. Technical report no. 1. N.p.: Chesapeake Stormwater Network.
*Maniquiz, Marla C., Lee So-Young, and Kim Lee-Hyung. "Long-Term Monitoring of Infiltration Trench for Nonpoint Source Pollution Control." Water, Air & Soil Pollution 212, nos. 1-4 (2010):13-26.
+
*Kibbey, H.J, D. Hagedorn, and E.L McCoy. 1987. ''Use of Fecal Streptococci as Indicators of Pollution in Soils''. Applied and Environmental Microbiology 35, no. 4:711-17.  
*Marder, Jenny. Ice Salt Truck. Photograph. PBS NEWSHOUR: How Does Salt Battle Road Ice? January 18, 2011. http://www.pbs.org/newshour/rundown/why-does-salt-melt-road-ice/
+
*Komlos, J., and T. G. Traver. 2012. ''Long-term Orthophosphate Removal in a Field-scale Storm-water Bioinfiltration Rain Garden''. Journal of Environmental Engineering 138, no. 10: 991-998.
*Margolis, Sara. Sustainable Stormwater Management on Redeveloped Brownfield Sites in New York City. [Powerpoint Slides]. Pratt Institute, Programs for Sustainable Planning and Development, 2012. http://swimmablenyc.info/wp-content/uploads/2012/05/Sara-Margolis-Final-Thesis-Presentation.pdf
+
*Kroening, Sharon, and Mark Ferrey. 2013. [https://www.pca.state.mn.us/sites/default/files/wq-am1-06.pdf The Condition of Minnesota's Groundwater, 2007-2011]. Minnesota Pollution Control Agency. August 2013.
*McFeters, G.A, and D.G Stuart. "Survival of Coliform Bacteria in Natural Water: Field and Laboratory Studies with Membrane-Filter Chambers." Applied Microbiology 24, no. 5 (1972): 805-11.
+
 
*Mikkelsen, P.S, M. Hafliger, M. Ochs, Jacobsen, J.C Tjell, and M. Boller. "Pollution of Soil and Groundwater from Infiltration of Highly Contaminated Stormwater – A Case Study." Water Science and Technology 36, nos. 8-9: 325-30.
+
==L==
*Minnesota Administrative Rules: Definitions, Minn. Stat. § 103H.005 (The Office of the Revisor of Statutes, 2007). https://www.revisor.mn.gov/statutes/?id=103H.005 
+
*Laughland, John Charles. 2007. Stormwater Management Design in Karst Terrane: Adjusting Hydrology Models and Using Karstic Features. Facility Design Group. pp. 1-6.  
*Minnesota Administrative Rules: Definitions, Minn. Stat. § 4720.5100 (The Office of the Revisor of Statutes 2003). https://www.revisor.mn.gov/rules/?id=4720.5100
+
*Lawrence, S.J. 2006. [http://pubs.usgs.gov/of/2006/1338/pdf/ofr2006-1338.pdf Description, Properties, and Degradation of Selected Volatile Organic Compounds Detected in Ground Water – A Review of Selected Literature]. Review. U.S. Geological Survey.
*Minnesota Administrative Rules: Underground Waters, Minn. Stat. § 7060.0100-0900 (The Office of the Revisor of Statutes, 2007). https://www.revisor.mn.gov/rules/?id=4720.5100
+
*Lewis, W.J, S.S Foster, and B.S Drasar. 1980. ''International Reference Centre for Waste Disposal'' (IRCWD). Report no. 01/82. Duebendorf, Switzerland: International Reference Centre for Waste Disposal (IRCWD).  
*Minnesota Administrative Rules: Zoning Provisions, Minn. Stat. § 6120.3300 (The Office of the Revisor of Statutes 2003). https://www.revisor.mn.gov/rules/?id=6120.3300.
+
*Li, H. and A. P. Davis. 2009. ''Water Quality Improvement through Reductions of Pollutant Loads Using Bioretention''. Journal of Environmental Engineering 135, no. 8:567-576.
*Minnesota Department of Health. "Volatile Organic Compounds in Your Home." Minnesota Department of Health. Last modified February 17, 2015. http://www.health.state.mn.us/divs/eh/indoorair/voc/
+
*Li, L. and A. P. Davis. 2014. ''Urban Stormwater Runoff Nitrogen Composition and Fate in Bioretention Systems''. Environmental Science and Technology 48, no. 6: 3403-3410.
*MN DNR. "Groundwater Contamination Susceptibility." Map. Minnesota Department of Natural Resources: Geomorphology. 2015. http://www.dnr.state.mn.us/whaf/about/scores/geomorphology/gw_contamination.html.   
+
*Lin, C., Greenwald, D., & Banin, A. 2003. ''Temperature dependence of infiltration rate during large scale water recharge into soils''. Soil Science Society of America Journal, 67, no. 2, 487-493.
*MN DNR. “Groundwater Pollution Sensitivity.” Minnesota Department of Natural Resources. Last modified 2014. http://www.dnr.state.mn.us/waters/groundwater_section/mapping/sensitivity.html.
+
*Low Impact Development, Inc. 2007. [http://www.lid-stormwater.net/greenroofs_benefits_ncycle.htm Nitrogen Cycle in Soil]. Image. Urban Design Tools.
*MN DNR: Division of Lands and Minerals. "Completed Aggregate Maps." Minnesota Department of Natural Resources. http://www.dnr.state.mn.us/lands_minerals/aggregate_maps/completed/index.html.  
+
 
