We reconstruct the 3D fault model of the structures causative of the 2010-2014 Pollino seismic activity by integrating structural-geological and high-resolution seismological data. We constrained the model at the surface with fault-slip data, and at depth, by using the distributions of selected high-quality relocated hypocenters. Relocations were performed through the non-linear Bayloc algorithm, followed by the double-difference relative location method HypoDD applied to a 3D P-wave velocity model. Geological and seismological data highlight an asymmetric active extensional fault system characterized by an E-to NNE-dipping low-Angle detachment, with high-Angle synthetic splays, and SW-to WSW-dipping, high-Angle antithetic faults. Hypocenter clustering and the time-space evolution of the seismicity suggest that two sub-parallel WSW-dipping seismogenic sources, the Rotonda-Campotenese and Morano-Piano di Ruggio faults, are responsible for the 2010-2014 seismicity. The area of the seismogenic patches obtained projecting the hypocenters of the early aftershocks on the 3D fault planes, are consistent with the observed magnitude of the strongest events (MwCombining double low line5.2, and MwCombining double low line4.3). Since earthquake-scaling relationships provide maximum expected magnitudes of MwCombining double low line6.4 for the Rotonda-Campotenese and MwCombining double low line6.2 for the Morano-Piano di Ruggio faults, we may suppose that, during the sequence, the two structures did not entirely release their seismic potential. The reconstructed 3D fault model also points out the relationships between the activated fault system and the western segment of the Pollino Fault. The latter was not involved in the recent seismic activity but could have acted as a barrier to the southern propagation of the seismogenic faults, limiting their dimensions and the magnitude of the generated earthquakes.

Structural complexities and tectonic barriers controlling recent seismic activity in the Pollino area (Calabria–Lucania, southern Italy) – constraints from stress inversion and 3D fault model building

Cristina Totaro
Secondo
;
Barbara Orecchio;Debora Presti;
2022-01-01

Abstract

We reconstruct the 3D fault model of the structures causative of the 2010-2014 Pollino seismic activity by integrating structural-geological and high-resolution seismological data. We constrained the model at the surface with fault-slip data, and at depth, by using the distributions of selected high-quality relocated hypocenters. Relocations were performed through the non-linear Bayloc algorithm, followed by the double-difference relative location method HypoDD applied to a 3D P-wave velocity model. Geological and seismological data highlight an asymmetric active extensional fault system characterized by an E-to NNE-dipping low-Angle detachment, with high-Angle synthetic splays, and SW-to WSW-dipping, high-Angle antithetic faults. Hypocenter clustering and the time-space evolution of the seismicity suggest that two sub-parallel WSW-dipping seismogenic sources, the Rotonda-Campotenese and Morano-Piano di Ruggio faults, are responsible for the 2010-2014 seismicity. The area of the seismogenic patches obtained projecting the hypocenters of the early aftershocks on the 3D fault planes, are consistent with the observed magnitude of the strongest events (MwCombining double low line5.2, and MwCombining double low line4.3). Since earthquake-scaling relationships provide maximum expected magnitudes of MwCombining double low line6.4 for the Rotonda-Campotenese and MwCombining double low line6.2 for the Morano-Piano di Ruggio faults, we may suppose that, during the sequence, the two structures did not entirely release their seismic potential. The reconstructed 3D fault model also points out the relationships between the activated fault system and the western segment of the Pollino Fault. The latter was not involved in the recent seismic activity but could have acted as a barrier to the southern propagation of the seismogenic faults, limiting their dimensions and the magnitude of the generated earthquakes.
2022
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11570/3221864
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