References
- Andral, M.C., Roger, S., Montréjaud-Vignoles, M., and Herremans, L., 1999. Particle size distribution of hydrodynamic characteristics of solids matter carried by runoff from motorways. Water Environment Research, 71 (4), 398–407.
- Anta, J., Peña, E., Suárez, J., and Cagiao, J., 2006. A BMP selection process based on the granulometry of runoff solids in a separate urban catchment. Water SA, 32 (3), 419–428.
- BurtonJr, G.A. and Pitt, R.E., 2002. Stormwater effects handbook—A toolbox for watershed managers, scientists, and engineers. Boca Raton, FL: Lewis Publishers.
- Degroot, G.P. and Gulliver, J.S., 2010. Improved automatic sampling for suspended solids. Minnesota: Minnesota Department of Transportation, MnDOT 2010-38.
- Dietrich, W.E., 1982. Settling velocity of natural particles. Water Resources Research, 18 (6), 1615–1626.
- Drapper, D., Tomlinson, R., and Williams, P., 2000. Pollutant concentrations in road runoff—Southeast Queensland case study. Journal of Environmental Engineering, 126 (4), 313–320.
- Driscoll, E.D., 1986. Detention and retention controls for urban stormwater. In: B.Urbonas and L.A.Roesner, eds. Urban runoff quality—Impact and quality enhancement technology, Proceedings of an Engineering Foundation Conference. 23–27 June 1986, Heinniker, NH. New York: American Society of Civil Engineers, 145–163.
- Dunn, O.J., 1964. Multiple comparisons using rank sums. Technometrics, 6 (3), 241–252.
- Edwards, T.K. and Glysson, G.D., 1998. Field methods for the measurement of fluvial sediment. US Geological Survey Techniques of Water-Resource Investigation: 03-C2, Reston, VA.
- Fowler, G.D., Roseen, R.M., Ballestero, T.P., Guo, Q., and Houle, J., 2009. Sediment monitoring bias by autosampler in comparison with whole volume sampling for parking lot runoff. Proceedings of the World Environmental and Water Resources Congress 2009, 17–21 May 2009, Great Rivers, Kansas City, MO. London: IWA Publishing, 1514–1522.
- Furumai, H., Balmer, H., and Boller, M., 2002. Dynamic behavior of suspended pollutants and particle size distribution in highway runoff. Water Science and Technology, 46 (11), 413–418.
- Gettel, M., Gulliver, J.S., Kayhanian, M., DeGroot, G., Brand, J., Mohseni, O., and Erickson, A., 2011. Improving Suspended Sediment Measurements by Automatic Samplers. Journal of Environmental Monitoring, 13, 2703–2709.
- Helsel, D.R. and Hirsch, R.M., 1992. Statistical methods in water resources. Available from: http://pubs.usgs.gov/twri/twri4a3/ [Accessed 28 December 2011].
- Kim, J. and Sansalone, J., 2008. Event-based size distributions of particulate matter transported during rainfall-runoff events. Water Research, 42 (10–11), 2756–2768.
- Li, Y., Lau, S.-L., Kayhanian, M., and Stenstrom, M.K., 2006. Dynamic characteristics of particle size distribution in highway runoff—Implications for settling tank design. Journal of Environmental Engineering, 132 (8), 852–861.
- Sansalone, J.J., Koran, J.M., Smithson, J.A., and Buchberger, S.G., 1998. Physical characteristics of urban roadway solids transported during rain events. Journal of Environmental Engineering, 124 (5), 427–440.
- Sansalone, J.J. and Kim, J., 2008. Transport of particulate matter fractions in urban source area pavement runoff. Journal of Environmental Quality, 37, 1883–1893.
- Selbig, W.R. and Bannerman, R.T., 2007. Evaluation of street sweeping as a stormwater-quality management tool in three residential basins in Madison, Wisconsin. US Geological Survey Scientific Investigations Report 2007-5156, Reston, VA.
- Selbig, W.R. and Bannerman, R.T., 2011a. Development of a depth-integrated sample arm (DISA) to reduce solids stratification bias in stormwater sampling. Water Environment Research, 83 (4), 347–357.
- Selbig, W.R. and Bannerman, R.T., 2011b. Characterizing the distribution of particles in urban stormwater using fixed-point sample collection methods. US Geological Survey Open-File Report 2011-1052.
- Selbig, W.R. and Fienen, M.F., 2012. Regression modeling of particle size distributions in urban storm water: advancements through improved sample collection methods. Journal of Environmental Engineering, 138 (12), 1186–1193.
- Selbig, W.R., Cox, A., and Bannerman, R.T., 2012. Verification of a depth-integrated sample arm as a means to reduce solids stratification bias in urban stormwater sampling. Journal of Environmental Monitoring, 14 (4), 1137–1143.
- Smith, K.P., 2002. Effectiveness of three best management practices for highway-runoff quality along the Southeast Expressway, Boston, Massachusetts. US Geological Survey Water-Resources Investigations Report 02–4059, Reston, VA.
- USEPA, 1982. Results of the nationwide urban runoff program: Volume II, Appendices [variously paginated]. US Environmental Protection Agency. Available from: http://www.ntis.gov/asNTISReportPB84–185560, Alexandria, VA.
- Westerlund, C. and Viklander, M., 2006. Particles and associated metals in road runoff during snowmelt and rainfall. Science of the Total Environment, 362 (1–3), 143–156.