*MN USGS, Minnesota Geospatial Information Office. "Bedrock Grid Data." N.d. GIS Data. http://www.mngeo.state.mn.us/chouse/geology/county_regional.html.
+
==M==
*Mohamed, MA, T. Lucke, and F. Boogaard. "Preliminary Investigation into the Pollution Reduction Performance of Swales Used in a Stormwater Treatment Train." Water Science Technology 69, no. 5 (2014).
+
*Machusick, M.D. and R. G. Traver. 2009. [https://www1.villanova.edu/content/dam/villanova/engineering/vcase/vusp/Machusick%2009Thesis%2004_28_09.pdf The Observed Effects of Stormwater Infiltration on Groundwater]. World Environmental and Water Resources Congress 2009: Great Rivers. pp 5343-5353.
*MPCA. "Petroleum Brownfields and Voluntary Investigation and Cleanup Programs." In Brownfield Program Response Action Plans. July ed. N.p.: Minnesota Pollution Control Agency, 2013. http://www.pca.state.mn.us/index.php/view-document.html?gid=19473.  
+
*Maimone M., D. E. O’Rourke, J. O. Knighton, and C.P. Thomas. 2011. [http://www.researchgate.net/profile/James_Knighton/publication/262765556_Potential_Impacts_of_Extensive_Stormwater_Infiltration_in_Philadelphia/links/00b7d538cc1710afde000000.pdf Potential Impacts of Extensive Stormwater Infiltration in Philadelphia].  Environmental Engineer Applied Research and Practice 14, Fall. pp. 1-12.
*MPCA. “Industrial Stormwater.” Minnesota Pollution Control Agency: Stormwater. Last modified April 27, 2015. http://www.pca.state.mn.us/index.php/water/water-types-and-programs/stormwater/industrial-stormwater/index.html
+
*Maniquiz, Marla C., Lee So-Young, and Kim Lee-Hyung. 2010. ''Long-Term Monitoring of Infiltration Trench for Nonpoint Source Pollution Control''. Water, Air & Soil Pollution 212, nos. 1-4:13-26.
*MPCA. “Leaks/Tanks Search.Minnesota Pollution Control Agency Superfund Program. N.d. http://cf.pca.state.mn.us/programs/tank_leak/index.cfm?site=leak.   
+
*Maniquiz-Redillas, M.C., F.K. Geronimo, and L.H. Kim. 2014. Investigation on the effectiveness of pretreatment in stormwater management technologies. J. Environ Sci (China). 26(9):1824-30
*MPCA. “RCRA Cleanup Site Search.Minnesota Pollution Control Agency Superfund Program. Last modified February 28, 2013. http://www.pca.state.mn.us/index.php/waste/waste-and-cleanup/cleanup/superfund/rcra-cleanup-site-search.html. 
+
*Marder, Jenny. 2011. [http://www.pbs.org/newshour/rundown/why-does-salt-melt-road-ice/ Ice Salt Truck. Photograph]. PBS NEWSHOUR: How Does Salt Battle Road Ice? January 18, 2011.
*MPCA. “Superfund Program Site Search.” Minnesota Pollution Control Agency Superfund Program. Last modified September 16, 2014. http://www.pca.state.mn.us/index.php/waste/waste-and-cleanup/cleanup/superfund/superfund-site-search.html.
+
*Margolis, Sara. 2012. [http://swimmablenyc.info/wp-content/uploads/2012/05/Sara-Margolis-Final-Thesis-Presentation.pdf Sustainable Stormwater Management on Redeveloped Brownfield Sites in New York City].  [Powerpoint Slides]. Pratt Institute, Programs for Sustainable Planning and Development.  
*MPCA. “What’s in My Neighborhood.Minnesota Pollution Control Agency: WIMN. Last modified March 30, 2015. http://www.pca.state.mn.us/index.php/data/wimn-whats-in-my-neighborhood/whats-in-my-neighborhood.html.  
+
*McFeters, G.A, and D.G Stuart. 1972. ''Survival of Coliform Bacteria in Natural Water: Field and Laboratory Studies with Membrane-Filter Chambers''. Applied Microbiology 24, no. 5:805-11.
*National Parks Service United States Environmental Protection Agency. Ground-water Monitoring in Karst Terranes: Recommended Protocols and Implicit Assumptions. By James F. Quinlan. Technical report no. EPA 600/X-89/050. Las Vegas, NV: U.S. EPA Environmental Monitoring Systems Laboratory, 1989. http://www.epa.gov/OUST/cat/gwkarst.pdf
+
*Mikkelsen, P.S, M. Hafliger, M. Ochs, Jacobsen, J.C Tjell, and M. Boller. 1997. ''Pollution of Soil and Groundwater from Infiltration of Highly Contaminated Stormwater – A Case Study''. Water Science and Technology 36, nos. 8-9: 325-30.
*Nedvidek, Daniel C. "Evaluating the Effectiveness of Regulatory Stormwater Monitoring Protocols on Groundwater Quality in Urbanized Karst Regions." Master's thesis, Western Kentucky University, 2014. http://digitalcommons.wku.edu/cgi/viewcontent.cgi?article=2414&context=theses.  
+
*Minnesota Department of Health. July 1, 2007. [https://stormwater.pca.state.mn.us/images/3/3a/Evaluating_Proposed_Stormwater_Infiltration_Projects_in_Vulnerable_Wellhead_Protection_Areas.pdf Flow Chart for Evaluating Proposed Stormwater Infiltration Projects in Areas with Vulnerable Groundwater]. Drinking Water Protection Program. Illustration.   
*Neprash, Randy, P.E. "Issues of Concern Related to Underground Infiltration Systems for Stormwater Management & Treatment." Minnesota Department of Transportation, August 2009. http://www.lrrb.org/media/reports/TRS0903.pdf.  
+
*Minnesota Department of Health. 2015. [https://www.health.state.mn.us/communities/environment/air/toxins/voc.htm#:~:text=Common%20examples%20of%20VOCs%20that,and%201%2C3%2Dbutadiene. Volatile Organic Compounds in Your Home.] Minnesota Department of Health.
*Nieber, J. L., C. N. Arika, L. Lahti, J. S. Gulliver, and Peter T. Weiss. "The Impact of Stormwater Infiltration Practices on Groundwater Quality." Metropolitan Council, July 2014, 1-123.
+
*Minnesota Department of Natural Resources. 2015. Groundwater Contamination Susceptibility. Map. Minnesota Department of Natural Resources: Geomorphology.
*Nimmer, M., A. Thompson, and D. Misra. “Modeling Water Table Mounding and Contaminant Transport beneath Storm-water Infiltration Basins.” Journal of Hydrologic Engineering 15, no. 12 (2010): 963-973.
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*Minnesota Department of Natural Resources. 2014. [http://www.dnr.state.mn.us/waters/groundwater_section/mapping/sensitivity.html Groundwater Pollution Sensitivity]. Minnesota Department of Natural Resources. Last modified 2014.  
*Novotny, Eric, Andrew Sander, Omid Mohseni, and Heinz Stefan. A Salt (Chloride) Balance for the Minneapolis/St. Paul Metropolitan Area Environment. Report no. 513. St. Paul, MN: University of Minnesota St. Anthony Falls Laboratory, 2008. http://conservancy.umn.edu/bitstream/handle/11299/115339/pr513.pdf?sequence=1  
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*Minnesota Department of Natural Resources: Division of Lands and Minerals. [http://www.dnr.state.mn.us/lands_minerals/aggregate_maps/completed/index.html Completed Aggregate Maps]. Minnesota Department of Natural Resources.
*NPRPD. National Pollutant Removal Performance Database Version 3. Ellicott City, MD: Center for Watershed Protection, 2007. http://www.stormwaterok.net/CWP%20Documents/CWP-07%20Natl%20Pollutant%20Removal%20Perform%20Database.pdf 
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*Minnesota Stormwater Manual contributors, [https://stormwater.pca.state.mn.us/index.php?title=Karst Karst], Minnesota Stormwater Manual. (accessed June 4, 2015).  
*OSWER. "National Priorities List (NPL)." U.S. EPA Superfund Sites. Last modified October 16, 2013. http://www.epa.gov/superfund/sites/npl/index.htm.
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*MN USGS, Minnesota Geospatial Information Office. [http://www.mngeo.state.mn.us/chouse/geology/county_regional.html Bedrock Grid Data]. GIS Data.  
*Passeport, E., 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.” Journal of Irrigation Drainage Engineering 135, no. 4 (2009): 505-510.
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*Minnesota Pollution Control Agency. 2013. [https://www.pca.state.mn.us/business-with-us/brownfield-redevelopment Petroleum Brownfields and Voluntary Investigation and Cleanup Programs]. In Brownfield Program Response Action Plans. July ed. N.p.: Minnesota Pollution Control Agency.  
*Pitt, R and R. Field. 1999. "Groundwater Contamination Potential from Stormwater Infiltration Practices." Urban Water, 1, no. 3: 217-236. 1994.
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*Minnesota Pollution Control Agency. [https://www.pca.state.mn.us/business-with-us/industrial-stormwater Industrial Stormwater]. Minnesota Pollution Control Agency: Stormwater. Last modified April 27, 2015.   
*Pitt, R, S Clark, K Parmer, R Field, and T.P O'Connor. "Potential Groundwater Contamination for International and Non-International Stormwater Infiltration." U.S. EPA, 1994. http://www.elibrary.dep.state.pa.us/dsweb/Get/Document-68851/363-0300-002.pdf 
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*Minnesota Pollution Control Agency. Leaks/Tanks Search. Minnesota Pollution Control Agency Superfund Program.
*Pitt, R., S. Clark, and K. Parmer. Pollution Removal Process in the Subsurface. Photograph. 1994.
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*Minnesota Pollution Control Agency. 2013. RCRA Cleanup Site Search. Minnesota Pollution Control Agency Superfund Program. Last modified February 28, 2013.
*Pitt, R., S. Clark, and R. Field. "Groundwater Contamination Potential from Stormwater Infiltration Practices." Urban Water 1, no. 3 (1999): 217-36.  
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*Minnesota Pollution Control Agency. Superfund Program Site Search. Minnesota Pollution Control Agency Superfund Program. Last modified September 16, 2014.
*Pitt, Robert, Alex Maestre, and Renee Morquecho. 2004. The National Stormwater Quality Database (NSQD, version 1.1). University of Alabama, Tuscaloosa, AL. http://rpitt.eng.ua.edu/Research/ms4/Paper/Mainms4paper.html 
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*Minnesota Pollution Control Agency. [http://www.pca.state.mn.us/index.php/data/wimn-whats-in-my-neighborhood/whats-in-my-neighborhood.html What’s in My Neighborhood]. Minnesota Pollution Control Agency: WIMN. Last modified March 30, 2015.
*Pratt, C. J., A. P. Newman, and P. C. Bond. “Mineral Oil Bio-Degredation within a Permeable Pavement: Long-term Observations.” Water Science and Technology 39, no. 2 (1999): 103-109.
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*Minnesota Pollution Control Agency. 2001. [https://wrl.mnpals.net/islandora/object/WRLrepository%3A1252 Effects of Land Use on Ground Water Quality, St. Cloud Area, Minnesota – Short Report].
*Rowe, Pam and Rom Schueler. “The Smart Watershed Benchmarking Tool.” Center for Watershed Protection. U.S. EPA Office of Wetlands, Oceans and Watersheds. (January 2006): 1-104. http://water.epa.gov/polwaste/nps/upload/ELC_SWBT.pdf
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*Mohamed, M. A. Kachchu , T. Lucke and F. Boogaard. 2013. ''Preliminary investigation into the pollution reduction performance of swales used in a stormwater treatment train''. Water Science & Technology. 69(5):1014-20
*Sanford, Ward E. and David L. Selnick, 2012. Estimation of Evapotranspiration Across the Conterminous United States Using a Regression with Climate and Land-Cover Data. Journal of the American Water Resources Association (JAWRA) 1-14. DOI: 10.1111/jawr.12010
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*St. John’s River Water Management District. 2010. [http://floridaswater.com/handbooks_archive/pdfs/stwthdbk.pdf Applicant’s Handbook.Regulation of Stormwater Management Systems]. Palatka, FL: SJR Water Management District, December 27.   
+
==N==
*Schueler, T. Design of Stormwater Wetland Systems: Guidelines for Creating Diverse and Effective Stormwater Wetlands in the Mid-Atlantic Region. Washington D.C.: Metropolitan Washington Council of Governments, 1992.  
+
*Barrett, M., L. Katz, S. Taylor, J. Sansalone, and M. Stevenson. 2014. [http://onlinepubs.trb.org/onlinepubs/nchrp/nchrp_rpt_767.pdf Measuring and Removing Dissolved Metals from Stormwater in Highly Urbanized Areas]. National Cooperative highway Research Program Report 767.
*Schueler, T.R. Controlling Urban Runoff: A Practical Manual for Planning and Designing Urban BMPs. Washington D.C.: Metropolitan Washington Council of Governments, 1987.  
+
*National Parks Service United States Environmental Protection Agency. 1989. [https://karstwaters.org/wp-content/uploads/2015/04/gw-monitoring-in-karst.pdf Ground-water Monitoring in Karst Terranes: Recommended Protocols and Implicit Assumptions]. By James F. Quinlan. Technical report no. EPA 600/X-89/050. Las Vegas, NV: U.S. EPA Environmental Monitoring Systems Laboratory.
*SEMCOG. 2008. [http://library.semcog.org/InmagicGenie/DocumentFolder/LIDManualWeb.pdf Low Impact Development Manual for Michigan: A Design Guide for Implementors and Reviewers]. Detroit, MI: Southeast Michigan Council of Governments, Michigan Department of Transportation (MDOT).
+
*Nedvidek, Daniel C. 2014. [http://digitalcommons.wku.edu/cgi/viewcontent.cgi?article=2414&context=theses Evaluating the Effectiveness of Regulatory Stormwater Monitoring Protocols on Groundwater Quality in Urbanized Karst Regions]. Master's thesis, Western Kentucky University.
 +
*Nelson, S., Yonge, D., and Barber, M. 2009. ”Effects of Road Salts on Heavy Metal Mobility in Two Eastern Washington Soils.” J. Environ. Eng., 135(7), 505–510.  
 +
*Neprash, Randy, P.E. 2009. [http://www.lrrb.org/media/reports/TRS0903.pdf Issues of Concern Related to Underground Infiltration Systems for Stormwater Management & Treatment]. Minnesota Department of Transportation, August 2009.
 +
*Nieber, J. L., C. N. Arika, L. Lahti, J. S. Gulliver, and Peter T. Weiss. 2014. [http://www.metrocouncil.org/METC/files/9f/9f5e1d8d-30d0-44f2-ba83-aeca8f372c61.pdf The Impact of Stormwater Infiltration Practices on Groundwater Quality]. Metropolitan Council. pp 1-123.
 +
*Nimmer, M., A. Thompson, and D. Misra. 2010. ''Modeling Water Table Mounding and Contaminant Transport beneath Storm-water Infiltration Basins''. Journal of Hydrologic Engineering 15, no. 12:963-973.
 +
*Novotny, Eric, Andrew Sander, Omid Mohseni, and Heinz Stefan. 2008. [http://conservancy.umn.edu/bitstream/handle/11299/115339/pr513.pdf?sequence=1 A Salt (Chloride) Balance for the Minneapolis/St. Paul Metropolitan Area Environment]. Report no. 513. St. Paul, MN: University of Minnesota St. Anthony Falls Laboratory.
 +
*NPRPD. 2007. [http://www.stormwaterok.net/CWP%20Documents/CWP-07%20Natl%20Pollutant%20Removal%20Perform%20Database.pdf National Pollutant Removal Performance Database Version 3]. Ellicott City, MD: Center for Watershed Protection.
 +
 
