Authors
Giuseppina Lavecchia, R Castaldo, Rita de Nardis, V De Novellis, Federica Ferrarini, S Pepe, Francesco Brozzetti, G Solaro, Daniele Cirillo, M Bonano, Paolo Boncio, F Casu, C De Luca, R Lanari, M Manunta, M Manzo, A Pepe, I Zinno, P Tizzani
Publication date
2016/12/28
Journal
Geophysical Research Letters
Volume
43
Issue
24
Pages
12,389-12,398
Description
We investigate the ground deformation and source geometry of the 2016 Amatrice earthquake (Central Italy) by exploiting ALOS2 and Sentinel‐1 coseismic differential interferometric synthetic aperture radar (DInSAR) measurements. They reveal two NNW‐SSE striking surface deformation lobes, which could be the effect of two distinct faults or the rupture propagation of a single fault. We examine both cases through a single and a double dislocation planar source. Subsequently, we extend our analysis by applying a 3‐D finite elements approach jointly exploiting DInSAR measurements and an independent, structurally constrained, 3‐D fault model. This model is based on a double fault system including the two northern Gorzano and Redentore‐Vettoretto faults (NGF and RVF) which merge into a single WSW dipping fault surface at the hypocentral depth (8 km). The retrieved best fit coseismic surface deformation …
Scholar articles
G Lavecchia, R Castaldo, R de Nardis, V De Novellis… - Geophysical Research Letters, 2016