• Title of article

    Development and testing of a terrain-based hydrologic model for spatial Hortonian Infiltration and Runoff/On

  • Author/Authors

    H. Meng a، نويسنده , , 1، نويسنده , , T.R. Green، نويسنده , , *، نويسنده , , J.D. Salas a، نويسنده , , L.R. Ahuja، نويسنده ,

  • Issue Information
    ماهنامه با شماره پیاپی سال 2008
  • Pages
    19
  • From page
    794
  • To page
    812
  • Abstract
    Efficient numerical simulation of process interactions between infiltration and Hortonian runoff is needed to evaluate patterns of internal state variables and fluxes within a watershed. A fully distributed rainfallerunoff model was developed for event-based studies of spaceetime watershed processes. A routing hierarchy was defined over the watershed using the D-infinity contributing area algorithm. Computation of ponding time was included to handle variable run-on and rainfall intensity. The GreeneAmpt model was adopted to calculate surface infiltration, and the kinematic wave model was used to route Hortonian runoff and channel flow. The model can handle input rainfall, soil parameters, and other properties that vary in space and time. The model was tested first against analytical solutions for idealized overland planes. After a sensitivity analysis to identify the most significant parameters, it was then calibrated and verified using rainfall and streamflow data from the USDA-ARS Walnut Gulch experimental watershed in Arizona, USA. The coefficients of efficiency for runoff volume, peak flow, and time to peak flow with respect to calibration/validation are 0.95/0.65, 0.85/0.09, and 0.69/0.88, respectively. Example applications of the model show its potential for simulating internal states and fluxes. The open-source model is provided for spaceetime simulation and scaling of event-based Hortonian runoff and infiltration.
  • Keywords
    model development , calibration , Hortonian runoff , Infiltration , Model testing
  • Journal title
    Environmental Modelling and Software
  • Serial Year
    2008
  • Journal title
    Environmental Modelling and Software
  • Record number

    958878