Investigating the role of geology in the hydrological response of Mediterranean catchments prone to flash-floods: Regional modelling study and process understanding

Vannier, Olivier; Anquetin, Sandrine; Braud, Isabelle

doi:10.1016/j.jhydrol.2016.04.001

Cited by 31 publications

(26 citation statements)

References 79 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…3.2, a probability of submersion is assigned to every road cut by combining the flooding susceptibility level of the road section and the return period of stream discharge in the river section. The CVN (Cevenne) distributed hydrological model (Vannier et al, 2016;Branger et al, 2010;Viallet et al, 2006) is used to compute the discharge at the 738 road cuts identified in the Alès case study in hourly time steps for the 2002 flash flood. The CVN model is especially developed for simulating hydrological responses in flash flood events in the Cévennes region (south of France).…”

Section: Road Network Sensitivity To Floodingmentioning

confidence: 99%

MobRISK: a model for assessing the exposure of road users to flash flood events

Shabou

Ruin

Lutoff

et al. 2017

Nat. Hazards Earth Syst. Sci.

Self Cite

View full text Add to dashboard Cite

Abstract. Recent flash flood impact studies highlight that road networks are often disrupted due to adverse weather and flash flood events. Road users are thus particularly exposed to road flooding during their daily mobility. Previous exposure studies, however, do not take into consideration population mobility. Recent advances in transportation research provide an appropriate framework for simulating individual travelactivity patterns using an activity-based approach. These activity-based mobility models enable the prediction of the sequence of activities performed by individuals and locating them with a high spatial-temporal resolution. This paper describes the development of the MobRISK microsimulation system: a model for assessing the exposure of road users to extreme hydrometeorological events. MobRISK aims at providing an accurate spatiotemporal exposure assessment by integrating travel-activity behaviors and mobility adaptation with respect to weather disruptions. The model is applied in a flash-flood-prone area in southern France to assess motorists' exposure to the September 2002 flash flood event. The results show that risk of flooding mainly occurs in principal road links with considerable traffic load. However, a lag time between the timing of the road submersion and persons crossing these roads contributes to reducing the potential vehicle-related fatal accidents. It is also found that sociodemographic variables have a significant effect on individual exposure. Thus, the proposed model demonstrates the benefits of considering spatiotemporal dynamics of population exposure to flash floods and presents an important improvement in exposure assessment methods. Such improved characterization of road user exposures can present valuable information for flood risk management services.

show abstract

Section: Road Network Sensitivity To Floodingmentioning

confidence: 99%

MobRISK: a model for assessing the exposure of road users to flash flood events

Shabou

Ruin

Lutoff

et al. 2017

Nat. Hazards Earth Syst. Sci.

Self Cite

View full text Add to dashboard Cite

show abstract

“…The high dynamics of karst systems have a great impact on flood hazard and drinking groundwater management. First, flash floods in streams are correlated to run-off on urban (Miller et al, 2014) or impervious geological surfaces, and increase in the Mediterranean environment due to the extreme Mediterranean rain-type (Merz and Bloschl, 2003;Nied et al, 2014) and karst contribution (Maréchal et al, 2008;Vannier et al, 2016). Second, the volume of groundwater discharged during floods represents a high recharge rate.…”

Section: Introductionmentioning

confidence: 99%

Groundwater management of a highly dynamic karst by assessing baseflow and quickflow with a rainfall-discharge model (Dardennes springs, SE France)

Baudement

Arfib

Mazzilli

et al. 2017

Bull. Soc. géol. Fr.

