Low shear‐velocity zone in the Neapolitan‐area crust between the Campi Flegrei and Vesuvio volcanic areas     

Concettina Nunziata 《地学学报》2010,22(3):208-217

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Low VS crustal zones in the Campanian Plain (Southern Italy)     

Concettina Nunziata  Maria Rosaria Costanzo 《Mineralogy and Petrology》2010,100(3-4):215-225

Shear wave velocities of the lithospheric structure to 73 km depth have been defined along three profiles crossing the Campanian Plain (Southern Italy) from the simultaneous non linear inversion of the local and regional dispersion data. The former consist of group velocity dispersion data obtained from some seismic events which occurred at the borders of the Campanian Plain and recorded at Napoli, and the latter of group and phase dispersion data obtained in previous studies. The main features of the representative V_S models are a carbonate basement deepening to ～5 km in the central part of the Plain and a low velocity zone at a depth of ～15 km, rising to 7 km in the southern part, close to Somma-Vesuvio. The low velocity layer can be correlated with that found at ～10 km of depth below Campi Flegrei and the Neapolitan area, and at 5 km below the Somma-Vesuvio caldera area. Such regional velocity reduction can be associated to the presence of a zone with less than 5% partial melting that can be interpreted as magmatic reservoir of the Campanian volcanism.  相似文献   

Spectral Amplification Effects at Sellano,Central Italy,for the 1997–98 Umbria Seismic Sequence     

Nunziata  Concettina  Natale  Maddalena 《Natural Hazards》2004,33(3):365-378

The seismic events recorded at two accelerographs installed at Sellano (central Italy) during the 1997–1998 Umbria seismic sequence, one on detritic material, at the historical centre, and the other one on rock, about 200 m distant, were analysed in terms of spectral amplification of the historical centre site. Epicentres were mainly concentrated in the north and south-east directions of Sellano area. The SH wave component average amplifications were evaluated from the smoothed Fourier spectral ratios of the recordings on soil and rock sites, along the two main epicentral lines. Similar amplifications resulted, with two main peaks in the frequency range of 3–5 Hz, corresponding to the eigenfrequencies of the damaged buildings. Shear velocities of the shallowest 30 m of soils were obtained by FTAN measurements along refraction seismic spreadings, and utilized to compute spectral amplification of soil station to rock station along the geological cross sections. A good agreement was found between observed Fourier spectral ratios and the computed 2D amplification modelling, which explains the damage level of the historical buildings beside the degraded conditions of brick masonry.  相似文献   

Preface     

Giuliano F. Panza  Ivanka Paskaleva  Concettina Nunziata 《Pure and Applied Geophysics》2004,161(5-6):943-948

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