Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/57998
Type: Conference paper
Title: Using a fully coupled surface water - groundwater model to quantify streamflow components
Author: Partington, D.
Werner, A.
Brunner, P.
Simmons, C.
Dandy, G.
Maier, H.
Citation: Proceedings of the 18th World IMACS and MODSIM09 International Congress, 2009 / R.S. Anderssen, R.D. Braddock and L.T.H. Newham (eds.): pp.3102-3108
Publisher: The Modelling & Simulation Society of Australia & NZ Inc
Publisher Place: Australia
Issue Date: 2009
ISBN: 9780975840078
Conference Name: World IMACS and MODSIM09 International Congress (18th : 2009 : Cairns, Qld)
Statement of
Responsibility: 
Partington, D., Werner A.D., Brunner P., Simmons C.T., Dandy G.C. and Maier H.R.
Abstract: Separation of streamflow components into quickflow and baseflow is usually carried out in two main ways: hydrograph recession analysis and tracer-based methods. In this paper, it is proposed to use a fully coupled surface and subsurface flow and transport model to gain a better understanding of the relationship between physical catchment characteristics (e.g. aquifer hydraulic conductivity) and hydrological response (e.g. stream salinity and flow response) to a rainfall event. This enables an evaluation of the common empirical approaches of recession analysis and baseflow separation in practice. This is achieved by conducting a range of numerical experiments on a hypothetical case study, which is based on a commonly used surface water-groundwater interaction benchmarking problem. A fully coupled, variably saturated surface-subsurface flow and transport model (HydroGeoSphere) forms the basis of the numerical experiments conducted in this investigation. The results indicate that the empirical baseflow separation algorithms failed to reproduce the simulated groundwater discharge to the stream from the theoretical catchment, although it was identified that the surface-subsurface benchmark problem needs to be further developed to produce more realistic hydrograph behaviour before a proper comparison between the two approaches can be made.
Keywords: Baseflow separation; Surface water - Groundwater interactions; Numerical modelling
Rights: Copyright status unknown
RMID: 0020096157
Description (link): http://www.mssanz.org.au/modsim09/
Published version: http://www.mssanz.org.au/modsim09/I1/partington.pdf
Appears in Collections:Civil and Environmental Engineering publications
Environment Institute publications

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