Velocity and attenuation tomography of the Umbria Marche 1997 fault system: Evidence of a fluid-governed seismic sequence
Language
English
Obiettivo Specifico
1.1. TTC - Monitoraggio sismico del territorio nazionale
Status
Published
JCR Journal
JCR Journal
Journal
Issue/vol(year)
1-2/ 476 (2009)
Publisher
Elsevier
Pages (printed)
73-84
Date Issued
October 15, 2009
Abstract
The 1997 Umbria Marche is probably the best ever monitored normal faulting seismic sequence. Seismicity migration and multiple main shocks characterize the activation of a 40-km-long system of contiguous fault segments, as documented by seismological data. Many authors as indicative of fault weakening by fluids migration have interpreted this behaviour. In this study, we create a new catalogue of high quality P- and S-wave arrival times merging data recorded by permanent and temporary stations to improve the resolution of velocity and attenuation models and earthquake locations. We show that the relocated earthquakes and the joint interpretation of P- and S-wave velocity and attenuation models help in understanding the faulting processes, revealing new details of the geometry of the main faults and physical state of fluids within the crustal volume. We observe that large aftershocks occur on the top and within the Triassic evaporitic layer, a rock volume locally characterised by fluid over-pressured, as evidenced by high VP/VS and low QP/QS anomalies. Velocity and attenuation heterogeneities are evidence that the migration of fluid pressure along the fault system is the driving mechanism of the prolonged earthquake sequence.
References
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earthquake sequence: relationship between round deformation and seismogenic
structures. Geophys. Res. Lett. 26, 895–898.
Collettini, C., De Paola, N., Faulkner, D.R., 2009. Insights on the geometry and mechanics
of the Umbria-Marche earthquakes (Central Italy) from the integration of field and
laboratory data. Tectonophysics 476 (1–2), 114–124.
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attenuation structure from the inversion of microearthquake pulse width data: Qp
imaging and inferences on the thermal state of the Campi Flegrei caldera (southern
Italy). J. Geophys. Res. 106 (B8), 16265–16286. doi:10.1029/2000JB900462.
De Martini, P.M., Pino, N.A., Valensise, G., Mazza, S., 2003. Geodetic and seismological
evidence for slip variability along a blind normal fault in the Umbria-Marche 1997–
1998 earthquakes (central Italy). Geophys. J. Int. 155, 819–829.
De Paola, N., Collettini, C., Faulkner, D.R., Trippetta, F., 2008. Fault zone architecture and
deformation processes within evaporitic rocks in the upper crust. Tectonics 27,
TC4017. doi:10.1029/2007TC002230.
Deschamps, A., Courboulex, F., Gaffet, S., Lomax, A., Virieux, J., Amato, A., Azzara, R.,
Castello, B., Chiarabba, C., Cimini, G.B., Cocco, M., Di Bona, M., Margheriti, L., Mele, F.,
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distribution of seismic activity during the Umbria-Marche crisis 1997. J. Seismol.
4, 377–386.
Di Stefano, R., Kissling, E., Alderson, F., Baccheschi, P., Chiarabba, C., 2006. Automatic
seismic phase picking and consistent observation error assessment: application to
Italian Seismicity. Geophys. J. Int. 165 (1), 121–134.
Dvorkin, J., Mavko, G., Nur, A., 1999. Overpressure detection from compressional and
shear wave data. Geophys. Res. Lett. 26, 3417–3420.
Eberhart-Phillips, D., Chadwick, M., 2002. Three-dimensional attenuation model of the
shallow Hikurangi subduction zone in the Raukumara Peninsula, New Zealand.
J. Geophys. Res. 107 (B2), 2033. doi:10.1029/2000JB000046.
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11843–11862. doi:10.1029/96JB03555.
Hauksson, E., Shearer, P., 2006. Attenuation models (Qp and Qs) in three-dimensions of
the southern California crust: Inferred fluid saturation at seismogenic depths.
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