 +
==O==
 +
*Olson, N.C., J.S. Gulliver, J.L. Nieber and M. Kayhanian. 2013. ''Remediation to Improve Infiltration into Compact Soils''. Journal of Environmental Management. 117:85-95
 +
*OSWER. 2013. National Priorities List (NPL). U.S. EPA Superfund Sites. Last modified October 16.
 +
 
 +
==P==
 +
*Passeport, E., W. F. Hunt, D. E. Line, R. A. Smith, and R. A. Brown. 2009. ''Field Study of the Ability of Two Grassed Bioretention Cells to Reduce Storm-Water Runoff Pollution''. Journal of Irrigation Drainage Engineering 135, no. 4:505-510.
 +
*Paus, K.H., J. Morgan, J.S. Gulliver, T. Leiknes and R.M. Hozalski. 2014. ''Assessment of the Hydraulic and Toxic Removal Capacities of Bioretention Cells after 2 to 8 Years of Service''. Water, Soil and Air Pollution, 225 (1803).  
 +
*Pitt, R and R. Field. 1999. ''Groundwater Contamination Potential from Stormwater Infiltration Practices''. Urban Water, 1, no. 3: 217-236. 1994.
 +
*Pitt, R, S Clark, K Parmer, R Field, and T.P O'Connor. 1994. [https://nepis.epa.gov/Exe/ZyNET.exe/9100UUBO.TXT?ZyActionD=ZyDocument&Client=EPA&Index=1991+Thru+1994&Docs=&Query=&Time=&EndTime=&SearchMethod=1&TocRestrict=n&Toc=&TocEntry=&QField=&QFieldYear=&QFieldMonth=&QFieldDay=&IntQFieldOp=0&ExtQFieldOp=0&XmlQuery=&File=D%3A%5Czyfiles%5CIndex%20Data%5C91thru94%5CTxt%5C00000026%5C9100UUBO.txt&User=ANONYMOUS&Password=anonymous&SortMethod=h%7C-&MaximumDocuments=1&FuzzyDegree=0&ImageQuality=r75g8/r75g8/x150y150g16/i425&Display=hpfr&DefSeekPage=x&SearchBack=ZyActionL&Back=ZyActionS&BackDesc=Results%20page&MaximumPages=1&ZyEntry=1&SeekPage=x&ZyPURL Potential Groundwater Contamination for International and Non-Intentional Stormwater Infiltration]. U.S. EPA. 
 +
*Pitt, R., S. Clark, and K. Parmer. 1994. Pollution Removal Process in the Subsurface. Photograph.
 +
*Pitt, R., S. Clark, and R. Field. 1999. ''Groundwater Contamination Potential from Stormwater Infiltration Practices''. Urban Water 1, no. 3: 217-36.
 +
*Pitt, Robert, Alex Maestre, and Renee Morquecho. 2004. [https://bmpdatabase.org/national-stormwater-quality-database The National Stormwater Quality Database] (NSQD, version 1.1). University of Alabama, Tuscaloosa, AL. 
 +
*Pratt, C. J., A. P. Newman, and P. C. Bond. 1999. ''Mineral Oil Bio-Degredation within a Permeable Pavement: Long-term Observations''.” Water Science and Technology 39, no. 2:103-109.
 +
*Prey, J., L. Chern, S. Holaday, C. Johnson, T. Donovan, and P. Mather. ''Nonpoint Source and Land Management Section''. In [https://www.aqualisco.com/wp-content/uploads/2019/08/Wisconsin-Stormwater-Manual-Part-One-Overview.pdf The Wisconsin Stormwater Manual Part 1: Overview]. N.p.: Wisconsin Department of Natural Resources Bureau of Water Resources Managment, n.d.
 +
 
 +
==R==
 +
*Rowe, Pam and Rom Schueler. 2006. [https://cms4files.revize.com/merrillville/document_center/SW_Watershed_Benchmarking_Tool.pdf The Smart Watershed Benchmarking Tool]. Center for Watershed Protection. U.S. EPA Office of Wetlands, Oceans and Watersheds. pp 1-104.
 +
 
 +
==S==
 +
*Sanford, Ward E. and David L. Selnick, 2012. ''Estimation of Evapotranspiration Across the Conterminous United States Using a Regression with Climate and Land-Cover Data''. Journal of the American Water Resources Association (JAWRA) 1-14. DOI: 10.1111/jawr.12010
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*St. John’s River Water Management District. 2010. [https://www.fdot.gov/docs/default-source/roadway/drainage/files/StormwaterQualityAppHB-DRAFT.pdf Applicant’s Handbook.Regulation of Stormwater Management Systems]. Palatka, FL: SJR Water Management District, December 27.   
 +
*Schueler, T. 1992. ''Design of Stormwater Wetland Systems: Guidelines for Creating Diverse and Effective Stormwater Wetlands in the Mid-Atlantic Region''. Washington D.C.: Metropolitan Washington Council of Governments.  
 +
*Schueler, T.R. 1987. ''Controlling Urban Runoff: A Practical Manual for Planning and Designing Urban BMPs''. Washington D.C.: Metropolitan Washington Council of Governments.
 +
*SEMCOG. 2008. [https://semcog.org/desktopmodules/SEMCOG.Publications/GetFile.ashx?filename=LowImpactDevelopmentManualforMichiganSeptember2008.pdf Low Impact Development Manual for Michigan: A Design Guide for Implementors and Reviewers]. Detroit, MI: Southeast Michigan Council of Governments, Michigan Department of Transportation (MDOT).
 
*Sepp, Siim. 2011. [http://commons.wikimedia.org/wiki/File:Sand_from_Gobi_Desert.jpg Rounded and Fine-Grained Eolian Sand Sample from the Gobi Desert (near Dalanzadgad in Mongolia)]. In Wikipedia, edited by Wikimedia. October 24.  
 
