Finite fault inversion of DInSAR coseismic displacement of the 2009 L'Aquila earthquake (central Italy)

We define the geometric and kinematic characteristics of the fault activated during the Mw = 6.3, 6 April 2009 L'Aquila earthquake, from the modeling of Envisat and COSMO‐SkyMed (the first ever X‐band interferogram inverted for a coseismic dislocation study) DInSAR interferograms. Our best‐fit...

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Bibliographic Details
Published in:Geophysical research letters 2009-08, Vol.36 (15), p.np-n/a
Main Authors: Atzori, Simone, Hunstad, Ingrid, Chini, Marco, Salvi, Stefano, Tolomei, Cristiano, Bignami, Christian, Stramondo, Salvatore, Trasatti, Elisa, Antonioli, Andrea, Boschi, Enzo
Format: Article
Language:English
Subjects:
Assessments
Dislocations
Earth sciences
Earth, ocean, space
Earthquakes
Exact sciences and technology
Fault lines
Faults
Geodetic surveys
Geodetics
Geological faults
Geophysics
L'Aquila earthquake
Plate tectonics
SAR interferometry
Seismic activity
Seismic hazard
Seismic phenomena
Seismology
slip distribution
Space
X-band
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Summary:We define the geometric and kinematic characteristics of the fault activated during the Mw = 6.3, 6 April 2009 L'Aquila earthquake, from the modeling of Envisat and COSMO‐SkyMed (the first ever X‐band interferogram inverted for a coseismic dislocation study) DInSAR interferograms. Our best‐fit solution for the main shock is represented by a normal fault ∼16 km long and ∼12 km wide, with a small right‐lateral component, dipping 47°SW with a maximum slip of ∼90 cm. Although the seismic dislocation probably ended at 1 km depth, the updip projection of the fault plane corresponds to the northern segment of the mapped Paganica–S. Demetrio fault, where alignment of surface breaks was observed in the field. The absence of this fault in existing seismic source catalogues suggests that an improved approach, involving detailed surface and subsurface geological and geophysical investigations, is needed for a better assessment of the seismic hazard at the local scale.
ISSN:0094-8276
1944-8007
DOI:10.1029/2009GL039293