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Environmental Management
Published in: Environmental Management 2/2011

01-02-2011

Stormwater Runoff Characterized by GIS Determined Source Areas and Runoff Volumes

Authors: Yang Liu, Puripus Soonthornnonda, Jin Li, Erik R. Christensen

Published in: Environmental Management | Issue 2/2011

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Abstract

Runoff coefficients are usually considered in isolation for each drainage area with resulting large uncertainties in the areas and coefficients. Accurate areas and coefficients are obtained here by optimizing runoff coefficients for characteristic Geographic Information Systems (GIS) subareas within each drainage area so that the resulting runoff coefficients of each drainage area are consistent with those obtained from runoff and rainfall volumes. Lack of fit can indicate that the ArcGIS information is inaccurate or more likely, that the drainage area needs adjustment. Results for 18 drainage areas in Milwaukee, WI for 2000–2004 indicate runoff coefficients ranging from 0.123 for a mostly residential area to 0.679 for a freeway-related land, with a standard error of 0.047. Optimized runoff coefficients are necessary input parameters for monitoring, and for the analysis and design of in situ stormwater unit operations and processes for the control of both urban runoff quantity and quality.
previous article Fishing Effort and Catch Composition of Urban Market and Rural Villages in Brazilian Amazon
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Appendix
Available only for authorised users
Literature
Adams BJ, Papa F (2000) Urban stormwater management planning with analytical probabilistic models. Wiley, New York, p 376
Alley WM (1981) Estimation of impervious-area washoff parameters. Water Resources Research 17(4):1161–1166CrossRef
Boyd MJ, Bufill MC, Knee RM (1993) Pervious and impervious runoff in urban catchments. Hydrological Sciences Journal—Journal Des Sciences Hydrologiques 38:463–478CrossRef
Boyd MJ, Bufill MC, Knee RM (1994) Predicting pervious and impervious storm runoff from urban drainage basins. Hydrological Sciences Journal—Journal Des Sciences Hydrologiques 39:321–332CrossRef
Brezonik PL, Stadelmann TH (2002) Analysis and predictive models of stormwater runoff volumes, loads, and pollutant concentrations from watersheds in the Twin Cities metropolitan area, Minnesota, USA. Water Research 36:1743–1757CrossRef
Bronstert A, Niehoff D, Burger G (2002) Effects of climate and land-use change on storm runoff generation: present knowledge and modelling capabilities. Hydrological Processes 16:509–529CrossRef
Cristina CM, Sansalone JJ (2003) Kinematic wave model of urban pavement rainfall-runoff subject to traffic loadings. Journal of Environmental Engineering 129:629–636CrossRef
Dewan AM, Islam MM, Kumamoto T, Nishigaki M (2007) Evaluating flood hazard for land-use planning in Greater Dhaka of Bangladesh using remote sensing and GIS techniques. Water Resources Management 21:1601–1612CrossRef
Eriksson E, Baun A, Scholes L, Ledin A, Ahlman S, Revitt M, Noutsopoulos C, Mikkelsen PS (2007) Selected stormwater priority pollutants—a European perspective. Science of the Total Environment 383:41–51CrossRef
Hipp JA, Ogunseitan O, Lejano R, Smith CS (2006) Optimization of stormwater filtration at the urban/watershed interface. Environmental Science & Technology 40:4794–4801CrossRef
Kayhanian M, Suverkropp C, Ruby A, Tsay K (2007) Characterization and prediction of highway runoff constituent event mean concentration. Journal of Environmental Management 85:279–295CrossRef
Kim LH, Kayhanian M, Zoh KD, Stenstrom MK (2005) Modeling of highway stormwater runoff. Science of the Total Environment 348:1–18CrossRef
Lee JG, Heaney JP (2003) Estimation of urban imperviousness and its impacts on storm water systems. Journal of Water Resources Planning and Management 129:419–426CrossRef
Lee H, Swamikannu X, Radulescu D, Kim SJ, Stenstrom MK (2007) Design of stormwater monitoring programs. Water Research 41:4186–4196CrossRef
McCuen RH (1981) Relation between curve number and runoff coefficient. Journal of the Irrigation and Drainage Division 107:395–400
McCuen RH (1998) Hydrologic analysis and design, 2nd edn. Pearson Prentice Hall, New Jersey
McCuen RH (2004) Hydrologic analysis and design, 3rd edn. Pearson, Prentice Hall, p 888
Niehoff D, Fritsch U, Bronstert A (2002) Land-use impacts on storm-runoff generation: scenarios of land-use change and simulation of hydrological response in a meso-scale catchment in SW-Germany. Journal of Hydrology 267:80–93CrossRef
Park MH, Stenstrom MK (2006) Spatial estimates of stormwater-pollutant loading using Bayesian networks and geographic information systems. Water Environment Research 78:421–429CrossRef
Sartor JD, Boyd GB, Agardy FJ (1974) Water pollution aspects of street surface contaminations. Journal of Water Pollution Control Federation 46(3):458–467
Sen Z, Altunkaynak A (2006) A comparative fuzzy logic approach to runoff coefficient and runoff estimation. Hydrological Processes 20:1993–2009CrossRef
Seth I, Soonthornnonda P, Christensen ER (2006) Use of GIS in urban storm-water modeling. Journal of Environmental Engineering 132:1550–1552CrossRef
Soonthornnonda P (2007) Stormwater quality characterization, modeling, and management for the greater Milwaukee area, Wisconsin. Ph.D. Dissertation, University of Wisconsin-Milwaukee, Milwaukee
Soonthornnonda P, Christensen ER (2008) A load model based on antecedent dry periods for pollutants in stormwater. Water Environment Research 80(2):162–171CrossRef
Southeastern Wisconsin Regional Planning Commission (SEWRPC) (2000) GIS landuse inventory. Waukesha, WI
U.S. Geological Survey (2004) Water-resources-related information for the Milwaukee metropolitan sewerage district planning area, Wisconsin, 1970–2002. Water-Resources Investigation Report 03-4240, USGS, Reston, Virginia
Weng QH (2001) Modeling urban growth effects on surface runoff with the integration of remote sensing and GIS. Environmental Management 28:737–748CrossRef
Wong TSW (2002) Call for awakenings in storm drainage design. Journal of Hydrologic Engineering 7:1–2CrossRef
Metadata
Title
Stormwater Runoff Characterized by GIS Determined Source Areas and Runoff Volumes
Authors
Yang Liu
Puripus Soonthornnonda
Jin Li
Erik R. Christensen
Publication date
01-02-2011
Publisher
Springer-Verlag
Published in
Environmental Management / Issue 2/2011
Print ISSN: 0364-152X
Electronic ISSN: 1432-1009
DOI
https://doi.org/10.1007/s00267-010-9591-2

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