New fault trace mapping and structural survey of the active faults outcropping within the epicentral area of the Campania-Lucania 1980 normal fault earthquake (Mw 6.9) are integrated with a revision of pre-existing earthquake data and with an updated interpretation of the CROP-04 near-vertical seismic profile to reconstruct the surface and depth geometry, the kinematics and stress tensor of the seismogenic fault pattern. Three main fault alignments, organized in high-angle en-echelon segments of several kilometers in length, are identified and characterized. The inner and intermediate ones, i.e. Inner Irpinia (InIF) and Irpinia Faults (IF), dip eastward; the outer Antithetic Fault (AFA) dips westward. Both the InIF and the IF strike NW-SE a...
We assess the seismotectonics of the western part of the border area between the Southern Apennines ...
The Pian Grande di Castelluccio (PGC) basin is the main Quaternary depocenter of the Mt. Vettore‐Mt....
Identification of an active fault and the local versus regional present-day stress field in the Irpi...
New fault trace mapping and structural survey of the active faults outcropping within the epicentral...
A systematic collection of present-day stress directions has allowed us to gain new insights into th...
An investigation has been performed to identify and characterize the seismic deformation zones activ...
In order to obtain a reliable map of the present-day stress field in Italy, needed to better underst...
<p>This study performs a detailed reconstruction of the rupture mechanism of the 1980 Campania...
This study performs a detailed reconstruction of the rupture mechanism of the 1980 Campania–Lucania ...
The destructive 1980 Campania-Lucania earthquake was a complex event, consisting of at least three s...
In this paper we investigate the upper crustal structure of the Irpinia region, Southern Apennines t...
The south-western edge of the Calabrian Arc in southern Italy has been investigated throughout a joi...
The 2016 Central Italy earthquake sequence, consisted of three main shocks and thousands of secondar...
We assess the seismotectonics of the western part of the border area between the Southern Apennines ...
The Pian Grande di Castelluccio (PGC) basin is the main Quaternary depocenter of the Mt. Vettore‐Mt....
Identification of an active fault and the local versus regional present-day stress field in the Irpi...
New fault trace mapping and structural survey of the active faults outcropping within the epicentral...
A systematic collection of present-day stress directions has allowed us to gain new insights into th...
An investigation has been performed to identify and characterize the seismic deformation zones activ...
In order to obtain a reliable map of the present-day stress field in Italy, needed to better underst...
<p>This study performs a detailed reconstruction of the rupture mechanism of the 1980 Campania...
This study performs a detailed reconstruction of the rupture mechanism of the 1980 Campania–Lucania ...
The destructive 1980 Campania-Lucania earthquake was a complex event, consisting of at least three s...
In this paper we investigate the upper crustal structure of the Irpinia region, Southern Apennines t...
The south-western edge of the Calabrian Arc in southern Italy has been investigated throughout a joi...
The 2016 Central Italy earthquake sequence, consisted of three main shocks and thousands of secondar...
We assess the seismotectonics of the western part of the border area between the Southern Apennines ...
The Pian Grande di Castelluccio (PGC) basin is the main Quaternary depocenter of the Mt. Vettore‐Mt....
Identification of an active fault and the local versus regional present-day stress field in the Irpi...