The 17 July 2013 Hammam Melouane earthquake: observations and analysis of geological and seismological data

On July 17th, 2013, a moderate-sized earthquake of Mw 4.9 hits the locality of Hammam Melouane, North-Central Algeria. The event was followed by an intense aftershock activity that lasted about two years. For a better constraint of the main shock and the causative fault, we present and discuss new g...

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Veröffentlicht in:	Journal of Iberian geology 2022-06, Vol.48 (2), p.163-180
Hauptverfasser:	Ait Benamar, Dalila, Moulouel, Hakim, Belhai, Djelloul, Semmane, Fethi, Harbi, Assia, Tebbouche, Mohamed Yacine, Boukri, Mehdi, Meziani, Abdelghani Aghiles, Aourari, Sahra, Braham, Massinissa, Machane, Djamel
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Sprache:	eng
Schlagworte:	Earth and Environmental Science Earth Sciences Earthquakes Geology Miocene Polarity Research Paper Seismic activity Structural Geology
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creator	Ait Benamar, Dalila Moulouel, Hakim Belhai, Djelloul Semmane, Fethi Harbi, Assia Tebbouche, Mohamed Yacine Boukri, Mehdi Meziani, Abdelghani Aghiles Aourari, Sahra Braham, Massinissa Machane, Djamel
description	On July 17th, 2013, a moderate-sized earthquake of Mw 4.9 hits the locality of Hammam Melouane, North-Central Algeria. The event was followed by an intense aftershock activity that lasted about two years. For a better constraint of the main shock and the causative fault, we present and discuss new geological and accelerometric data, in addition to an updated macroseismic study. A maximum macroseismic intensity of VII (EMS-98) was attributed to this event. The right-lateral strike-slip fault zone outcropping north of Hammam Melouane locality is the only structure that shows characteristics coherent with the seismological results. This fault system consists of several main branches about 1 km distant from each other, with a ~ N120° overall trending. The fault zone structure is clearly materialized by a Riedel shear structures imprinted on Miocene post-thrust tectonic formations and cross cutting all the previous structures. Moreover, reading the P-wave polarity at two additional broadband seismic stations, allowed better constraining the strike of the focal mechanism nodal planes. The GRY strong-motion station, west of the epicenter, which has not been triggered by the mainshock first arrival, means that possibly this station is located close to the ~ E‒W nodal plane.
doi_str_mv	10.1007/s41513-022-00187-2
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subjects	Earth and Environmental Science Earth Sciences Earthquakes Geology Miocene Polarity Research Paper Seismic activity Structural Geology
title	The 17 July 2013 Hammam Melouane earthquake: observations and analysis of geological and seismological data
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