Crustal structure and seismotectonics of central Sicily (southern Italy): new constraints from instrumental seismicity
Author(s)
Language
English
Obiettivo Specifico
1.1. TTC - Monitoraggio sismico del territorio nazionale
3.2. Tettonica attiva
3.3. Geodinamica e struttura dell'interno della Terra
5.2. TTC - Banche dati di sismologia strumentale
Status
Published
JCR Journal
JCR Journal
Peer review journal
Yes
Issue/vol(year)
3/189 (2012)
ISSN
0956-540X
Electronic ISSN
1365-246X
Publisher
Wiley-Blackwell
Pages (printed)
1237-2252
Date Issued
June 2012
Subjects
Abstract
In this paper, we propose a new model of the crustal structure and seismotectonics for central Sicily (southern Italy) through the analysis of the depth distribution and kinematics of the instrumental seismicity, occurring during the period from 1983 to 2010, and its comparison with individual geological structures that may be active in the area. The analysed data set consists of 392 earthquakes with local magnitudes ranging from 1.0 to 4.7. We defined a new,
detailed 1-D velocity model to relocate the earthquakes that occurred in central Sicily, and we calculated a Moho depth of 37 km and a mean VP/VS ratio of 1.73. The relocated seismic events are clustered mainly in the area north of Caltanissetta (e.g. Mainland Sicily) and in the northeastern sector (Madonie Mountains) of the study area; only minor and greatly dispersed seismicity is located in the western sector, near Belice, and along the southern coast, between
Gela and Sciacca. The relocated hypocentral distribution depicts a bimodal pattern: 50 per cent of the events occur within the upper crust at depths less than ~16 km, 40 per cent of the events occur within the middle and depth crust, at depths between 16 and 32 km, and the remaining 10 per cent occur at subcrustal depths. The energy release pattern shows a similar depth distribution.
On the basis of the kinematic analysis of 38 newly computed focal plane solutions, two major geographically distinct seismotectonic domains are distinguished: the Madonie Mountain domain, with prevalent extensional and extensional-oblique kinematics associated with upper crust Late Pliocene–Quaternary faulting, and the Mainland Sicily domain, with prevalent compressional and compressional-oblique kinematics associated with thrust faulting, at mid to deep crust depth, along the north-dipping Sicilian Basal Thrust (SBT). The stress inversion
of the Mainland Sicily focal solutions integrated with neighbouring mechanisms available in the literature highlights a regional homogeneous compressional tensor, with a subhorizontal NNW–SSE-striking σ1 axis. In addition, on the basis of geodetic data, the Mainland Sicily domain may be attributed to the SSE-ward thrusting of the Mainland Sicily block along the SBT plane. Seismogenic shearing along the SBT at mid-crustal depths was responsible for the
unexpected Belice 1968 earthquake (Mw 6.1), with evident implications in terms of hazard
assessment.
detailed 1-D velocity model to relocate the earthquakes that occurred in central Sicily, and we calculated a Moho depth of 37 km and a mean VP/VS ratio of 1.73. The relocated seismic events are clustered mainly in the area north of Caltanissetta (e.g. Mainland Sicily) and in the northeastern sector (Madonie Mountains) of the study area; only minor and greatly dispersed seismicity is located in the western sector, near Belice, and along the southern coast, between
Gela and Sciacca. The relocated hypocentral distribution depicts a bimodal pattern: 50 per cent of the events occur within the upper crust at depths less than ~16 km, 40 per cent of the events occur within the middle and depth crust, at depths between 16 and 32 km, and the remaining 10 per cent occur at subcrustal depths. The energy release pattern shows a similar depth distribution.
On the basis of the kinematic analysis of 38 newly computed focal plane solutions, two major geographically distinct seismotectonic domains are distinguished: the Madonie Mountain domain, with prevalent extensional and extensional-oblique kinematics associated with upper crust Late Pliocene–Quaternary faulting, and the Mainland Sicily domain, with prevalent compressional and compressional-oblique kinematics associated with thrust faulting, at mid to deep crust depth, along the north-dipping Sicilian Basal Thrust (SBT). The stress inversion
of the Mainland Sicily focal solutions integrated with neighbouring mechanisms available in the literature highlights a regional homogeneous compressional tensor, with a subhorizontal NNW–SSE-striking σ1 axis. In addition, on the basis of geodetic data, the Mainland Sicily domain may be attributed to the SSE-ward thrusting of the Mainland Sicily block along the SBT plane. Seismogenic shearing along the SBT at mid-crustal depths was responsible for the
unexpected Belice 1968 earthquake (Mw 6.1), with evident implications in terms of hazard
assessment.
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Incipient extension along the active convergent margin of Nubia
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doi:10.1029/2009TC002559.
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Cassinis, R., Scarascia, S. & Lozej, A., 2005. Review of seismic wide-angle
reflection–refraction (WARR) results in the Italian region (1956–1987),
in CROP PROJECT: Deep Seismic Exploration of the Central Mediterranean
and Italy, pp. 31–56, ed. Finetti, I.R., Elsevier, Amsterdam.
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della sismicit`a italiana 1981–2002. Versione 1.0 (INGV-CNT, Roma).
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and structure of the central Mediterranean: Sicily and its offshore area,
Tectonophysiscs, 260, 291–323.
Catalano, S., Torrisi, S. & Ferlito, C., 2004. The relationship between Late
Quaternary deformation and volcanism of Mt. Etna (eastern Sicily): new
evidence from the sedimentary substratum in the Catania region, J. Volc.
Geotherm. Res., 132, 311–334.
Chiarabba, C. & Frepoli, A, 1997. Minimum 1D velocity models in Central
and Southern Italy: a contribution to better constrain hypocentral
determinations, Annali di Geofisica, XL(4), 937–954.
Chiarabba, C., Jovane, L. & Di Stefano, R., 2005. A new view of Italian
seismicity using 20 years of instrumental recordings, Tectonophysics, 395,
251–268.
Chiarabba, C., Piccinini, D. & De Gori, P., 2009. Velocity and attenuation
tomography of the Umbria Marche 1997 fault system: evidence of a
fluid-governed seismic sequence, Tectonophysics, 476, 73–84.
Chironi, C., De Luca, L., Guerra, I., Luzio, D., Moretti, A., Vitale, M. &
Sealand Group, 2000. Crustal stuctures of the Tyrrhenian Sea and Sicily
Channel on the basis of the M25, M26, M28, M39 WARR profiles, Boll.
Soc. Geol. Ital., 119, 189–203.
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