*Sepp, Siim. 2011. [http://commons.wikimedia.org/wiki/File:Sand_from_Gobi_Desert.jpg Rounded and Fine-Grained Eolian Sand Sample from the Gobi Desert (near Dalanzadgad in Mongolia)]. In Wikipedia, edited by Wikimedia. October 24.  
 
*Shade, Beverly L., E. Calvin Alexander, Jr., Scott C. Alexander and Samuel Martin. 2001. [http://conservancy.umn.edu/bitstream/handle/11299/58554/plate6%5B2%5D.pdf?sequence=4&isAllowed=y Sinkhole Distribution. Map. Pine County, MN]. University of Minnesota, MN USGS, Pine County Board of Commissioners, The Pine County Soil and Water Conservation District, MN DNR Division of Waters.  
 
*Shade, Beverly L., E. Calvin Alexander, Jr., Scott C. Alexander and Samuel Martin. 2001. [http://conservancy.umn.edu/bitstream/handle/11299/58554/plate6%5B2%5D.pdf?sequence=4&isAllowed=y Sinkhole Distribution. Map. Pine County, MN]. University of Minnesota, MN USGS, Pine County Board of Commissioners, The Pine County Soil and Water Conservation District, MN DNR Division of Waters.  
 +
*State of Minnesota Revisor of Statutes. 2007. [https://www.revisor.mn.gov/statutes/?id=103H.005 Minnesota Administrative Rules: Definitions, Minn. Stat. § 103H.005]. 
 +
*State of Minnesota Revisor of Statutes. 2003. [https://www.revisor.mn.gov/rules/?id=4720.5100 Minnesota Administrative Rules: Definitions, Minn. Stat. § 4720.5100]. The Office of the Revisor of Statutes.
 +
*State of Minnesota Revisor of Statutes. 2007. [https://www.revisor.mn.gov/rules/?id=4720.5100 Minnesota Administrative Rules: Underground Waters, Minn. Stat. § 7060.0100-0900]. 
 +
*State of Minnesota Revisor of Statutes. 2003. [https://www.revisor.mn.gov/rules/?id=6120.3300 Minnesota Administrative Rules: Zoning Provisions, Minn. Stat. § 6120.3300].
 
*State of Rhode Island Department of Environmental Management, Office of Water Resources, 2014. [http://www.dem.ri.gov/programs/benviron/water/permits/swcoord/pdf/wastswgu.pdf Section 3.2.8]. In RISDISM Subsurface Contamination Guidance, 3-7A-3-7B. N.p..   
 
*State of Rhode Island Department of Environmental Management, Office of Water Resources, 2014. [http://www.dem.ri.gov/programs/benviron/water/permits/swcoord/pdf/wastswgu.pdf Section 3.2.8]. In RISDISM Subsurface Contamination Guidance, 3-7A-3-7B. N.p..   
*Stephenson, J. Brad, W.F. Zhou, Barry F. Beck, and Tom S. Green. “Highway Stormwater Runoff in Karst Areas – Preliminary Results of Baseline Monitoring and Design of a Treatment System for a Sinkhole in Knoxville, Tennessee.Engineering Geology 52, nos. 1-2 (1999): 51-59.
+
*Stephenson, J. Brad, W.F. Zhou, Barry F. Beck, and Tom S. Green. 1999. ''Highway Stormwater Runoff in Karst Areas – Preliminary Results of Baseline Monitoring and Design of a Treatment System for a Sinkhole in Knoxville, Tennessee''. Engineering Geology 52, nos. 1-2:51-59.
*Stormwater Partners of Southwest Washington. [http://www.stormwaterpartners.com/facilities/basin.html Dry Infiltration Basin. Photograph]. Stormwater, Managing Stormwater Facilities: Infiltration Basin.  
+
*Stormwater Partners of Southwest Washington. Dry Infiltration Basin. Photograph. Stormwater, Managing Stormwater Facilities: Infiltration Basin.  
 
*Sun, X., and A.P Davis. 2007. ''Heavy Metal Fates in Laboratory Bioretention Systems''. Chemosphere 66:1601-09.  
 
*Sun, X., and A.P Davis. 2007. ''Heavy Metal Fates in Laboratory Bioretention Systems''. Chemosphere 66:1601-09.  
*Susilo, K, N. Matasovic, R.S., Johnson. 2009. “Considerations, opportunities, and strategies for infiltrating stormwater BMPs”. World Environmental Congress 2009, 971-980. http://ascelibrary.org/doi/pdf/10.1061/41036%28342%2997
+
*Susilo, K, N. Matasovic, R.S., Johnson. 2009. Considerations, opportunities, and strategies for infiltrating stormwater BMPs. World Environmental Congress 2009, 971-980.
 +
 
 +
==T==
 
*Tate, R.L. 1978. ''Cultural and Environmental Factors Affecting the Longevity of Escherichia coli in Water: A Current Perspective''. Applied and Environmental Microbiology 35: no. 5: 925-29.  
 
*Tate, R.L. 1978. ''Cultural and Environmental Factors Affecting the Longevity of Escherichia coli in Water: A Current Perspective''. Applied and Environmental Microbiology 35: no. 5: 925-29.  
 
*Tennessee Stormwater Management. 2015. [http://tnpermanentstormwater.org/manual/27%20Appendix%20B%20Stormwater%20Design%20Guidelines%20for%20Karst%20Terrain.pdf Appendix B: Stormwater Design Guidelines for Karst Terrain]. Management and Design Guidance Manual. The Tennessee Permanent Stormwater Management Training. Last modified March 2, 2015.   
 
*Tennessee Stormwater Management. 2015. [http://tnpermanentstormwater.org/manual/27%20Appendix%20B%20Stormwater%20Design%20Guidelines%20for%20Karst%20Terrain.pdf Appendix B: Stormwater Design Guidelines for Karst Terrain]. Management and Design Guidance Manual. The Tennessee Permanent Stormwater Management Training. Last modified March 2, 2015.   
 
*Tennessee Stormwater Management. 2015. [http://tnpermanentstormwater.org/manual.asp Management and Design Guidance Manual]. The Tennessee Permanent Stormwater Management Training. Last modified March 2, 2015.   
 
*Tennessee Stormwater Management. 2015. [http://tnpermanentstormwater.org/manual.asp Management and Design Guidance Manual]. The Tennessee Permanent Stormwater Management Training. Last modified March 2, 2015.   
 
*The Federal Interagency Stream Restoration Working Group. "Figure 3.21: Relationship between impervious cover and surface runoff." Image. Stream Corridor Restoration: Principles, Processes, and Practices, August 2001, 3-23.
 
*The Federal Interagency Stream Restoration Working Group. "Figure 3.21: Relationship between impervious cover and surface runoff." Image. Stream Corridor Restoration: Principles, Processes, and Practices, August 2001, 3-23.
*Thomas, Brian F., and Richard M. Vogel. "Impact of Storm Water Recharge Practices on Boston Groundwater Elevations." Journal of Hydrologic Engineering 17, no. 8 (2012): 923-932.
+
*Thomas, Brian F., and Richard M. Vogel. 2012. ''Impact of Storm Water Recharge Practices on Boston Groundwater Elevations''. Journal of Hydrologic Engineering 17, no. 8:923-932.
*Thompson, Steve. "Karst in Minnesota." Minnesota Pollution Control Agency. Last modified February 2, 2015. http://www.eahcp.org/files/uploads/09-03-10Attachment4aUsing_Green_Infrastructure.pdf
+
*Thompson, Steve. 2015. [https://www.pca.state.mn.us/water/karst-minnesota Karst in Minnesota]. Minnesota Pollution Control Agency. Last modified February 2, 2015.  
*Tipping, Robert G., Jeffery A. Green, and E. Calvin Alexander, Jr.. 2001 [http://conservancy.umn.edu/bitstream/handle/11299/58557/plate5%5B1%5D.pdf?sequence=5&isAllowed=y Karst Features. Map. Wabasha County, MN: University of Minnesota, MN USGS, Wabasha County Board of Commissioners and MN DNR, Division of Waters.  
+
*Tipping, Robert G., Jeffery A. Green, and E. Calvin Alexander, Jr.. 2001 [http://conservancy.umn.edu/bitstream/handle/11299/58557/plate5%5B1%5D.pdf?sequence=5&isAllowed=y Karst Features]. Map. Wabasha County, MN: University of Minnesota, MN USGS, Wabasha County Board of Commissioners and MN DNR, Division of Waters.
*Trojan, Mike. A collapsed karst feature where a stormwater pond previously existed. Photograph. 2013. Woodbury, MN.
+
 
