Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/mechanistic-simulation-of-tree-effects-in-an-urban-water-balance-model-d583XIG4sa
References (71)
-
A. Brede, J. Duich (1984)
Initial Mowing of Kentucky Bluegrass-Perennial Ryegrass Seedling Turf Mixtures 1Agronomy Journal, 76
-
Environmental Protection Agency), 1999. Storm Water Technology Fact Sheet: Bioretention. EPA-832-F-99-012 -
A. Dijk, L. Bruijnzeel (2001)
Modelling rainfall interception by vegetation of variable density using an adapted analytical model. Part 1. Model description.Journal of Hydrology, 247
-
I. Iorgulescu, A. Musy (1997)
Generalization of TOPMODEL for a power law transmissivity profileHydrological Processes, 11
-
I. Calder (1986)
A stochastic model of rainfall interceptionJournal of Hydrology, 89
-
D. Watson (1947)
Comparative Physiological Studies on the Growth of Field Crops: I. Variation in Net Assimilation Rate and Leaf Area between Species and Varieties, and within and between YearsAnnals of Botany, 11
-
(2001)
PEST Surface Water Utilities User's Manual -
Limin Yang, Chengquan Huang, C. Homer, B. Wylie, M. Coan (2003)
An approach for mapping large-area impervious surfaces: synergistic use of Landsat-7 ETM+ and high spatial resolution imageryCanadian Journal of Remote Sensing, 29
-
J. Gash, C. Lloyd, G. Lachaud (1995)
Estimating sparse forest rainfall interception with an analytical modelJournal of Hydrology, 170
-
(2000)
Urban Drainage. E & FN Spon -
C. Tobon-Marin (1999)
Monitoring and modelling hydrological fluxes in support of nutrient cycling studies in Amazonian rain forest ecosystems -
F. Chiew, T. McMahon (1994)
Application of the daily rainfall-runoff model MODHYDROLOG to 28 Australian catchmentsJournal of Hydrology, 153
-
G. Hamilton, D. Waddington (1999)
Infiltration rates on residential lawns in central PennsylvaniaJournal of Soil and Water Conservation, 54
-
A. Rutter, A. Morton, P. Robins (1975)
A Predictive Model of Rainfall Interception in Forests. II. Generalization of the Model and Comparison with Observations in Some Coniferous and Hardwood StandsJournal of Applied Ecology, 12
-
Gash Gash, Lloyd Lloyd, Lachaud Lachaud (1995)
Estimating Sparse Rainfall Interception With an Analytical ModeJournal of Hydrology, 170
-
(1998)
Water Environment Federation and American Society of Civil Engineers -
F. Valente, J. David, J. Gash (1997)
Modelling interception loss for two sparse eucalypt and pine forests in central Portugal using reformulated Rutter and Gash analytical modelsJournal of Hydrology, 190
-
Ben Urbona (1998)
Urban Runoff Quality Management -
M. Kirkby, K. Beven (1979)
A physically based, variable contributing area model of basin hydrology, 24
-
I. Jackson (1975)
RELATIONSHIPS BETWEEN RAINFALL PARAMETERS AND INTERCEPTION BY TROPICAL FORESTJournal of Hydrology, 24
-
Shuguang Liu (1998)
Estimation of rainfall storage capacity in the canopies of cypress wetlands and slash pine uplands in North-Central FloridaJournal of Hydrology, 207
-
J. Gash, A. Morton (1978)
An application of the Rutter model to the estimation of the interception loss from Thetford ForestJournal of Hydrology, 38
-
Chengquan Huang, Limin Yang, B. Wylie, C. Homer (2001)
A STRATEGY FOR ESTIMATING TREE CANOPY DENSITY USING LANDSAT 7 ETM+ AND HIGH RESOLUTION IMAGES OVER LARGE AREAS -
(1992)
Storm Water Management Model, Version 4, User's Manual -
D. Loustau, P. Berbigier, A. Granier (1992)
Interception loss, throughfall and stemflow in a maritime pine stand. II. An application of Gash's analytical model of interceptionJournal of Hydrology, 138
-
R. Pitt, Shen-En Chen, S. Clark, J. Lantrip, C. Ong, J. Voorhees (2003)
