Vincenzo Sepe scite author profile

We investigate a large geodetic data set of interferometric synthetic aperture radar (InSAR) and GPS measurements to determine the source parameters for the three main shocks of the 2016 Central Italy earthquake sequence on 24 August and 26 and 30 October (Mw 6.1, 5.9, and 6.5, respectively). Our preferred model is consistent with the activation of four main coseismic asperities belonging to the SW dipping normal fault system associated with the Mount Gorzano‐Mount Vettore‐Mount Bove alignment. Additional slip, equivalent to a Mw ~ 6.1–6.2 earthquake, on a secondary (1) NE dipping antithetic fault and/or (2) on a WNW dipping low‐angle fault in the hanging wall of the main system is required to better reproduce the complex deformation pattern associated with the greatest seismic event (the Mw 6.5 earthquake). The recognition of ancillary faults involved in the sequence suggests a complex interaction in the activated crustal volume between the main normal faults and the secondary structures and a partitioning of strain release.

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Coseismic deformation of the destructive April 6, 2009 L'Aquila earthquake (central Italy) from GPS data

Anzidei

Boschi

Cannelli

et al. 2009

Geophysical Research Letters

144

113

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On April 6, 2009, 01:32:39 GMT, the city of L'Aquila was struck by a Mw 6.3 earthquake that killed 307 people, causing severe destruction and ground cracks in a wide area around the epicenter. Four days before the main shock we augmented the existing permanent GPS network with five GPS stations of the Central Apennine Geodetic Network (CaGeoNet) bordering the L'Aquila basin. The maximum horizontal and vertical coseismic surface displacements detected at these stations was 10.39 ± 0.45 cm and −15.64 ± 1.55 cm, respectively. Fixing the strike direction according to focal mechanism estimates, we estimated the source geometry with a non linear inversion of the geodetic data. Our best fitting fault model is a 13 × 15.7 km2 rectangular fault, SW‐dipping at 55.3 ± 1.8°, consistent with the position of observed surface ruptures. The estimated slip (495 ± 29 mm) corresponds to a 6.3 moment magnitude, in excellent agreement with seismological data.

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Oxidative stress and inflammation: Implications in uremia and hemodialysis

Libetta

Sepe

Esposito

et al. 2011

Clinical Biochemistry

152

113

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A Combined Velocity Field of the Mediterranean Region

Devoti

D’Agostino²,

Serpelloni³

et al. 2017

134

104

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Vincenzo Sepe

Geodetic model of the 2016 Central Italy earthquake sequence inferred from InSAR and GPS data

Coseismic deformation of the destructive April 6, 2009 L'Aquila earthquake (central Italy) from GPS data

Oxidative stress and inflammation: Implications in uremia and hemodialysis

A Combined Velocity Field of the Mediterranean Region

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