*Trojan, Mike. Woodbury sinkhole collapse looking towards the South. Photograph. 2013. Woodbury, MN.
+
==U==
*U.S. Department of the Interior U.S. Geological Survey. Simulation of Groundwater Mounding Beneath Hypothetical Stormwater Infiltration Basins. By Glen B. Carleton. Scientific Investigations Report no. 2010-5102. N.p.: USGS, 2010. http://pubs.usgs.gov/sir/2010/5102/support/sir2010-5102.pdf
+
*U.S. Department of the Interior U.S. Geological Survey. 2010. [http://pubs.usgs.gov/sir/2010/5102/support/sir2010-5102.pdf  Simulation of Groundwater Mounding Beneath Hypothetical Stormwater Infiltration Basins]. By Glen B. Carleton. Scientific Investigations Report no. 2010-5102. N.p.: USGS.
*U.S. EPA Office of Water. Stormwater Technology Fact Sheet: Bioretention. [Fact Sheet] no. EPA 832-F- 99-012. N.p.: United States Environmental Protection Agency, 1999. http://water.epa.gov/scitech/wastetech/upload/2002_06_28_mtb_biortn.pdf
+
*U.S. EPA Office of Water. 1999. [https://nacto.org/references/storm-water-technology-fact-sheet-bioretention-1999/ Stormwater Technology Fact Sheet: Bioretention]. Fact Sheet no. EPA 832-F- 99-012. N.p.: United States Environmental Protection Agency.  
*U.S. EPA, and NJDEP. Qs & As on RCLA vs. CERCLA at the DuPont Pompton Lakes Works Site. N.p.: U.S. EPA and New Jersey Department of Environmental Protection, 2011. http://www.epa.gov/region2/waste/dupont_pompton/pdf/RCRAvsSuperfund_factsheet.pdf
+
*U.S. EPA, and NJDEP. 2011. Qs & As on RCLA vs. CERCLA at the DuPont Pompton Lakes Works Site. N.p.: U.S. EPA and New Jersey Department of Environmental Protection.  
*U.S. EPA.  Design Principles for Stormwater Management on Compacted Contaminated Soils in Dense Urban Areas. Technical report no. EPA-560-F-07-231. N.p.: U.S. EPA Office of Solid Waste and Emergency Response, April 2008. http://www.epa.gov/brownfields/tools/swdp0408.pdf
+
*U.S. EPA.  2008. [https://19january2017snapshot.epa.gov/brownfields/brownfields-design-principles-stormwater-management-compacted-contaminated-soils-dense_.html Design Principles for Stormwater Management on Compacted Contaminated Soils in Dense Urban Areas]. Technical report no. EPA-560-F-07-231. N.p.: U.S. EPA Office of Solid Waste and Emergency Response.
*U.S. EPA. "Water: Drinking Water Contaminants." United States Environmental Protection Agency. Last modified June 2003. http://water.epa.gov/drink/contaminants/#List
+
*U.S. EPA. 2003. [http://water.epa.gov/drink/contaminants/#List Water: Drinking Water Contaminants]. United States Environmental Protection Agency. Last modified June 2003.
*U.S. EPA. Fact-Sheet Engineering Controls on Brownfields Information Guide: How They Work with Institutional Controls; the Most Common Types Used; and an Introduction to Costs. Technical report no. EPA-560-F-10-005. N.p.: U.S. EPA Office of Solid Waste and Emergency Response, 2010. http://www.epa.gov/brownfields/tools/ec_information_guide.pdf
+
*U.S. EPA. 2010. [https://www.epa.gov/sites/default/files/2015-09/documents/ec_information_guide.pdf Fact-Sheet Engineering Controls on Brownfields Information Guide: How They Work with Institutional Controls; the Most Common Types Used; and an Introduction to Costs]. Technical report no. EPA-560-F-10-005. N.p.: U.S. EPA Office of Solid Waste and Emergency Response.  
*U.S. EPA. Implementing Stormwater Infiltration Practices at Vacant Parcels and Brownfield Sites. Technical report no. EPA 905F13001. N.p.: U.S. EPA Office of Water and Office of Solid Waste and Emergency Response, July 2013. http://www.epa.state.il.us/water/watershed/publications/implementing-stormwater-infiltration-practices.pdf  
+
*U.S. EPA. 2013. [http://www.epa.state.il.us/water/watershed/publications/implementing-stormwater-infiltration-practices.pdf Implementing Stormwater Infiltration Practices at Vacant Parcels and Brownfield Sites]. Technical report no. EPA 905F13001. N.p.: U.S. EPA Office of Water and Office of Solid Waste and Emergency Response.
*U.S. EPA. Permeable Pavements. Photograph. What is Green Infrastructure. June 13, 2014. http://water.epa.gov/infrastructure/greeninfrastructure/gi_what.cfm
+
*U.S. EPA. Permeable Pavements. 2014. [https://www.epa.gov/green-infrastructure/what-green-infrastructure Photograph. What is Green Infrastructure]. June 13, 2014.
*U.S. EPA. Planter Boxes. Photograph. What is Green Infrastructure. June 13, 2014. http://water.epa.gov/infrastructure/greeninfrastructure/gi_what.cfm
+
*U.S. EPA. Planter Boxes. 2014. [https://www.epa.gov/green-infrastructure/what-green-infrastructure Photograph. What is Green Infrastructure]. June 13, 2014.
*U.S. EPA. Rain Gardens. Photograph. What is Green Infrastructure. June 13, 2014. http://water.epa.gov/infrastructure/greeninfrastructure/gi_what.cfm
+
*U.S. EPA. Rain Gardens. 2014. [https://www.epa.gov/green-infrastructure/what-green-infrastructure Photograph. What is Green Infrastructure]. June 13, 2014.  
*United States Department of Agriculture Natural Resources Conservation Service. Soil Survey List. Compiled by NRCS. N.p.: USDA-NRCS, Various. http://www.nrcs.usda.gov/wps/portal/nrcs/surveylist/soils/survey/state/?stateId=MN
+
*United States Department of Agriculture Natural Resources Conservation Service. [https://www.nrcs.usda.gov/conservation-basics/natural-resource-concerns/soil/soil-surveys-by-state Soil Survey List]. Compiled by NRCS. N.p.: USDA-NRCS, Various.  
*United States Environmental Protection Agency Office of Wetlands, Oceans and Watersheds. Guidance to Specify Management Measures for Sources of Nonpoint Pollution in Coastal Waters. Washington D.C.: US EPA, 1993a.  
+
*United States Environmental Protection Agency Office of Wetlands, Oceans and Watersheds. 1993a. [https://www.epa.gov/nps/guidance-specifying-management-measures-sources-nonpoint-pollution-coastal-waters Guidance to Specify Management Measures for Sources of Nonpoint Pollution in Coastal Waters]. Washington D.C.: US EPA.
*United States Environmental Protection Agency Office of Wetlands, Oceans and Watersheds. Urban Runoff Pollution Prevention and Control Planning Handbook. Publication no. EPA/625/R-93/004. Washington D.C.: US EPA, 1993b. http://nepis.epa.gov/Adobe/PDF/30004LY0.pdf
+
*United States Environmental Protection Agency Office of Wetlands, Oceans and Watersheds. 1993b. [http://nepis.epa.gov/Adobe/PDF/30004LY0.pdf Urban Runoff Pollution Prevention and Control Planning Handbook]. Publication no. EPA/625/R-93/004. Washington D.C.: US EPA.
*United States Environmental Protection Agency. Source Water Protection Practices Bulletin: Managing Stormwater Runoff to Prevent Contamination of Drinking Water. By U.S. EPA. Washington DC: U.S. EPA, 2010. http://www.epa.gov/safewater/sourcewater/pubs/fs_swpp_stormwater.pdf
+
*United States Environmental Protection Agency. 2010. [https://nepis.epa.gov/Exe/ZyNET.exe/P1005P0Z.TXT?ZyActionD=ZyDocument&Client=EPA&Index=2006+Thru+2010&Docs=&Query=&Time=&EndTime=&SearchMethod=1&TocRestrict=n&Toc=&TocEntry=&QField=&QFieldYear=&QFieldMonth=&QFieldDay=&IntQFieldOp=0&ExtQFieldOp=0&XmlQuery=&File=D%3A%5Czyfiles%5CIndex%20Data%5C06thru10%5CTxt%5C00000012%5CP1005P0Z.txt&User=ANONYMOUS&Password=anonymous&SortMethod=h%7C-&MaximumDocuments=1&FuzzyDegree=0&ImageQuality=r75g8/r75g8/x150y150g16/i425&Display=hpfr&DefSeekPage=x&SearchBack=ZyActionL&Back=ZyActionS&BackDesc=Results%20page&MaximumPages=1&ZyEntry=1&SeekPage=x&ZyPURL_swpp_stormwater.pdf Source Water Protection Practices Bulletin: Managing Stormwater Runoff to Prevent Contamination of Drinking Water]. By U.S. EPA. Washington DC: U.S. EPA.  
*United States Geological Service (USGS). 2014. Contaminants Found in Groundwater. Retrieved from http://water.usgs.gov/edu/groundwater-contaminants.html
+
*United States Geological Service (USGS). 2014. [http://water.usgs.gov/edu/groundwater-contaminants.html Contaminants Found in Groundwater].
*USGS Office of Groundwater. "What is Karst?" USGS Groundwater Information. Last modified January 30, 2012. http://water.usgs.gov/ogw/karst/pages/whatiskarst
+
*USGS Office of Groundwater. 2012. [http://water.usgs.gov/ogw/karst/pages/whatiskarst What is Karst?]. USGS Groundwater Information. Last modified January 30, 2012.
*Water Environment Federation. 2012. Design of urban stormwater controls (2nd ed.). New York: McGraw-Hill Professional.
+
 
