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Par Collection Par Auteur- PAPANIKOLAOU, I., (Directeur de publication) (4)
- REICHERTER, K., (Directeur de publication) (4)
- VÖTT, A., (Directeur de publication) (4)
- VÖTT, A. (2)
- AL BALUSHI, N. (1)
- ANTHONY, E.J. (1)
- BARETH, G. (1)
- CURDT, C. (1)
- DE MARCO, A. (1)
- GRÜTZNER, C. (1)
- HADLER, H. (1)
- MASTRONUZZI, G. (1)
- MORHANGE, C. (1)
- PIGNATELLI, C. (1)
- PISCITELLI, A. (1)
- REICHERTER, K. (1)
- REICHERTER, K. (1)
- RUPPRECHTER, M. (1)
- SABATIER, F. (1)
- TILLY, N. (1)
- 2013 (4)
- Années 2009-2011 ; Balayage laser terrestre ; Bilan sédimentaire ; Bloc ; Dynamique littorale ; Grèce ; Ile ; Littoral ; Mer Ionienne ; Modèle ; Pelopónnisos ; Tsunami ; Télédétection ; Vague (1)
- Atlantique ; Distribution spatiale ; Espagne ; GPR ; Golfo de Cádiz ; Grèce ; Géophysique ; Littoral ; Pelopónnisos ; Stratigraphie ; Sédimentologie ; Tsunamite (1)
- Atlántico ; Distribución espacial ; España ; Estratigrafía ; Geofísica ; Grecia ; Litoral ; Peloponeso ; Sedimentología (1)
- Balance sedimentario ; Dinámica litoral ; Grecia ; Isla ; Litoral ; Mar Ioniena ; Modelo ; Ola ; Peloponeso ; Teledetección ; Tsunami (1)
- Bloc ; Bouches-du-Rhône ; Distribution spatiale ; Dynamique littorale ; France ; Hydrodynamique ; Littoral ; Martigues ; Modèle ; Paléogéographie ; Petit âge glaciaire ; Provence-Alpes-Côte d'Azur ; Risque naturel ; Tempête ; Tsunami ; Vague (1)
- Bloc ; Date 1945 ; Littoral ; Mer d'Oman ; Océan Indien ; Oman ; Risque naturel ; Scénario ; Subduction ; Séisme ; Tectonique de plaques ; Tsunami (1)
- Bouches-du-Rhône ; Boulder ; Coastal dynamics ; Coastal environment ; France ; Hydrodynamics ; Little ice age ; Martigues ; Model ; Natural hazards ; Palaeogeography ; Provence-Alpes-Côte d'Azur ; Spatial distribution ; Storm ; Tsunami ; Wave (1)
- Boulder ; Coastal dynamics ; Coastal environment ; Greece ; Ionian Sea ; Island ; Model ; Peloponnese ; Remote sensing ; Sediment budget ; Terrestrial laser scanning ; Tsunami ; Wave (1)
- Boulder ; Coastal environment ; Earthquake ; Indian Ocean ; Natural hazards ; Oman ; Plate tectonics ; Scenario ; Subduction ; Tsunami (1)
- Dinámica litoral ; Distribución espacial ; Francia ; Hidrodinámica ; Litoral ; Modelo ; Ola ; Paleogeografía ; Pequeña edad glaciar ; Riesgo natural ; Tempestad ; Tsunami (1)
- Escenario ; Litoral ; Océano Indio ; Omán ; Riesgo natural ; Seísmo ; Subducción ; Tectónica de placas ; Tsunami (1)
- Reconstructing and modeling of paleotsunami events. Multi-proxy approaches, geophysical studies, numerical simulations (4)
- Application of GPR for visualising spatial d distribution and internal structures of tsunami deposits ? Case studies from Spain and Greece (1)
- Coastal boulders in Martigues, French Mediterranean : evidence for extreme storm waves during the Little Ice Age (1)
- Monitoring annual changes of the coastal sedimentary budget in western budget Greece by terrestrial laser scanning terrestrial scanning (1)
- The impact of the 1945 Makran tsunami along the coastlines of the Arabian Sea (Northern Indian Ocean) - a review (1)
- Boulder ; Coastal dynamics ; Coastal environment ; Greece ; Ionian Sea ; Island ; Model ; Peloponnese ; Remote sensing ; Sediment budget ; Terrestrial laser scanning ; Tsunami ; Wave
- to 2011. A Riegl LMS-Z420 i laser scanner was used in combination with a DGPS. Moreover, TLS-based volume and mass data of dislocated boulders encountered at several sites were incorporated into tsunami wave transport equations and compared to buoy data
- . High-energy dislocated boulders showed no movement during the monitoring period. Thus, it is assumed that they were been transported inland by extreme events, which were stronger than the average coastal dynamics between 2009 and 2011. Both
- the orientation and the spatial distribution pattern of the dislocated boulders match with observations of boulders dislocated by tsunami impact.
- Coastal boulders in Martigues, French Mediterranean : evidence for extreme storm waves during the Little Ice Age
- Bouches-du-Rhône ; Boulder ; Coastal dynamics ; Coastal environment ; France ; Hydrodynamics ; Little ice age ; Martigues ; Model ; Natural hazards ; Palaeogeography ; Provence-Alpes-Côte d'Azur ; Spatial distribution ; Storm ; Tsunami ; Wave
- Boulder ; Coastal environment ; Earthquake ; Indian Ocean ; Natural hazards ; Oman ; Plate tectonics ; Scenario ; Subduction ; Tsunami
- the coastline is decorated by boulder and block deposits. These are interpreted as indicative for palaeo-tsunami with higher run-ups. The total number of casualties along the entire area of impact is estimated in the order of a couple of hundreds.
- covering wide areas of the harbour. GPR data indicate the variable thickness of tsunamigenic layers, channel-like structures of backwash deposits, and a non-planar erosion basement. Abrasion-scours were detected in various places and boulder accumulations