Earthquake Source Investigation of the Kanallaki, March 2020 Sequence (North-Western Greece) Based on Seismic and Geodetic Data

The active collision of the Apulian continental lithosphere with the Eurasian plate characterizes the tectonics of the Epirus region in northwestern Greece, invoking crustal shortening. Epirus has not experienced any strong earthquakes during the instrumental era and thus there is no detailed knowle...

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Bibliographic Details
Published in:Remote sensing (Basel, Switzerland) Switzerland), 2021, Vol.13 (9), p.1752
Main Authors: Svigkas, Nikos, Kiratzi, Anastasia, Antonioli, Andrea, Atzori, Simone, Tolomei, Cristiano, Salvi, Stefano, Polcari, Marco, Bignami, Christian
Format: Article
Language:English
Subjects:
Algorithms
Deformation
Dipping
Earthquakes
Epirus
Fault lines
Geological faults
InSAR
Interferometric synthetic aperture radar
Interferometry
Investigations
Lithosphere
Northwestern Greece
Plate tectonics
Remote sensing
Seismic activity
seismicity
Slip
slip models
Tectonics
Topography
Waveforms
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Summary:The active collision of the Apulian continental lithosphere with the Eurasian plate characterizes the tectonics of the Epirus region in northwestern Greece, invoking crustal shortening. Epirus has not experienced any strong earthquakes during the instrumental era and thus there is no detailed knowledge of the way the active deformation is being expressed. In March 2020, a moderate size (Mw 5.8) earthquake sequence occurred close to the Kanallaki village in Epirus. The mainshock and major aftershock focal mechanisms are compatible with reverse faulting, on NNW-ESE trending nodal planes. We measure the coseismic surface deformation using radar interferometry and investigate the possible fault geometries based on seismic waveforms and InSAR data. Slip distribution models provide good fits to both nodal planes and cannot resolve the fault plane ambiguity. The results indicate two slip episodes for a 337° N plane dipping 37° to the east and a single slip patch for a 137° N plane dipping 43° to 55° to the west. Even though the area of the sequence is very close to the triple junction of western Greece, the Kanallaki 2020 activity itself seems to be distinct from it, in terms of the acting stresses.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs13091752