*Water Environment Research Foundation, EWRI, U.S. EPA, U.S. Department of Transportation, American Public Works Association (APWA), Wright Water Engineers, Inc., and Geosyntec Consultants. "Statistical Addendum: TSS, Bacteria, Nutrients, and Metals." International Stormwater BMP Database. Last modified 2012. http://www.bmpdatabase.org/
+
==V==
*Weiss, P.T, G. LeFevre, and J.S Gulliver. "Contamination of Soil and Groundwater Due to Stormwater Infiltration Practices: A Literature Review." Reviewreview. University of Minnesota Stormwater Assessment Project, 2008. http://proteus.pca.state.mn.us/water/stormwater/index.html
+
*Violante, A., V. Cozzolino, L. Perelomov, A.G. Caporale, and M. Pigna. 2010. [http://www.scielo.cl/pdf/jsspn/v10n3/art05.pdf Mobility and Biovailability of Heavy Metals and Metalloids in the Soil]. J. Soil. Sci. Plant Nutr. 10 (3): 268 - 292.
*Western Michigan University. "Storm Water." Environmental Safety. http://esem.wmich.edu/waterweb.htm
+
 
*WI DNR. Soil Erosion from New Construction - DNR Photo. Photograph. Wisconsin Department of Natural Resources: Why is Storm Water Runoff a Problem? February 28, 2012. http://dnr.wi.gov/topic/stormwater/learn_more/problems.html
+
==W==
*Winegrad, Gerald W. Oil in Stormwater. Photograph. Chesapeake Bay Action Plan. 2015. http://www.bayactionplan.com/stormwater-management/  
+
*Water Environment Federation. 2012. ''Design of urban stormwater controls'' (2nd ed.). New York: McGraw-Hill Professional.
*Witthuhn, Kathleen M., and E. Calvin Alexander, Jr.. Sinkholes and Sinkhole Probability. Map. Fillmore County, MN: MN DNR, and MN Environment and Natural Resources Trust Fund, 1995. http://files.dnr.state.mn.us/waters/groundwater_section/mapping/cga/c08_fillmore/pdf_files/plate08.pdf
+
*Water Environment Research Foundation, EWRI, U.S. EPA, U.S. Department of Transportation, American Public Works Association (APWA), Wright Water Engineers, Inc., and Geosyntec Consultants. 2012. [http://www.bmpdatabase.org/ Statistical Addendum: TSS, Bacteria, Nutrients, and Metals]. International Stormwater BMP Database. Last modified 2012.
*Zisman, Edward, D. and Daniel J. Clarey. “Problems Associated with the Use of Compaction Grout for Sinkhole Remediation in West-Central Florida.´13th Sinkhole Conference: NCKRI Symposium 2, (May 2013): 23-26. http://scholarcommons.usf.edu/cgi/viewcontent.cgi?article=1109&context=sinkhole_2013
+
*Weiss, P.T, G. LeFevre, and J.S Gulliver. 2008. [https://www.researchgate.net/publication/237328557_Contamination_of_Soil_and_Groundwater_Due_to_Stormwater_Infiltration_Practices_A_Literature_Review Contamination of Soil and Groundwater Due to Stormwater Infiltration Practices: A Literature Review]. University of Minnesota Stormwater Assessment Project.
*Zogorski, John S. "Chapter 3 - VOCs in Groundwater." Volatile Organic Compounds in the Nation's Ground Water and Drinking-Water Supply Wells. Last modified 2006. https://water.usgs.gov/nawqa/vocs/national_assessment/report/chapter3.html
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*Western Michigan University. [https://wmich.edu/ehs/services/environmental/water-resources Storm Water]. Environmental Safety.
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*Wisconsin department of natural resources. 2012. [http://dnr.wi.gov/topic/stormwater/learn_more/problems.html Soil Erosion from New Construction]. DNR Photo. Photograph. Wisconsin Department of Natural Resources: Why is Storm Water Runoff a Problem? February 28.
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*Winegrad, Gerald W. 2015. Oil in Stormwater. Photograph. Chesapeake Bay Action Plan.
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*Witthuhn, Kathleen M., and E. Calvin Alexander, Jr.. 1995. [http://files.dnr.state.mn.us/waters/groundwater_section/mapping/cga/c08_fillmore/pdf_files/plate08.pdf Sinkholes and Sinkhole Probability]. Map. Fillmore County, MN: MN DNR, and MN Environment and Natural Resources Trust Fund.
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==Z==
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*Zisman, Edward, D. and Daniel J. Clarey. 2013. [http://scholarcommons.usf.edu/cgi/viewcontent.cgi?article=1109&context=sinkhole_2013 Problems Associated with the Use of Compaction Grout for Sinkhole Remediation in West-Central Florida].´13th Sinkhole Conference: NCKRI Symposium 2, May:23-26. 
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*Zogorski, John S. 2006. Chapter 3 - VOCs in Groundwater. [https://pubs.er.usgs.gov/publication/cir1292 Volatile Organic Compounds in the Nation's Ground Water and Drinking-Water Supply Wells]. Last modified 2006.
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[[Category:Level 3 - Best management practices/Structural practices/Infiltration (trench/basin)]]
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[[Category:Level 2 - Technical and specific topic information/infiltration]]
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[[Category:Level 2 - General information, reference, tables, images, and archives/Reference]]

Latest revision as of 02:46, 25 February 2023

Also see References for infiltration

A

B

  • Bean, E.Z., W.F. Hunt, D.A. Bidelspach, 2007b. Evaluation of Four Permeable Pavement Sites in Eastern North Carolina for Runoff Reduction and Water Quality Impacts. ASCE Journal of Irrigation and Drainage Engineering 133: No. 6: 583-592.
  • Bean, E.Z., W.F. Hunt, D.A. Bidelspach. 2007a. A Field Survey of Permeable Pavement Surface Infiltration Rates. ASCE Journal of Irrigation and Drainage Engineering 133: no. 3: 249-255.
  • Beard, P.J. 1940. Longevity of Eberthalla Typhosus in Various Soils. American Journal of Public Health and Nations Health. 1077-82.
  • Betts, Lynn. 1999. Runoff of Soil & Fertilizer. In Wikipedia, edited by Wikimedia.
  • Birch, G. F., M.S. Fazeli, and C. Matthai. 2005. Efficiency of an Infiltration Basin in Removing Contaminants from Urban Stormwater. Environmental Monitoring & Assessment 101: nos. 1-3: 23-38.
  • Bitton, G., and C.P Gerba. 2004. Microbial Pollutants: Their Survival and Transport Pattern to Groundwater. Groundwater Pollution Microbiology.
  • Board of County Commissioners. 2004. Water Resources Management Ordinance. Carroll County, MD.
  • Bowers, Robert, Kevin Burlingham, and Joseph Sun. 2013. Sinkholes and Seepage: Embankment Repair at Hat Creek 1. Hydroworld.com. Last modified August 27, 2013.
  • Braga, Andrea; Horst, Michael; Traver, Michael. 2007. Temperature Effects on the Infiltration Rate through an Infiltration Basin BMP. Journal of Irrigation and Drainage Engineering. 133: no. 6: 598 605
  • Brattebo, B. O. and D. B. Booth. 2003. Long-term Stormwater Quantity and Quality Performance of Permeable Pavement Systems. Water Research 37: no. 18: 4369-4376.
  • Brown, R. A., and W. F. Hunt. 2001. Underdrain Configuration to Enhance Bioretention Exfiltration to Reduce Pollutant Loads. Journal of Environmental Engineering 137: no. 11: 1082-1091.
  • Browne, D., A. Deletic, G.M. Mudd, and T.D. Fletcher. 2011. Modeling the Development and Consequences of Clogging for Stormwater Infiltration Trenches. 12th International Conference on Urban Drainage, September 11, 2011, 1-16.
  • Browne, D., A. Deletic, G.M. Mudd, and T.D. Fletcher. 2011. A Comparison of the Hydrologic Effectiveness of a Range of Infiltration Basin Trench Systems in Melbourn with Sandy Loam and Sandy Clay Surrounding Soils with and Without Clogging. Photograph. 12th International Conference on Urban Drainage. September 11, 2011.

