Your search keyword '"Daniela Famiani"' showing total 4 results

1. A geophysical multidisciplinary approach to investigate the shallow subsoil structures in volcanic environment: The case of Ischia Island

Author

Lucia, Nardone, primary, Maurizio, Vassallo, additional, Giovanna, Cultrera, additional, Vincenzo, Sapia, additional, Simona, Petrosino, additional, Marta, Pischiutta, additional, Mauro, Di Vito, additional, Sandro, de Vita, additional, Danilo, Galluzzo, additional, Giuliano, Milana, additional, Eliana, Bellucci Sessa, additional, Antonella, Bobbio, additional, Paola, Bordoni, additional, Fabrizio, Cara, additional, Antonio, Carandente, additional, Riccardo, Civico, additional, Rocco, Cogliano, additional, Paola, Cusano, additional, Giuseppe, Di Giulio, additional, Roberta, Esposito, additional, Daniela, Famiani, additional, Antonio, Fodarella, additional, Fabio, Giannattasio, additional, Marco, Marchetti, additional, Enrica, Marotta, additional, Milena, Moretti, additional, Ferdinando, Napolitano, additional, Stefania, Pucillo, additional, Gaetano, Riccio, additional, Vincenzo, Sepe, additional, Gabriele, Tarabusi, additional, and Anna, Tramelli, additional

Published

2023

2. Results from shallow geophysical investigations in the northwestern sector of the island of Malta

Author

Sebastiano D'Amico, Daniela Famiani, Sara Amoroso, Antonio Rovelli, G. Di Giulio, Daniela Farrugia, Fabrizio Cara, Deborah Di Naccio, Pauline Galea, F. Villani, Maurizio Vassallo, Marta Pischiutta, Luciana Cantore, Alessia Mercuri, and Aybige Akinci

Subjects

010504 meteorology & atmospheric sciences, Lithology, Outcrop, Ambient noise level, Geophysics, 010502 geochemistry & geophysics, 01 natural sciences, Seismic hazard, Geochemistry and Petrology, Surface wave, Seismic risk, Subsoil, Bay, Geology, Seismology, 0105 earth and related environmental sciences

Abstract

We performed geophysical investigations in the northwestern sector of the island of Malta to reconstruct velocity-depth models and provide shear-wave velocity profiles. We have chosen two sites, one located in Rabat (Malta) and another in the Golden Bay area. We used both active (seismic and electrical 2D-tomography, Multichanel Analysis of Surface Waves – MASW) and passive (2D arrays and single-station measurements using ambient noise) geophysical methods. Consistently with previous studies performed in this part of Malta, we have found that both sites are characterized by site resonance in the frequency range 1–2 Hz as an effect of the local lithostratigraphic succession that shows an impedance contrast at about 60–90 m depth. This resonance effect can have important implications on both seismic hazard as well as seismic risk evaluation of the region since the amplified frequency range coincides with the resonance frequencies typical of 5–10 storey buildings which are very diffuse in the Maltese Islands, especially after intense recent urbanization. We also highlight the importance of performing seismic velocity measurements even at rock sites. As an example, the Golden Bay site would be classified as class “A” following the EuroCode EC8 when considering only the outcropping lithology represented by limestone rocks. Conversely the subsoil characterization provided by this study has revealed that this site falls in the EC8 class “B”, stressing the importance of direct geophysical measurements since the a-priori assignment to A-class could lead to wrong estimates in evaluating the site response.

Published

2017

3. Site effects and widespread susceptibility to permanent coseismic deformation in the Avezzano town (Fucino basin, Central Italy): Constraints from detailed geological study

Author

G. Rosatelli, Antonio De Santis, Fabrizio Cara, Deborah Di Naccio, Paolo Boncio, Giuliano Milana, Francesca Liberi, Fabrizio Galadini, Giuseppe Di Giulio, Maurizio Vassallo, and Daniela Famiani

Subjects

geography, geography.geographical_feature_category, Seismic microzonation, Deformation (mechanics), Geology, Fault (geology), Structural basin, Geotechnical Engineering and Engineering Geology, Seismic hazard, Epicenter, Quaternary, Surface deformation, Seismology

Abstract

The Quaternary Fucino basin in the central Apennines of Italy was struck by one of the strongest Italian earthquakes of the last millennium (1915, Mw 7.0). The Avezzano town, ~ 9.0 km away from the epicentre, was completely destroyed. In the surrounding area sizable coseismic surface deformation were catalogued, attesting the severity of earthquake, the proximity to the causative fault and the geological and geomorphological complexity of a basin filled by thick lacustrine sediments. The Avezzano area provides a case study to understand how shallow subsurface geology influences site effects in a deep Quaternary continental basin environment, thus being of potential interest for similar geologic contexts worldwide. Within the investigated area, different possible earthquake-induced effects can occur, such as a) stratigraphic amplifications in a wide range of resonance frequencies (from 0.4 to 15–20 Hz); b) liquefaction; c) coseismic surface faulting; d) basin-edge effects; and e) slope instability. We present and discuss results of basic seismic microzonation study (SM) of the Avezzano area, focusing on geologic constraints aimed at the reconstruction of the shallow subsurface geology, and associated potential for local seismic hazard. We adopted an interdisciplinary approach based on detailed geological-structural, geophysical and seismic analyses to investigate the seismic response of high-seismic risk area, such as the Avezzano town, given the urban and industrial expansion since the last century. We discuss methodological approaches and their uncertainties.

Published

2020

4. Geophysical reconstruction of buried geological features and site effects estimation of the Middle Valle Umbra basin (central Italy)

Author

Carlo Alberto Brunori, Massimiliano Rinaldo Barchi, Francesco Mirabella, Laura Melelli, Daniela Famiani, Marco Caciagli, Fabrizio Cara, and Luca Pizzimenti

Subjects

Ambient noise level, 0211 other engineering and technologies, Sediment, Single station, Geology, 02 engineering and technology, Geophysics, Structural basin, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, 01 natural sciences, Sequence (geology), Range (statistics), Dispersion (water waves), Quaternary, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences

Abstract

The Middle Valle Umbra (central Italy) is a NW-SE 20 km long and 10 km wide Quaternary extensional basin located in the internal sector of the Apennine chain. This area historically experienced strong earthquakes that caused significant damages to the outstanding historical heritage. The same area has been recently hit by the 2016 seismic sequence of Amatrice-Visso-Norcia. With the aim to reconstruct the buried geological structures of the basin, a multi-technique geophysical approach was performed. An extended campaign of ambient noise measurements was carried out to investigate the subsurface setting, and to identify the main geological units. We performed three 2D passive arrays to analyze two different sites within the basin; their aperture was between 150 and 752 m for one site and of 48 m for the other site, to characterize the geological units in terms of sediment thickness and shear-wave velocity profile. Data collected were processed with f-k and MSPAC analysis to extract dispersion curves with good resolution in a frequency range of 0.5–10 Hz and 4.5–18 Hz for the two sites respectively. Spectral ratios were computed for every single station ambient noise measurement performed and for all the stations of the bigger array. Our final target is to extend these results to the whole valley, in order to retrieve the attitude of the main geological units and propose a reliable reconstruction of the subsurface geometry of the basin. Another point of this work is to evaluate the site response in the middle of the valley through the analysis of the earthquakes recorded by the accelerometric station IT.CSA (belonging to the Italian Civil Protection) and the corresponding recordings of the nearby rock station IT.ASS.

Published

2020