2003
DOI: 10.1002/hyp.1125
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A comparative study in modelling runoff and its components in two mountainous catchments

Abstract: Abstract:In mountainous catchments the quality of runoff modelling depends strongly on the assessment of the spatial differences in the generation of the various runoff components and of the flow paths as coupled with the amount and intensity of precipitation and/or the snow melting. These catchments are also suitable for the intercomparison of different kinds of hydrological models, particularly of different approaches for the simulation of runoff generation. Two differently structured catchment models were a… Show more

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Cited by 145 publications
(125 citation statements)
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“…Additionally, these measurements are also of the same order of magnitude as other energy budget components measured within the same region (e.g. [20]). …”
Section: Determination Of the Thermal Roughness Lengthmentioning
confidence: 80%
“…Additionally, these measurements are also of the same order of magnitude as other energy budget components measured within the same region (e.g. [20]). …”
Section: Determination Of the Thermal Roughness Lengthmentioning
confidence: 80%
“…Simple model approaches such as the Bowen ratio method for estimating latent heat fluxes (which relies on the assumption of spatial homogeneity) are prone to systematic errors of substantial magnitude that are, most likely, site specific. Still, and despite some of the shortcomings in the turbulence parametrizations involved and uncertainties deriving from adopting spatially interpolated data for distributed applications , hydrological runoff modelling usually proves quite successful thus emphasising the averaging or filtering effect of the hydrological system (Jasper et al, 2002;Gurtz et al, 2003;Ranzi et al, 2007). The skill of hydrological models proves best if models are run in reanalysis mode; real-time realizations for flood forecasts (e.g.…”
Section: Hydrological Aspectsmentioning
confidence: 99%
“…IRKIS stations are based on the IMIS design but with a sensor height of 4.5 m. SensorScope stations (Ingelrest et al, 2010) were installed in less accessible terrain to increase quantity and area covered by measurements. Operation of these type of stations in the harsh winter conditions appeared to be more difficult than expected and the sometimes hazardous locations of the measurement sites were hindering maintenance during the winter season.…”
Section: Datamentioning
confidence: 99%