Characterization of catchment behaviour and rainfall selection for flash flood hydrological model calibration: catchments of the eastern Pyrenees

Accurate flash flood prediction depends heavily on rainfall data quality and knowledge of catchment behaviour. A methodology based on global sensitivity analysis and hydrological similarity is proposed to analyse flash storm-flood events with a mechanistic model. The behaviour of medium-sized catchm...

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Veröffentlicht in:	Hydrological sciences journal 2015-03, Vol.60 (3), p.424-447
Hauptverfasser:	Garambois, P.A, Roux, H, Larnier, K, Labat, D, Dartus, D
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Sprache:	eng
Schlagworte:	analyse de sensibilité globale bedrock bedrock loss calage de modèle hydrologique catchment behaviour comportement hydrologique de bassin versant crue éclair data collection Earth Sciences Engineering Sciences EQP flash floods global sensitivity analysis hydrological model calibration Hydrology meteorological data perte vers le socle rocheux prediction QPE rain Reactive fluid environment regionalization régionalisation Sciences of the Universe watersheds
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container_title	Hydrological sciences journal
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creator	Garambois, P.A Roux, H Larnier, K Labat, D Dartus, D
description	Accurate flash flood prediction depends heavily on rainfall data quality and knowledge of catchment behaviour. A methodology based on global sensitivity analysis and hydrological similarity is proposed to analyse flash storm-flood events with a mechanistic model. The behaviour of medium-sized catchments is identified in terms of rainfall–runoff conservation. On the basis of this shared behaviour, rainfall products with questionable quantitative precipitation estimation (QPE) are excluded. This facilitates selection of rainfall inputs for calibration, whereas it can be difficult to choose between two rainfall products by direct comparison. A substantial database of 43 flood events on 11 catchment areas was studied. Nash-Sutcliffe efficiencies for this dataset are around 0.9 in calibration and 0.7 in validation for flash flood simulation in 250-km ² catchments with selected QPE. The resulting calibration framework and qualification of possible losses for different bedrock types are also interesting bases for flash flood prediction at ungauged locations. Editor D. Koutsoyiannis
doi_str_mv	10.1080/02626667.2014.909596
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subjects	analyse de sensibilité globale bedrock bedrock loss calage de modèle hydrologique catchment behaviour comportement hydrologique de bassin versant crue éclair data collection Earth Sciences Engineering Sciences EQP flash floods global sensitivity analysis hydrological model calibration Hydrology meteorological data perte vers le socle rocheux prediction QPE rain Reactive fluid environment regionalization régionalisation Sciences of the Universe watersheds
title	Characterization of catchment behaviour and rainfall selection for flash flood hydrological model calibration: catchments of the eastern Pyrenees
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