Abstract
Large magnitude earthquakes produce complex surface deformations, which are typically mapped by field geologists within the months following the mainshock. We present detailed maps of the surface deformation pattern produced by the M. Vettore Fault System during the October 2016 earthquakes in central Italy, derived from ALOS-2 SAR data, via DInSAR technique. On these maps, we trace a set of cross-sections to analyse the coseismic vertical displacement, essential to identify both surface fault ruptures and off-fault deformations. At a local scale, we identify a large number of surface ruptures, in agreement with those observed in the field. At a larger scale, the inferred coseismic deformation shows a typical long-wavelength convex curvature of the subsiding block, not directly recognizable in the field. The detection of deformation patterns from DInSAR technique can furnish important constraints on the activated fault segments, their spatial distribution and interaction soon after the seismic events. Thanks to the large availability of satellite SAR acquisitions, the proposed methodological approach can be potentially applied to worldwide earthquakes (according to the environmental characteristics of the sensed scene) to provide a wider and faster picture of surface ruptures. Thus, the derived information can be crucial for emergency management by civil protection and helpful to drive and support the geological field surveys during an ongoing seismic crisis.
Highlights
The struck area has been investigated by Differential Synthetic Aperture Radar Interferometry (DInSAR) technique, aiming at studying the rock volumes affected by deformation, the faulting mechanics, the source geometry and local to large-scale surface d eformation[4,9–15]
The activation of the Vettore Fault System (VFS) during the largest events is recorded by surface ruptures developed along the major SW-dipping fault segments and minor synthetic and antithetic structures depicting a complex deformation pattern[8,24–27]
Our approach does not intend to substitute fieldwork activities, but it aims to demonstrate the potential of DInSAR technique to support field survey overcoming its limitations
Summary
Earthquakes can produce a wide spectrum of surface deformations associated with the main events or between inter-seismic periods[1,2]. In 2016, a long earthquake sequence affected a tectonically complex region of the Apennines in central Italy (Fig. 1), producing impressive surface ruptures due to the activation of the SW-dipping extensional M. We use SAR data acquired from the ALOS-2 system to generate line-of-sight (LOS) displacement maps over ascending and descending orbits to retrieve the corresponding vertical and horizontal displacement fields (VDM and HDM, respectively) affecting the investigated area.
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