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A. Krumbach, D. White (1964)
MOISTURE, PORE SPACE, AND BULK DENSITY CHANGES IN FROZEN SOILSoil Science Society of America Journal, 28
J. Kiesler, F. Quinones-Marquez, D. Mull, K. York (1983)
Hydrology of area 13, eastern coal province, Kentucky, Virginia, and West Virginia
P. Sloan, I. Moore (1984)
Modeling subsurface stormflow on steeply sloping forested watershedsWater Resources Research, 20
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Modeling Surface and Subsurface Stormflow on Steeply-Sloping Forested Watersheds
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With the objective of simulating storm hydrographs in steeply sloping forested watersheds in humid regions, the kinematic storage model of S1oan and Moore (1984) was embedded into an existing watershed model (HEC 1) and applied to a set of selected watersheds in West Virginia and eastern Kentucky. Because of the marginal performance of the model, a more comprehensive model structure was developed which explicitly considers both macropore and micropore flow mechanisms. Application of the new model to the selected watersheds produced much better correlations between the observed and predicted watershed responses such as the runoff volume, the peak discharge, and the time to peak. Calibrated model parameters were found to exhibit a strong seasonal dependency. As a result, it was concluded that the underlying response mechanisms are highly influenced by seasonal changes in both the surface and subsurface characteristics of the watersheds.
Water Resources Research – Wiley
Published: Sep 1, 1989
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