The effects of urbanization on soil structure can be extensive.Infiltration of rain water through soils can be greatly reduced, plus the benefits of infiltration and biofiltration devices can be jeopardized.This chapter is a compilation of results from several recent and on-going research projects that have examined some of these problems, plus possible solutions.Basic infiltration measurements in disturbed urban soils were conducted during the EPA-sponsored project by Pitt, et al. (1999a).The project also examined hydraulic and water quality benefits of amending these soils with organic composts.Prior EPA-funded research examined the potential of groundwater contamination by infiltrating stonmvater (Pitt, et al. 1994(Pitt, et al. , 1996(Pitt, et al. , and 1999b ) ).In addition to the information obtained during these research projects, numerous student projects have also been conduced to examine other aspects of urban soils, especially more detailed tests examining soil density and infiltration during lab-scale tests, and methods and techniques to recover infiltration capacity of urban soils.This chapter is a summary of this information and it is hoped that it will prove useful to both stonnwater practice designers and to modelers.
Ellen Banzhaf, Sally Anderson, Gwendoline Grandin, Richard Hardiman, Anne Jensen, Laurence Jones, Julius Knopp, Gregor Levin, Duncan Russel, Wanben Wu, Jun Yang, Marianne Zandersen
Roy P. Remme, Howard Frumkin, Anne D. Guerry, Abby C. King, Lisa Mandle, Chethan Sarabu, Gregory N. Bratman, Billie Giles‐Corti, Perrine Hamel, Baolong Han, Jennifer L. Hicks, Peter James, Joshua J. Lawler, Therese Lindahl, Hongxiao Liu, Yi Lü, Bram Oosterbroek, Bibek Paudel, James Sallis, Jasper Schipperijn, Rok Sosič, S. de Vries, Benedict W. Wheeler, Spencer A. Wood, ,
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