In this paper we present and apply a modeling methodology to reduce stormwater runoff through land-use planning, in order to mitigate the impact of nonpoint source pollution. A stormwater-runoff simulation model is used to generate peak discharge pseudodata, that are inputted into a regression analysis, in which the functional relationship between peak discharge and land-use variables is approximated as a quadratic function (R2 = 0.98). This function is then used in an optimization model to allocate future land uses (urban, conservation, and agriculture) at the subwatershed level, in a way that minimizes the resulting peak discharge at the watershed outlet. A discharge reduction of 44% is achieved, compared with the discharge resulting from the present (actual) land-use pattern. The most downstream and upstream areas are to be protected with more conservation, and most urban activities are allocated to the minimal impact subwatershed. Sensitivity analyses are performed and suggest maintaining at least 25% of the land in a conservation state, developing no more than 12% for urban purposes, and no more than 70% for agricultural purposes.
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References
1.
ASCE, 1999GIS Modules and Distributed Models of Watersheds (American Society of Civil Engineers, Preston, VA)
2.
AspinallRPearsonD, 2000, “Integrated geographical assessment of environmental condition in water catchments: Linking landscape ecology, environmental modeling and GIS”Journal of Environmental Management59299–319
3.
BeighleyR EMoglenG E, 2003, “Adjusting measured peak discharges from an urbanizing watershed to reflect a stationary land use signal”Water Resources Research391846–1856
BrownD GPijanowskiB CDuhJ D, 2000, “Modeling the relationships between land use and land cover on private lands in the Upper Midwest, USA”Journal of Environmental Management59247–263
DasPHaimesY Y, 1979, “Multiobjective optimization in water quality and land management”Water Resources Research151313–1322
8.
GordonS IMajumderS, 2000, “Empirical stressor-response relationships for prospective risk analysis”Environmental Toxicology and Chemistry191106–1112
9.
HaithD A, 1982Environmental Systems Optimization (John Wiley, New York)
10.
HundechaYBárdossyA, 2004, “Modeling of the effect of land use changes on the runoff generation of a river basin through parameter regionalization of a watershed model”Journal of Hydrology292281–295
11.
HunsackerC TLevineD A, 1995, “Hierarchical approaches to the study of water quality in rivers”Bioscience45193–204
12.
IrwinEReeceJ, 2002Urbanization Trends in Ohio: Tracking Ohio's Urban Growth and Land Use ChangeOhio Agricultural Research and Development Center, The Ohio State University, Columbus
13.
JohnsonG DMeyersW LPatilG P, 2001, “Predictability of surface water pollution loading in Pennsylvania using watershed-based landscape measurements”Journal of American Water Resources Association37821–835
14.
JolánkaiGPanuskaJRastW, 1999, “Modelling of nonpoint source pollutant load”, in Assessment and Control of Nonpoint Source Pollution of Aquatic Ecosystems: A Practical Approach Eds ThorntonJ ARastWHollandM MJolánkaiGRydingS-O (UNESCO, Paris) pp 291–338
15.
JordanT ECorrellD LWellerD E, 1997, “Relating nutrient discharges from watersheds to land use and stream variability”Water Resources Research332579–2590
16.
KaiinLGovindarajuR SHantushM M, 2004, “Development and application of a methodology for sediment source identification 2: Optimization approach”Journal of Hydrologic Engineering9194–207
17.
KaurRSrivastavaRBetneKMishraKDuttaD, 2004, “Integration of linear programming and a watershed-scale hydrologic model for proposing an optimized landuse plan and assessing its impact on soil conservation-a case study of the Nagwan watershed in the Hazaribagh district of Jharkhand, India”International Journal of Geographic Information Science1873–98
18.
KepnerW GSemmensD JBassettS DMouatD AGoodrichD C, 2004, “Scenario analysis for the San Pedro river, analyzing hydrological consequences of a future environment”Environmental Monitoring and Assessment94115–127
19.
LantCLoftusTKraftSBennettD, 2001, “Land-use dynamics in a Southern Illinois (USA) watershed”Environmental Management28325–340
20.
McCuenR H, 1982A Guide to Hydrologic Analysis Using SCS Methods (Prentice-Hall, Englewood Cliffs, NJ)
21.
MaidmentD R, 1993, “Developing a spatially distributed unit hydrograph by using GIS”, in Application of Geographic Information Systems in Hydrology and Water Resources Management Eds KovarKNachtnebelH P, International Association of Hydrological Sciences, 1292 Chambésy, Geneva, http://www.cig.ensmp.fr/∼iahs/redbooks/b211/211020.pdf
22.
MillwardA AMerseyJ E, 2001, “Conservation strategies for effective land management of protected areas using an erosion prediction information system (EPIS)”Journal of Environmental Management61(4) 329–343
23.
MontgomeryD RDietrichW E, 1989, “Source areas, drainage density, and channel initiation”Water Resources Research251907–1918
24.
MuletaM KNicklowJ W, 2002, “Evolutionary algorithms for multiobjective evaluation of watershed management decisions”Journal of Hydroinformatics483–97
25.
NicklowJ WMuletaM K, 2001, “Watershed management technique to control sediment yield in agriculturally dominated areas”Water International26435–443
26.
NovotnyVChestersG, 1982Handbook of Nonpoint Pollution: Sources and Management (Van Nostrand Reinhold, New York)
27.
ODNR, 2001Geographic Information Management SystemsOhio Department of Natural Resources, Columbus, OH, http://www.ohiodnr.com/gims
28.
OliveraF, 1996Spatially Distributed Modeling of Storm Runoff and Non-point Source Pollution Using Geographic Information Systems PhD thesis, University of Texas, Austin
29.
OppenheimN, 1980Applied Models in Urban and Regional Analysis (Prentice-Hall, Englewood Cliffs, NJ)
30.
RothN EAllanJ DEricksonD L, 1996, “Landscape influences on stream biotic integrity assessed at multiple spatial scales”Landscape Ecology11141–156
SrivastavaPHamlettJ MRobillardP DDayR L, 2002, “Watershed optimization of best management practices using AnnAGNPS and a genetic algorithm”Water Resources Research38365–378
33.
TahaH A, 1971Operations Research: An Introduction (Macmillan, London)
34.
USDA, 1986Urban Hydrology for Small Watersheds TR55, United States Department of Agriculture, Washington, DC
35.
YeoIGordonS IGuldmannJ M, 2004, “Optimizing patterns of land use to reduce peak runoff flow and nonpoint source pollution with an integrated hydrological and land use model”Earth Interactions81–20
36.
YoungC HJarvisP J, 2001, “A simple method for predicting the consequences of land management in urban habitat”Environmental Management28375–387
