Coseismic and post-seismic slip of the 2009 L'Aquila (central Italy) MW 6.3 earthquake and implications for seismic potential along the Campotosto fault from joint inversion of high-precision levelling, InSAR and GPS data
Author(s)
Language
English
Obiettivo Specifico
2T. Tettonica attiva
Status
Published
JCR Journal
JCR Journal
Peer review journal
Yes
Journal
Issue/vol(year)
/622(2014)
ISSN
0040-1951
Electronic ISSN
1879-3266
Publisher
Elsevier Science Limited
Pages (printed)
168-185
Date Issued
March 15, 2014
Subjects
Subjects
Abstract
After the April 6th 2009 MW 6.3 (ML 5.9) L'Aquila earthquake (central Italy), we re-measured more than 100 km
of high-precision levelling lines in the epicentral area. The joint inversion of the levelling measurements with
InSAR and GPS measurements, allowed us to derive new coseismic and post-seismic slip distributions and to de-
scribe, with high resolution details on surface displacements, the activation and the slip distribution of a second-
ary fault during the aftershock sequence that struck the Campotosto area (major event MW 5.2). Coseismic slip on
the Paganica fault occurred on one main asperity, while the afterslip distribution shows a more complex pattern,
occurring on three main patches, including both slips on the shallow portions and on the deeper parts of the rup-
ture plane. The comparison between coseismic and post-seismic slip distributions strongly suggests that afterslip
was triggered at the edges of the coseismic asperity. The activation of a segment of the Campotosto fault during
the aftershock sequence, with a good correlation between the estimated slipping area, moment release and
distribution of aftershocks, raises the opportunity to discuss the local seismic hazard following the occurrence
of the 2009 L'Aquila mainshock. The Campotosto fault appears capable of generating earthquakes as large as his-
torical events in the region (M N 6.5) or as small as the ones associated with the 2009 sequence. In the case that
the Campotosto fault is accumulating a significant portion of the current interseismic deformation, the 2009 MW
N 5 events will have released only a small amount of the accumulated elastic strain, and then a significant hazard
still remains in the area. Continuing geodetic monitoring and a densification of the GPS networks in the region are
therefore needed to estimate the tectonic loading across the different recognized active fault systems in this part
of the Apennines.
of high-precision levelling lines in the epicentral area. The joint inversion of the levelling measurements with
InSAR and GPS measurements, allowed us to derive new coseismic and post-seismic slip distributions and to de-
scribe, with high resolution details on surface displacements, the activation and the slip distribution of a second-
ary fault during the aftershock sequence that struck the Campotosto area (major event MW 5.2). Coseismic slip on
the Paganica fault occurred on one main asperity, while the afterslip distribution shows a more complex pattern,
occurring on three main patches, including both slips on the shallow portions and on the deeper parts of the rup-
ture plane. The comparison between coseismic and post-seismic slip distributions strongly suggests that afterslip
was triggered at the edges of the coseismic asperity. The activation of a segment of the Campotosto fault during
the aftershock sequence, with a good correlation between the estimated slipping area, moment release and
distribution of aftershocks, raises the opportunity to discuss the local seismic hazard following the occurrence
of the 2009 L'Aquila mainshock. The Campotosto fault appears capable of generating earthquakes as large as his-
torical events in the region (M N 6.5) or as small as the ones associated with the 2009 sequence. In the case that
the Campotosto fault is accumulating a significant portion of the current interseismic deformation, the 2009 MW
N 5 events will have released only a small amount of the accumulated elastic strain, and then a significant hazard
still remains in the area. Continuing geodetic monitoring and a densification of the GPS networks in the region are
therefore needed to estimate the tectonic loading across the different recognized active fault systems in this part
of the Apennines.
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