C

D

  • Dalgleish, Janet B., and E. Calvin Alexander, Jr.. 1984. Sinkholes and Sinkhole Probability. Map. Winona County, MN. University of Minnesota, MN USGS, and Winona County Board of Commissioners.
  • Davis, A. P., M. Shokouhian, H. Sharma, and C. Minami. 2001. Laboratory Study of Biological Retention for Urban Stormwater Management. Water Environmental Research. 5-14.
  • Davis, A. P., M. Shokouhian, H. Sharma, and C. Minami. 2006. Water Quality Improvement through Bioretention Media: Nitrogen and Phosphorous Removal. Water Environmental Research 78: no.3: 5-14.
  • Davis, A. P., M. Shokouhian, H. Sharma, C. Minami and D. Winogradoff. 2003. Water Quality Improvement through Bioretention: Lead, Copper, and Zinc Removal. Water Environmental Research. 73-82.
  • Dechesne, M., S. Barraud, and J.P Bardin. 2005. Experimental Assessment of Stormwater Infiltration Basin Evolution. Journal of Environmental Engineering 131: no. 7:1090-98.
  • Denich, Chris and Andrea Bradford. 2013. Estimation of Evapotranspiration from Bioretention Areas Using Weighing Lysimeters. Journal of Hydrologic Engineering 15: no. 6: 522-530.
  • Denton, Robert. 2008. The Characterization and Remediation of Sinkholes. [Powerpoint Slides]. Potomac Environmental Services.
  • Department of Agriculture and Consumer Sciences. Redoximorphic Features for Identifying Aquic Conditions. Technical report no. 301. Raleigh, NC: North Carolina State University, n.d.
  • Department of Environmental Protection, Bureau of Watershed Management. 2006. Chapter 6: Structural BMPs. In Pennsylvania Stormwater Best Management Practices Manual. N.p.: n.p.
  • Department of Planning/Environment and Resource Protection Program, Bureau of Resource Management. 2004a. Water Resource Management Manual: Carroll County, Maryland. May ed. Westminster, MD: Carroll County Government.
  • DiBlasi, C. J., H. Li, A. P. Davis, and U. Ghosh. 2009. Removal and Fate of Polycyclic Aromatic Hydrocarbon Pollutants in an Urban Stormwater Bioretention Facility. Environmental Science and Technology 43, no. 2 (2009): 494-502.
  • Domey, William R. 2002. Effect of Underlying Groundwater System on the Rate of Infiltration of Stormwater Infiltration Structures. Storm Water Infiltration & Groundwater Recharge A Conference on Reducing Runoff while Maintaining Water Quality, May 21, 2002. 1-9.
  • Drinking Water Protection Program. Maps and Geospatial Data: Source Water Protection. Minnesota Department of Health.

E

  • Emerson, C.H., & Traver, R.G. 2008. Multiyear and seasonal variation of infiltration from storm-water best management practices. Journal of Irrigation and Drainage Engineering, 135, no. 5: 593-601.
  • Environmental Science Institute. What is Karst? Caves: A Window into the Edwards Aquifer.
  • Erickson, A.J, J.S. Gulliver, and P.T. Weiss. 2012. Capturing Phosphates with Iron Enhanced Sand Filtration. Water Research 46:3032-42.
  • Erickson, Andrew J., Weiss, Peter T., Gulliver, John S. 2013. Optimizing Stormwater Treatment Practices, A Handbook of Assessment and Maintenance. Springer, New York.
  • Erosion Management Program. 2013. What You Should Know as a Ravine or Bluff Property Owner. Toronto and Region Conservation.

F

  • Fenwick, Ryan. 2012. Sustainable Water Management on Brownfield Sites. University of Louisville, Center for Environmental Policy and Management, October 2012, 1-12.
  • Fischer, D., E.G Charles, and A.L Baehr. 2003. Effects of Stormwater Infiltration on Quality of Groundwater Beneath Retention and Detention Basins. Journal of Environmental Engineering 129, no. 5:464-71.

G

  • Gao, Yongli, E. Calvin Alexander, Jr., and Robert G. Tipping. 2002. The develeopment of a Karst Feature database for Southeastern Minnesota. Journal of Cave and Karst Studies 64, no. 1: 51 57.
  • Ginn, T.R, B.D Wood, K.E Nelson, T.D Scheibe, E.M Murphy, and T.P Clement. 2002. Processes in Microbial Transport in the Natural Surbsurface. Advances in Water Resources 25: no. 8: 1017-42.
  • Green, Jeffery A., E. Calvin Alexander, Jr., William J. Marken, and Scott C. Alexander. 2002. Karst Hydrogeomorphic Units. Map. Mower County, MN: MN DNR, Divison of Waters and University of Minnesota, Department of Geology and Geophysics.
  • Gulliver, J.S., A.J. Erickson and P.T. Weiss, Eds.. 2010. Stormwater Treatment: Assessment and Maintenance. St. Anthony Falls Laboratory, University of Minnesota, Minneapolis, MN, 2009.
  • Gurdak J., and Qi L. Sharon. 2012. Vulnerability of Recently Recharged Groundwater in Principle Aquifers of the United States to Nitrate Contamination. Environmental Science and Technology 46: 6004-12.

H

  • Hantush, M.S. 1967. Growth and Decay of Groundwater Mounds in Response to Uniform Percolation. Water Resources Research 3, no. 1:227-234.
  • Haritash, A.K., and C.P. Kaushik. 2009. Biodegradation Aspects of Polycyclic Aromatic Hydrocarbons (PAHs): A Review. Journal of Hazardous Materials 169.
  • Hathaway, Jon M., E.I., and William F. Hunt. 2008. Urban Waterways: Removal of Pathogens in Stormwater. North Carolina Cooperative Extension, 1-10.
  • Hewes, Will. [https://aquiferalliance.org/Library/LibraryFiles/Resources/Using_Green_Infrastructure_in_Karst_Regions_American_Riv.pdf Using Green Infrastructure in Karst Regions. American Rivers. 1-5.
  • Hogland, W., M. Marques, and V. Karlaviciene. 2003. Stormwater Runoff from Industrial Areas and Pollution Transport. Proceedings from 1st International Conference on Urban Drainage and Highway Runoff in Cold Climate. Riksgansen, Sweden.
  • Hollander, Justin, Niall Kirkwood, and Julia Gold. 2010. Principles of Brownfield Regeration: Cleanup, Design, and Reuse of Derelict Land. Washington D.C.: Island Press.
  • Hong, E., E. A. Seagren, and A. P. Davis. 2006. Sustainable Oil and Grease Removal from Synthetic Stormwater Runoff Using Bench0Scale Bioretention Studies. Water Environment Research 78: no. 2: 141-155.
  • Hoogestraat, Galen. 2013. Runoff Flowing through Arrowhead Golf Course. Photograph. USGS South Dakota Water Science Center: Stormwater Monitoring in Rapid City. January 7, 2013.
  • Hossain, M.A., Furumai H, Nakajima F, and Aryal R.K. 2007. Heavy Metals Speciation in Soakaways Sediment and Evaluation of Metal Retention Properties of Surrounding Soil. Water Science & Technology 56, no. 11:81-89.
  • Hsieh, C.H. and A. P. Davis. 2005. Evaluation and Optimization of Bioretention Media for Treatment of Urban Storm Water Runoff. Journal of Environmental Engineering 131, no. 11:1521-1531.
  • Hunt, W. F., A. R. Jarrett, J. T. Smith and L. J. Sharkey. 2006. Evaluation Bioretention Hydrology and Nutrient Removal at three Field Sites in North Carolina. Journal of Irrigation Drainage Engineering 132, no. 6:600-608.

J

  • Jammal, S. E., J. W. Casper, A. M. Sallam, D. Fratta, A. J. Puppala, and B. Munhunthan. 2010. Development Mechanism and Remediation of Multiple Spontaneous Sinkholes: A Case History. Proceedings of GeoFlorida: Advances in Analysis, Modeling and Design. pp 681-688.

K

  • Kakuturu, S. and Clark, S. 2015. Effects of Deicing Salts on the Clogging of Stormwater Filter Media and on the Media Chemistry. J. Environ. Eng., 141(9), 04015020.
  • Karathanasis, A., T. Mueller, B. Boone, and Y. Thompson. 2006. Effect of Soil Depth and Texture on Fecal Bacteria Removal from Septic Effluents. Journal of Water and Health 4, no. 3: 395-404.
  • Karst Working Group. 2009. Stormwater Guidelines for Karst Terrain in the Chesapeake Bay Watershed Version 2.0. Technical report no. 1. N.p.: Chesapeake Stormwater Network.
  • Kibbey, H.J, D. Hagedorn, and E.L McCoy. 1987. Use of Fecal Streptococci as Indicators of Pollution in Soils. Applied and Environmental Microbiology 35, no. 4:711-17.
  • Komlos, J., and T. G. Traver. 2012. Long-term Orthophosphate Removal in a Field-scale Storm-water Bioinfiltration Rain Garden. Journal of Environmental Engineering 138, no. 10: 991-998.
  • Kroening, Sharon, and Mark Ferrey. 2013. The Condition of Minnesota's Groundwater, 2007-2011. Minnesota Pollution Control Agency. August 2013.