Infiltration Through Compacted Urban Soils and Effects on Biofiltration DesignThe Journal of Water Management Modeling
-
J. Pitman (1989)
Rainfall interception by bracken in open habitats — Relations between leaf area, canopy storage and drainage rateJournal of Hydrology, 105
-
(1975)
Urban Hydrology for Small Watersheds -
J. Arnold, R. Srinivasan, R. Muttiah, John Williams (1998)
LARGE AREA HYDROLOGIC MODELING AND ASSESSMENT PART I: MODEL DEVELOPMENT 1JAWRA Journal of the American Water Resources Association, 34
-
T. Endreny (2006)
Land Use and Land Cover Effects on Runoff Processes: Urban and Suburban Development -
J. Deardorff (1978)
Efficient prediction of ground surface temperature and moisture, with inclusion of a layer of vegetationJournal of Geophysical Research, 83
-
E. Eltahir, R. Bras (1993)
A Description of Rainfall Interception over Large Areas.Journal of Climate, 6
-
A. Riley (1998)
Restoring streams in cities : a guide for planners, policy makers, and citizens -
W. Ye, B. Bates, N. Viney, M. Sivapalan, A. Jakeman (1997)
Performance of conceptual rainfall‐runoff models in low‐yielding ephemeral catchmentsWater Resources Research, 33
-
D. Watson, M. Watson (1953)
Comparative physiological studies on the growth of field crops. III. The effect of infection with beet yellows and beet mosaic viruses on the growth and yield of the sugar-beet root cropAnnals of Applied Biology, 40
-
(2001)
Water Quality: Better Data and Evaluation of Urban Runoff Programs Needed to Assess Effectiveness -
K. Beven (1984)
Infiltration into a class of vertically non-uniform soilsHydrological Sciences Journal-journal Des Sciences Hydrologiques, 29
-
(1994)
Fundamentals of Urban Runoff Management: Technical and Institutional Issues -
(1993)
Hydrological Simulation Program -Fortran (HSPF): User's Manual. Release -
V. Jetten (1996)
Interception of tropical rain forest : performance of a canopy water balance modelHydrological Processes, 10
-
Pitt Pitt, Chen Chen, Clark Clark, Lantrip Lantrip, Ong Ong, Voorhees Voorhees (2003)
Infiltration Through Compacted Urban Soils and Effects on Biofiltration DesignPractical Modeling of Urban Water Systems, 11
-
Beven (1995)
TOPMODEL -
L. James (1965)
Using a digital computer to estimate the effects of urban development on flood peaksWater Resources Research, 1
-
(1984)
Modeling Evatranspiration for Three-Dimensional Global Climate Models. Climate Processes and Climate Sensitivity -
M. Koller, S. Upadhyaya (2005)
PREDICTION OF PROCESSING TOMATO YIELD USING A CROP GROWTH MODEL AND REMOTELY SENSED AERIAL IMAGESTransactions of the ASABE, 48
-
B. Ambroise, K. Beven, J. Freer (1996)
Toward a generalization of the TOPMODEL concepts:Topographic indices of hydrological similarityWater Resources Research, 32
-
Jun Wang, T. Endreny, J. Hassett (2006)
Power function decay of hydraulic conductivity for a TOPMODEL‐based infiltration routineHydrological Processes, 20
-
D. Chin (1999)
Water-Resources Engineering -
(2001)
PEST-ASP User's Manual -
J. Noilhan, S. Planton (1989)
A Simple Parameterization of Land Surface Processes for Meteorological ModelsMonthly Weather Review, 117
-
(1975)
Radiative Transfer in Plant Communities -
D. Nowak, R. Hoehn, D. Crane, J. Stevens, Jeffrey Walton (2006)
Assessing urban forest effects and values, Minneapolis' urban forest, 166
-
Jun Wang, J. Hassett, T. Endreny (2005)
An object oriented approach to the description and simulation of watershed scale hydrologic processesComput. Geosci., 31
-
Jun Wang, T. Endreny, J. Hassett (2005)
A flexible modeling package for topographically based watershed hydrologyJournal of Hydrology, 314
-
D. Nowak, D. Crane, J. Stevens, M. Ibarra (2002)
Brooklyn's urban forest, 290
-
Van Dijk Van Dijk, Bruijnzeel Bruijnzeel (2001)
