Towards closure relations in the Representative Elementary Watershed (REW) framework containing observable parameters: Relations for Hortonian overland flow
Publication date
2012
Authors
Vannametee, E.
Karssenberg, D.J.
Bierkens, M.F.P.
Editors
Advisors
Supervisors
Document Type
Article
Metadata
Show full item recordCollections
License
(c) UU Universiteit Utrecht, 2012
Abstract
This study presents the derivation procedure of an integrated closure relation for infiltration and Hortonian
overland flow in the Representative Elementary Watershed (REW) framework that contains directlyobservable
parameters. A physically-based high resolution model is used to simulate the infiltration flux
and discharge for 6 x 10⁵ set of synthetic REWs and rainstorms scenarios. This synthetic data set serves
as a surrogate of real-world data to deduce the closure relation. The closure relation performance is evaluated
against the results from the high resolution model. The results show that the closure relation is
capable of predicting accurate hydrological responses for an independent set of synthetic REWs and rainstroms
in terms of the Nash–Sutcliffe index, errors in total discharge volume, and peak discharge, especially
in cases where a relatively large amount of runoff is produced with fast responses. For the
estimation of parameters in the closure relation, a local method using inverse distance weighted interpolation
in the parameter space is superior to the global method based on the multiple regression, resulting
in a better reproduction of runoff characteristics.
Keywords
Representative Elementary Watershed, Closure relations, Lumped model, Infiltration, Hortonain overland flow, Synthetic hydrologic-response data set