View full text Add to dashboard Cite

-This paper aims at characterizing the groundwater flow in a highly dynamic karst aquifer using a global modeling approach based on rainfall and spring discharge time series. The Dardennes aquifer (SE France) was studied as it is used for drinking water supply and it also produces karst flash floods that increase the flood hazard downstream in urban areas. Three years of data were available, including a normal rainy year, a wet year and a dry year. Modeling was performed with the new platform KarstMod, a rainfalldischarge model with calibration tools. The Dardennes aquifer model was structured with three interconnected reservoirs: Epikarst, Matrix, and Conduit. Using this modeling approach, we were able to determine the groundwater hydrograph separation of the karst spring discharge, at the annual scale and at the event scale (flood). This gives insight into the low flow (Matrix) available for the drinking water demand and the fast flow (Conduit) that generates flash floods. In such a dynamic aquifer, part of the water budget cannot be accounted for by water resources as fast flow is not stored within the aquifer and is not available for the drinking water demand. The results were compared with the current groundwater management to determine whether the withdrawal is sustainable. Depending on whether it is a wet or a dry year, the proportion of slow flow ranges from 27 to 61% of the total discharge, respectively. During floods in high water periods, the proportion of quickflow increases drastically up to more than 90% of the spring discharge. In the case of a 300 mm/d simulated Mediterranean rainfall event, the mean daily peak value may reach 74 m 3 /s. This discharge can be reduced if the aquifer is previously depleted, which increases the storage within the aquifer. Coupling the geological context and the model results opens up future perspectives for the active management of the karst aquifer. disponible pour les besoins en eau potable et l'écoulement rapide (Conduit) qui génère des crues éclairs. Dans les systèmes hyper-dynamiques, une partie de l'eau qui transite ne peut pas être comptabilisée comme ressource en eau car l'écoulement rapide n'est pas stocké dans l'aquifère et n'est donc pas disponible pour alimenter la demande en eau potable. Les résultats sont comparés avec la gestion actuelle des eaux souterraines afin de montrer si l'exploitation de l'eau est durable. Selon l'année, la proportion de débit de base varie entre 27 et 61 % du débit total, respectivement selon une année pluvieuse ou sèche. Lors des crues en période de hautes-eaux, la proportion du débit rapide augmente considérablement jusqu'à plus de 90 % du débit total des sources. Dans le cas d'un événement pluvieux de type Méditerranéen avec 300 mm/j de pluie, le débit moyen maximum simulé avec le modèle atteint 74 m 3 /s. Ce débit peut être réduit si l'aquifère est déjà déprimé, ce qui augmente le stockage de l'eau. Le couplage du contexte géologique et des résultats du modèle ouvre une perspective future pour une gestion active ...

show abstract

“…An interesting perspective of this work would be the use of both Kf s maps in uncalibrated distributed hydrological models (see Vannier et al, 2016) to see if discharge simulation is improved at the regional scale.…”

Section: Discussionmentioning

confidence: 99%

“…This map was compared to the results obtained by Manus et al (2009) and Vannier et al (2016) using the Rawls and Brakensiek (1985) pedotransfer functions (RB85) over the area. For this mapping, these authors used a soil data base from the IGCS (Inventaire Gestion et Conservation des Sols, https://www.gissol.fr/tag/igcs) program, associated with a vector map of soil cartographic units at the 1/250000 scale (pedology map in the following discussion).…”

Section: Mapping Kf Smentioning

confidence: 99%

“…In this region, several hydrological models were proposed for flash flood simulation and/or forecasting, such as models derived from TOPMODEL (Saulnier and Le Lay, 2009;Vincendon et al, 2016), SCS based models (e.g. Gaume and Bouvier, 2004;Laganier et al, 2014;Naulin et al, 2013), models based on the Richards equation (Vannier et al, 2016) or infiltration excess runoff generation , modeling approaches including infiltration excess and sub-surface flow such as the MARINE model (Garambois et al, 2013;Roux et al, 2011). All of these models require mapping of the variation in saturated hydraulic conductivity at regional scale.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Mapping topsoil field-saturated hydraulic conductivity from point measurements using different methods

Braud¹,

Desprats²,

Ayral

et al. 2017

Journal of Hydrology and Hydromechanics

Self Cite

View full text Add to dashboard Cite

Topsoil field-saturated hydraulic conductivity, Kf s , is a parameter that controls the partition of rainfall between infiltration and runoff and is a key parameter in most distributed hydrological models. There is a mismatch between the scale of local in situ Kf s measurements and the scale at which the parameter is required in models for regional mapping. Therefore methods for extrapolating local Kf s values to larger mapping units are required. The paper explores the feasibility of mapping Kf s in the Cévennes-Vivarais region, in south-east France, using more easily available GIS data concerning geology and land cover. Our analysis makes uses of a data set from infiltration measurements performed in the area and its vicinity for more than ten years. The data set is composed of Kf s derived from infiltration measurements performed using various methods: Guelph permeameters, double ring and single ring infiltrotrometers and tension infiltrometers. The different methods resulted in a large variation in Kf s up to several orders of magnitude. A method is proposed to pool the data from the different infiltration methods to create an equivalent set of Kf s . Statistical tests showed significant differences in Kf s distributions in function of different geological formations and land cover. Thus the mapping of Kf s at regional scale was based on geological formations and land cover. This map was compared to a map based on the Rawls and Brakensiek (RB) pedotransfer function (mainly based on texture) and the two maps showed very different patterns. The RB values did not fit observed equivalent Kf s at the local scale, highlighting that soil texture alone is not a good predictor of Kf s .

show abstract

Investigating the role of geology in the hydrological response of Mediterranean catchments prone to flash-floods: Regional modelling study and process understanding

Cited by 31 publications

References 79 publications

MobRISK: a model for assessing the exposure of road users to flash flood events

MobRISK: a model for assessing the exposure of road users to flash flood events

Groundwater management of a highly dynamic karst by assessing baseflow and quickflow with a rainfall-discharge model (Dardennes springs, SE France)

Mapping topsoil field-saturated hydraulic conductivity from point measurements using different methods

Contact Info

Product

Resources

About