Modeling Rainfall Interception by Vegetation of Variable Density Using an Adapted Analytical Model. Part 1Journal of Hydrology, 247
-
A. Rutter, K. Kershaw, P. Robins, A. Morton (1971)
A predictive model of rainfall interception in forests, 1. Derivation of the model from observations in a plantation of Corsican pineAgricultural Meteorology, 9
-
R. Hutjes, A. Wierda, A. Veen (1990)
Rainfall interception in the Tai Forest, Ivory Coast: Application of two simulation models to a humid tropical systemJournal of Hydrology, 114
-
Watson Watson (1947)
Comparative Physiological Studies on the Growth of Field CropsAnnals of Botany, 11
-
H. Heemst (1988)
Plant data values required for simple crop growth simulation models : review and bibliography -
J. Chamie (2004)
World Urbanization Prospects: The 2003 Revision -
(2000)
Storm Water Phase II Final Rule -
A. Aston (1979)
Rainfall interception by eight small treesJournal of Hydrology, 42
-
Dickinson Dickinson (1984)
Modeling Evatranspiration for Three‐Dimensional Global Climate ModelsClimate Processes and Climate Sensitivity, Geophysical Monograph Series, 29
-
(1941)
EvaporationScience
-
(1995)
Computer Models of Watershed Hydrology, V.P. Singh (Editor). Water Resources Publications -
R. Whittaker, G. Woodwell (1967)
SURFACE AREA RELATIONS OF WOODY PLANTS AND FOREST COMMUNITIESAmerican Journal of Botany, 54
-
J. Nash, J. Sutcliffe (1970)
River flow forecasting through conceptual models part I — A discussion of principles☆Journal of Hydrology, 10
-
D. Nowak, Jeffrey Walton (2005)
Projected Urban Growth (2000 - 2050) and Its Estimated Impact on the US Forest ResourceJournal of Forestry, 103
-
C. Valeo, S. Moin (2000)
Variable source area modelling in urbanizing watershedsJournal of Hydrology, 228
-
J. Omernik, R. Bailey (2004)
JOURNAL OF THE AMERICAN WATER RESOURCES ASSOCIATION
- Publisher
- Wiley
- Copyright
- Copyright © 2008 Wiley Subscription Services, Inc., A Wiley Company
- ISSN
- 1093-474X
- eISSN
- 1752-1688
- DOI
- 10.1111/j.1752-1688.2007.00139.x
- Publisher site
- See Article on Publisher Site
Abstract
Abstract: A semidistributed, physical‐based Urban Forest Effects – Hydrology (UFORE‐Hydro) model was created to simulate and study tree effects on urban hydrology and guide management of urban runoff at the catchment scale. The model simulates hydrological processes of precipitation, interception, evaporation, infiltration, and runoff using data inputs of weather, elevation, and land cover along with nine channel, soil, and vegetation parameters. Weather data are pre‐processed by UFORE using Penman‐Monteith equations to provide potential evaporation terms for open water and vegetation. Canopy interception algorithms modified established routines to better account for variable density urban trees, short vegetation, and seasonal growth phenology. Actual evaporation algorithms allocate potential energy between leaf surface storage and transpiration from soil storage. Infiltration algorithms use a variable rain rate Green‐Ampt formulation and handle both infiltration excess and saturation excess ponding and runoff. Stream discharge is the sum of surface runoff and TOPMODEL‐based subsurface flow equations. Automated calibration routines that use observed discharge has been coupled to the model. Once calibrated, the model can examine how alternative tree management schemes impact urban runoff. UFORE‐Hydro model testing in the urban Dead Run catchment of Baltimore, Maryland, illustrated how trees significantly reduce runoff for low intensity and short duration precipitation events.
Journal
Journal of the American Water Resources Association – Wiley
Published: Feb 1, 2008