Le rôle du cône apical dans le déclenchement des coulées de débris alpines du massif du Dévoluy, Hautes-Alpes (France)

Pech, Pierre; Jomelli, Vincent

doi:10.7202/005661ar

Cited by 12 publications

(15 citation statements)

References 48 publications

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“…In many cases, these debris flows entrain loose material accumulated in the apex zone of slope deposits. The rates of accretion which depends on different factors such as lithology, elevation and aspect, control partly the triggering off (Pech and Jomelli 2001).…”

Section: Survey Of Hill Slope Debris Flowsmentioning

confidence: 99%

“…In this study, selected events correspond to very rapid shallow flows (3-5 m/s) of partially or fully saturated debris on a steep slope, without confinement in an established channel (Hungr 2005). The main deposition area usually occurs on slope deposits such as scree slope, transitional deposit or avalanche talus slope (Jomelli and Francou 2000;Pech and Jomelli 2001). In many cases, these debris flows entrain loose material accumulated in the apex zone of slope deposits.…”

Section: Survey Of Hill Slope Debris Flowsmentioning

confidence: 99%

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Impacts of future climatic change (2070–2099) on the potential occurrence of debris flows: a case study in the Massif des Ecrins (French Alps)

et al. 2009

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In this paper we investigate the impacts of future climatic change on the occurrence of debris flows in the Massif des Ecrins (French Alps). Two distinct aspects are discussed: the impact of future climatic change on the evolution of the process, and changes in the spatial distribution. Three climate simulations are presented for the current period and for future periods using GCM ARPEGE CLIMAT model developed by Météo-France. Simulated data are then statistically downscaled to obtain a higher spatial resolution. In the first step, we compare occurrence probabilities in the current period and in the next century. In the second step, we estimate which zones would be affected by the process in the future at the scale of the Massif des Ecrins. For the current period, the best model was obtained between debris flows and the number of days between June 15th and October 15th with more than 20 mm calculated either from observed meteorological or simulated data. Results of the ARPEGE model considering the A2 hypothesis (IPCC 2007) showed that the most significant climatic trends for the end of the century will be a decrease in intense rainy events and an increase in temperature. These trends are expected to reduce the occurrence of hill slope debris flows in the Massif des Ecrins. From a spatial point of view, the increase in temperature should 172 Climatic Change (2009) 97:171-191 result in a shift of the 0 • C isotherm to a higher elevation which, in turn, should result in a 20% reduction of the number of slopes affected by the process.

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Section: Survey Of Hill Slope Debris Flowsmentioning

confidence: 99%

Section: Survey Of Hill Slope Debris Flowsmentioning

confidence: 99%

Impacts of future climatic change (2070–2099) on the potential occurrence of debris flows: a case study in the Massif des Ecrins (French Alps)

et al. 2009

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“…Au Puech de Mus, les conditions favorables au déclen-chement des flots de débris et des coulées boueuses sont réunies à l'endroit où la pente atteint 10° : pente, maté-riaux argilo-sableux, dépression karstique, alimentation en eau par le ruissellement et fonte de la neige… Dans le détail, les flots de débris sont des écoulements rapides Pech & Jomelli, 2001 ;Bertran & Coussot, 2004) (Bertran & Coussot, 2004) traversé par des lentilles caillouteuses métriques à plurimétriques dont la fabrique est mal triée et mal orientée. Les faciès du flot de débris varient tout au long de la pente.…”

Section: -Association Du Ruissellement à D'autres Processus De Dépôtsunclassified

Run off at the site of Puech de Mus (Sainte‑eulalie‑de‑cernon, aveyron, france)

Fillâtre¹

2011

quaternaire

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“…Surprisingly few papers have been devoted to debris avalanches and their relationships with meteorological or climatic conditions (Jomelli et al, 2004(Jomelli et al, , 2009). In the French Alps, Pech & Jomelli (2001) underlined the active role of the apical cone of talus slopes in DA activity as the main factor responsible for asynchrony between sequences of heavy rainfall and DA triggering. Jomelli et al, (2007) observed a contrasted response of DA activity to recent climatic change depending on the geomorphic characteristics such as the lithology and the nature of stored debris.…”

Section: Introductionmentioning

confidence: 99%

“…The Arc and upper Isere region consists mostly of schist and sandstone, while the Massif des Ecrins is a crystalline formation and mainly consists of granites and metamorphic rocks. Typical geomorphic DA characteristics have the following components: (1) a funnel-shaped debris source area consisting of broad steep granite and metamorphic walls (100-400 m in height), (2) a zone where debris levees are found on both sides of the flow track on scree slopes or transitional deposits (Jomelli & Francou, 2000;Pech & Jomelli 2001); and (3) a terminal part where the levees join to form a frontal lobe or a combination of several lobes (Van Steijn,1991;Van Steijn et al, 1988;Major, 1997). These DA deposits are located between 1 600 and 2 400 m asl which is close to the 0°C annual isotherm.…”

Section: Introductionmentioning

confidence: 99%

Are Debris Floods and Debris Avalanches Responding Univocally to Recent Climatic Change – A Case Study in the French Alps

Jomelli¹,

Pavlova²,

Utasse³

et al. 2011

Climate Change - Geophysical Foundations and Ecological Effects

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Le rôle du cône apical dans le déclenchement des coulées de débris alpines du massif du Dévoluy, Hautes-Alpes (France)

Cited by 12 publications

References 48 publications

Impacts of future climatic change (2070–2099) on the potential occurrence of debris flows: a case study in the Massif des Ecrins (French Alps)

Impacts of future climatic change (2070–2099) on the potential occurrence of debris flows: a case study in the Massif des Ecrins (French Alps)

Run off at the site of Puech de Mus (Sainte‑eulalie‑de‑cernon, aveyron, france)

Are Debris Floods and Debris Avalanches Responding Univocally to Recent Climatic Change – A Case Study in the French Alps

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