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*Water Environment Federation. 2012. ''Design of urban stormwater controls'' (2nd ed.). New York: McGraw-Hill Professional.
 
*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. 2012. [http://www.bmpdatabase.org/  Statistical Addendum: TSS, Bacteria, Nutrients, and Metals]. International Stormwater BMP Database. Last modified 2012.
 
*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.
*Weiss, P.T, G. LeFevre, and J.S Gulliver. 2008. [http://www.pca.state.mn.us/index.php/view-document.html?gid=7732 Contamination of Soil and Groundwater Due to Stormwater Infiltration Practices: A Literature Review]. University of Minnesota Stormwater Assessment Project.
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*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.
 
*Western Michigan University. [https://wmich.edu/ehs/services/environmental/water-resources Storm Water]. Environmental Safety.  
 
*Western Michigan University. [https://wmich.edu/ehs/services/environmental/water-resources Storm Water]. Environmental Safety.  
 
*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.
 
*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.

Revision as of 02:24, 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

V

W

Z