Sensitivity analysis for assessing the behaviour of a landscape-based sediment source and transport model

Widespread degradation of aquatic habitat and water quality has occurred since European settlement in Australia. Repairing this degradation is expensive and hence on-ground management needs to be carefully focussed. The Sediment River Network model, SedNet, used to estimate (spatially) the sources a...

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Veröffentlicht in:	Environmental modelling & software : with environment data news 2003-01, Vol.18 (8), p.741-751
Hauptverfasser:	Newham, L.T.H, Norton, J.P, Prosser, I.P, Croke, B.F.W, Jakeman, A.J
Format:	Artikel
Sprache:	eng
Schlagworte:	Pollutant modelling Sediment SedNet model Sensitivity assessment Water quality
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creator	Newham, L.T.H Norton, J.P Prosser, I.P Croke, B.F.W Jakeman, A.J
description	Widespread degradation of aquatic habitat and water quality has occurred since European settlement in Australia. Repairing this degradation is expensive and hence on-ground management needs to be carefully focussed. The Sediment River Network model, SedNet, used to estimate (spatially) the sources and transport of sediment at catchment scales provides a potentially useful tool to assist land managers in focusing this work. The complete model, while broadly applied has not been systematically tested to assess its sensitivity to its various model components. This paper describes sensitivity assessment to improve understanding of the model, with the aim of prioritising data acquisition and improving the structure and parameterisation of the model where necessary. It was found that the SedNet model was most sensitive to perturbations in its hydrologic parameters across a variety of scales and sites. Because of this it is important that ongoing model development activities focus on how to effectively represent hydrologic processes in the model.
doi_str_mv	10.1016/S1364-8152(03)00076-8
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subjects	Pollutant modelling Sediment SedNet model Sensitivity assessment Water quality
title	Sensitivity analysis for assessing the behaviour of a landscape-based sediment source and transport model
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