The 1000-km-long left-lateral Dead Sea fault is a major tectonic structure of the oriental Mediterranean basin, bounding the Arabian Plate to the west. The fault is located in a region with an exceptionally long and rich historical record, allowing to document historical seismicity catalogues with unprecedented level of details. However, if the earthquake time series is well documented, location and lateral extent of past earthquakes remain often difficult to establish, if only based on historical testimonies. We excavated a palaeoseismic trench in a site located in a kilometre-size extensional jog, south of the Dead Sea, in the Wadi Araba. Based on the stratigraphy exposed in the trench, we present evidence for nine earthquakes that produc...
An edited version of this paper was published in Earth and Planetary Science Letters by Elsevier Sci...
The Dead Sea Transform Fault constitutes the northwestern boundary of the Arabian plate, accommodati...
The DSW 2009 - Field Trip & Workshop "The Dead Sea Rift as natural laboratory for earthquake behavio...
International audienceS U M M A R Y The 1000-km-long left-lateral Dead Sea fault is a major tectonic...
International audienceThe continuous record of large surface-rupturing earthquakes along the Dead Se...
International audienceSUMMAR Y The Dead Sea fault zone is a major left-lateral strike-slip fault. So...
International audienceWe present new results from a paleoseismic trenching campaign at a site across...
The Dead Sea Fault (DSF) is a plate-boundary where large earthquakes are expected, but there is a la...
The Dead Sea Transform (DST) is a continental transform representing the boundary between Arabia and...
International audienceTemporal distribution of earthquakes is key to seismic hazard assessment. Howe...
we bring together and analyze new coseismic data from field survey and historical pictures, critica...
Les sept chapitres de cette thèse montrent essentiellement l'importance de l'approche pluridisciplin...
Les sept chapitres de cette thèse montrent essentiellement l'importance de l'approche pluridisciplin...
The Dead Sea fault (DSF) is the most impressive tectonic feature in the Middle East. It is a plate b...
An edited version of this paper was published in Earth and Planetary Science Letters by Elsevier Sci...
The Dead Sea Transform Fault constitutes the northwestern boundary of the Arabian plate, accommodati...
The DSW 2009 - Field Trip & Workshop "The Dead Sea Rift as natural laboratory for earthquake behavio...
International audienceS U M M A R Y The 1000-km-long left-lateral Dead Sea fault is a major tectonic...
International audienceThe continuous record of large surface-rupturing earthquakes along the Dead Se...
International audienceSUMMAR Y The Dead Sea fault zone is a major left-lateral strike-slip fault. So...
International audienceWe present new results from a paleoseismic trenching campaign at a site across...
The Dead Sea Fault (DSF) is a plate-boundary where large earthquakes are expected, but there is a la...
The Dead Sea Transform (DST) is a continental transform representing the boundary between Arabia and...
International audienceTemporal distribution of earthquakes is key to seismic hazard assessment. Howe...
we bring together and analyze new coseismic data from field survey and historical pictures, critica...
Les sept chapitres de cette thèse montrent essentiellement l'importance de l'approche pluridisciplin...
Les sept chapitres de cette thèse montrent essentiellement l'importance de l'approche pluridisciplin...
The Dead Sea fault (DSF) is the most impressive tectonic feature in the Middle East. It is a plate b...
An edited version of this paper was published in Earth and Planetary Science Letters by Elsevier Sci...
The Dead Sea Transform Fault constitutes the northwestern boundary of the Arabian plate, accommodati...
The DSW 2009 - Field Trip & Workshop "The Dead Sea Rift as natural laboratory for earthquake behavio...