L

  • Laughland, John Charles. 2007. Stormwater Management Design in Karst Terrane: Adjusting Hydrology Models and Using Karstic Features. Facility Design Group. pp. 1-6.
  • Lawrence, S.J. 2006. Description, Properties, and Degradation of Selected Volatile Organic Compounds Detected in Ground Water – A Review of Selected Literature. Review. U.S. Geological Survey.
  • Lewis, W.J, S.S Foster, and B.S Drasar. 1980. International Reference Centre for Waste Disposal (IRCWD). Report no. 01/82. Duebendorf, Switzerland: International Reference Centre for Waste Disposal (IRCWD).
  • Li, H. and A. P. Davis. 2009. Water Quality Improvement through Reductions of Pollutant Loads Using Bioretention. Journal of Environmental Engineering 135, no. 8:567-576.
  • Li, L. and A. P. Davis. 2014. Urban Stormwater Runoff Nitrogen Composition and Fate in Bioretention Systems. Environmental Science and Technology 48, no. 6: 3403-3410.
  • Lin, C., Greenwald, D., & Banin, A. 2003. Temperature dependence of infiltration rate during large scale water recharge into soils. Soil Science Society of America Journal, 67, no. 2, 487-493.
  • Low Impact Development, Inc. 2007. Nitrogen Cycle in Soil. Image. Urban Design Tools.

M

  • Machusick, M.D. and R. G. Traver. 2009. The Observed Effects of Stormwater Infiltration on Groundwater. World Environmental and Water Resources Congress 2009: Great Rivers. pp 5343-5353.
  • Maimone M., D. E. O’Rourke, J. O. Knighton, and C.P. Thomas. 2011. Potential Impacts of Extensive Stormwater Infiltration in Philadelphia. Environmental Engineer Applied Research and Practice 14, Fall. pp. 1-12.
  • Maniquiz, Marla C., Lee So-Young, and Kim Lee-Hyung. 2010. Long-Term Monitoring of Infiltration Trench for Nonpoint Source Pollution Control. Water, Air & Soil Pollution 212, nos. 1-4:13-26.
  • Maniquiz-Redillas, M.C., F.K. Geronimo, and L.H. Kim. 2014. Investigation on the effectiveness of pretreatment in stormwater management technologies. J. Environ Sci (China). 26(9):1824-30
  • Marder, Jenny. 2011. Ice Salt Truck. Photograph. PBS NEWSHOUR: How Does Salt Battle Road Ice? January 18, 2011.
  • Margolis, Sara. 2012. Sustainable Stormwater Management on Redeveloped Brownfield Sites in New York City. [Powerpoint Slides]. Pratt Institute, Programs for Sustainable Planning and Development.
  • McFeters, G.A, and D.G Stuart. 1972. Survival of Coliform Bacteria in Natural Water: Field and Laboratory Studies with Membrane-Filter Chambers. Applied Microbiology 24, no. 5:805-11.
  • Mikkelsen, P.S, M. Hafliger, M. Ochs, Jacobsen, J.C Tjell, and M. Boller. 1997. Pollution of Soil and Groundwater from Infiltration of Highly Contaminated Stormwater – A Case Study. Water Science and Technology 36, nos. 8-9: 325-30.
  • Minnesota Department of Health. July 1, 2007. Flow Chart for Evaluating Proposed Stormwater Infiltration Projects in Areas with Vulnerable Groundwater. Drinking Water Protection Program. Illustration.
  • Minnesota Department of Health. 2015. Volatile Organic Compounds in Your Home. Minnesota Department of Health.
  • Minnesota Department of Natural Resources. 2015. Groundwater Contamination Susceptibility. Map. Minnesota Department of Natural Resources: Geomorphology.
  • Minnesota Department of Natural Resources. 2014. Groundwater Pollution Sensitivity. Minnesota Department of Natural Resources. Last modified 2014.
  • Minnesota Department of Natural Resources: Division of Lands and Minerals. Completed Aggregate Maps. Minnesota Department of Natural Resources.
  • Minnesota Stormwater Manual contributors, Karst, Minnesota Stormwater Manual. (accessed June 4, 2015).
  • MN USGS, Minnesota Geospatial Information Office. Bedrock Grid Data. GIS Data.
  • Minnesota Pollution Control Agency. 2013. Petroleum Brownfields and Voluntary Investigation and Cleanup Programs. In Brownfield Program Response Action Plans. July ed. N.p.: Minnesota Pollution Control Agency.
  • Minnesota Pollution Control Agency. Industrial Stormwater. Minnesota Pollution Control Agency: Stormwater. Last modified April 27, 2015.
  • Minnesota Pollution Control Agency. Leaks/Tanks Search. Minnesota Pollution Control Agency Superfund Program.
  • Minnesota Pollution Control Agency. 2013. RCRA Cleanup Site Search. Minnesota Pollution Control Agency Superfund Program. Last modified February 28, 2013.
  • Minnesota Pollution Control Agency. Superfund Program Site Search. Minnesota Pollution Control Agency Superfund Program. Last modified September 16, 2014.
  • Minnesota Pollution Control Agency. What’s in My Neighborhood. Minnesota Pollution Control Agency: WIMN. Last modified March 30, 2015.
  • Minnesota Pollution Control Agency. 2001. Effects of Land Use on Ground Water Quality, St. Cloud Area, Minnesota – Short Report.
  • Mohamed, M. A. Kachchu , T. Lucke and F. Boogaard. 2013. Preliminary investigation into the pollution reduction performance of swales used in a stormwater treatment train. Water Science & Technology. 69(5):1014-20

N

O

  • Olson, N.C., J.S. Gulliver, J.L. Nieber and M. Kayhanian. 2013. Remediation to Improve Infiltration into Compact Soils. Journal of Environmental Management. 117:85-95
  • OSWER. 2013. National Priorities List (NPL). U.S. EPA Superfund Sites. Last modified October 16.

P

  • Passeport, E., W. F. Hunt, D. E. Line, R. A. Smith, and R. A. Brown. 2009. Field Study of the Ability of Two Grassed Bioretention Cells to Reduce Storm-Water Runoff Pollution. Journal of Irrigation Drainage Engineering 135, no. 4:505-510.
  • Paus, K.H., J. Morgan, J.S. Gulliver, T. Leiknes and R.M. Hozalski. 2014. Assessment of the Hydraulic and Toxic Removal Capacities of Bioretention Cells after 2 to 8 Years of Service. Water, Soil and Air Pollution, 225 (1803).
  • Pitt, R and R. Field. 1999. Groundwater Contamination Potential from Stormwater Infiltration Practices. Urban Water, 1, no. 3: 217-236. 1994.
  • Pitt, R, S Clark, K Parmer, R Field, and T.P O'Connor. 1994. Potential Groundwater Contamination for International and Non-Intentional Stormwater Infiltration. U.S. EPA.
  • Pitt, R., S. Clark, and K. Parmer. 1994. Pollution Removal Process in the Subsurface. Photograph.
  • Pitt, R., S. Clark, and R. Field. 1999. Groundwater Contamination Potential from Stormwater Infiltration Practices. Urban Water 1, no. 3: 217-36.
  • Pitt, Robert, Alex Maestre, and Renee Morquecho. 2004. The National Stormwater Quality Database (NSQD, version 1.1). University of Alabama, Tuscaloosa, AL.
  • Pratt, C. J., A. P. Newman, and P. C. Bond. 1999. Mineral Oil Bio-Degredation within a Permeable Pavement: Long-term Observations.” Water Science and Technology 39, no. 2:103-109.
  • Prey, J., L. Chern, S. Holaday, C. Johnson, T. Donovan, and P. Mather. Nonpoint Source and Land Management Section. In The Wisconsin Stormwater Manual Part 1: Overview. N.p.: Wisconsin Department of Natural Resources Bureau of Water Resources Managment, n.d.

R

S

T

  • Tate, R.L. 1978. Cultural and Environmental Factors Affecting the Longevity of Escherichia coli in Water: A Current Perspective. Applied and Environmental Microbiology 35: no. 5: 925-29.
  • Tennessee Stormwater Management. 2015. Appendix B: Stormwater Design Guidelines for Karst Terrain. Management and Design Guidance Manual. The Tennessee Permanent Stormwater Management Training. Last modified March 2, 2015.
  • Tennessee Stormwater Management. 2015. Management and Design Guidance Manual. The Tennessee Permanent Stormwater Management Training. Last modified March 2, 2015.
  • The Federal Interagency Stream Restoration Working Group. "Figure 3.21: Relationship between impervious cover and surface runoff." Image. Stream Corridor Restoration: Principles, Processes, and Practices, August 2001, 3-23.
  • Thomas, Brian F., and Richard M. Vogel. 2012. Impact of Storm Water Recharge Practices on Boston Groundwater Elevations. Journal of Hydrologic Engineering 17, no. 8:923-932.
  • Thompson, Steve. 2015. Karst in Minnesota. Minnesota Pollution Control Agency. Last modified February 2, 2015.
  • Tipping, Robert G., Jeffery A. Green, and E. Calvin Alexander, Jr.. 2001 Karst Features. Map. Wabasha County, MN: University of Minnesota, MN USGS, Wabasha County Board of Commissioners and MN DNR, Division of Waters.

U

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W

Z

This page was last edited on 25 February 2023, at 02:46.