Maurice J. Duncan scite author profile

Abstract:Hydrological scientists develop perceptual models of the catchments they study, using field measurements and observations to build an understanding of the dominant processes controlling the hydrological response. However, conceptual and numerical models used to simulate catchment behaviour often fail to take advantage of this knowledge. It is common instead to use a pre-defined model structure which can only be fitted to the catchment via parameter calibration. In this article, we suggest an alternative approach where different sources of field data are used to build a synthesis of dominant hydrological processes and hence provide recommendations for representing those processes in a time-stepping simulation model. Using analysis of precipitation, flow and soil moisture data, recommendations are made for a comprehensive set of modelling decisions, including Evapotranspiration (ET) parameterization, vertical drainage threshold and behaviour, depth and water holding capacity of the active soil zone, unsaturated and saturated zone model architecture and deep groundwater flow behaviour. The second article in this two-part series implements those recommendations and tests the capability of different model sub-components to represent the observed hydrological processes.

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Relatively Rough Flow Resistance Equations

Smart

2002

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Measurement and analysis of alluvial bed roughness

Smart

Aberle

Duncan

et al. 2004

Journal of Hydraulic Research

117

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Flow variability in New Zealand rivers and its relationship to in‐stream habitat and biota

Jowett¹,

Duncan²

1990

New Zealand Journal of Marine and Freshwater Research

133

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Investigating the representative elementary area concept: An approach based on field data

Woods

Sivapalan

Duncan

1995

Hydrological Processes

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Changing the scale of observation or averaging has a significant, but poorly understood, impact on the apparent variability of hydrological quantities. The representative elementary area (REA) concept is used as a motivation for measuring inter-storm streamflow and calculating wetness index distributions for the subcatchments of two small study areas in New Zealand. Small subcatchments are combined to provide larger scale samples, and then the variance of s cific discharge between similar sized subcatchments is calculated. For small subcatchments (area less than -1 km ) this variance is found to decrease with area more quickly than might be expected if the catchments were random samples. Such behaviour is tentatively interpreted as evidence supporting the concept of 'organization'. At larger scales, variance between catchments decreases in a way that is consistent with sampling from a stationary random field. The results from the streamflow data are reinforced by an analysis of topographic data for the two study areas, although some questions remain open.Both the flow and topographic data support the idea that it is possible to find an averaging scale where the variability between catchments is sufficiently small for a 'distribution function' approach to be used in distributed rainfall-runoff modelling. Consistent estimates of the scale at which the study areas become stationary (0.5 km2 for Little Akaloa, 2 km2 for Lewis) are obtained using both flow and topographic data. The data support a pragmatic REA concept which allows meaningful averages to be formed: this may be a useful base for further Conceptual developments, but it is not appropriate for a classical continuum approach. Further conceptual development combined with field measurement and computer simulation are still required for the REA to have operational impacts. In particular, it is not clear which models are appropriate for use at the REA scale.Y .

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Maurice J. Duncan

Hydrological field data from a modeller's perspective: Part 1. Diagnostic tests for model structure

Relatively Rough Flow Resistance Equations

Measurement and analysis of alluvial bed roughness

Flow variability in New Zealand rivers and its relationship to in‐stream habitat and biota

Investigating the representative elementary area concept: An approach based on field data

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