The Calabria's Ionian continental slope is deeply incised by canyons which are characterized by V-shape cross-sections in their upper parts and U-shape cross-sections in their terminal parts. These conditions are favorable, under seismic action, it may give rise to submarine landslides. In this study, we propose a 3D numerical modeling of tsunami waves generated by an underwater slump with "Geowave" software. The simulated gravity instability zone is near the "Venere 1" head Canyon situated close Cirò Marina coastal area. The availability of a detailed bathymetric map both with a good knowledge of the local geology allowed us to obtain reliable simulation results. Interesting results of tsunami simulation, in the above-mentioned shoreline areas, show that the amplitude of wave run-up ranges from 0.50 m up to 0.90 m. This difference in run-up is ascribed to the directional effects and to the different coastal morphology.
Predictability of sea wave anomalous (micro-tsunamis modeling) by submarine landslides applied to cirò marina coast along the calabro ionian margin
Di Fiore V;Cavuoto G;Marsella E;Punzo M;Tarallo D
2017
Abstract
The Calabria's Ionian continental slope is deeply incised by canyons which are characterized by V-shape cross-sections in their upper parts and U-shape cross-sections in their terminal parts. These conditions are favorable, under seismic action, it may give rise to submarine landslides. In this study, we propose a 3D numerical modeling of tsunami waves generated by an underwater slump with "Geowave" software. The simulated gravity instability zone is near the "Venere 1" head Canyon situated close Cirò Marina coastal area. The availability of a detailed bathymetric map both with a good knowledge of the local geology allowed us to obtain reliable simulation results. Interesting results of tsunami simulation, in the above-mentioned shoreline areas, show that the amplitude of wave run-up ranges from 0.50 m up to 0.90 m. This difference in run-up is ascribed to the directional effects and to the different coastal morphology.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.