Large-Depth Ground-Penetrating Radar for Investigating Active Faults: The Case of the 2017 Casamicciola Fault System, Ischia Island (Italy)-Reference-Cited by-同舟云学术

Large-Depth Ground-Penetrating Radar for Investigating Active Faults: The Case of the 2017 Casamicciola Fault System, Ischia Island (Italy)

Published:2024-07-24 Issue:15 Volume:14 Page:6460
ISSN:2076-3417
Container-title:Applied Sciences
language:en
Short-container-title:Applied Sciences

Author:

Paoletti Valeria¹²^ORCID,D’Antonio Donato³,De Natale Giuseppe²^ORCID,Troise Claudia²^ORCID,Nappi Rosa²^ORCID

Affiliation:

1. Dipartimento di Scienze della Terra, dell’Ambiente e delle Risorse (DISTAR), University of Naples Federico II, Via Vicinale Cupa Cintia, 21, 80126 Naples, Italy

2. Istituto Nazionale di Geofisica e Vulcanologia, Sezione di Napoli Osservatorio Vesuviano, Via Diocleziano, 328, 80124 Naples, Italy

3. Geophysical Consultant, Vicolo III San Nicola, 2, 86013 Gambatesa, Italy

Abstract

We conducted large-depth Ground-Penetrating Radar investigations of the seismogenic Casamicciola fault system at the volcanic island of Ischia, with the aim of constraining the source characteristics of this active and capable fault system. On 21 August 2017, a shallow (hypocentral depth of 1.2 km), moderate (Md = 4.0) earthquake hit the island, causing severe damage and two fatalities. This was the first damaging earthquake recorded on the volcanic island of Ischia from the beginning of the instrumental era. Our survey was performed using the Loza low-frequency (15–25 MHz) GPR system calibrated by TDEM results. The data highlighted variations in the electromagnetic signal due to the presence of contacts, i.e., faults down to a depth larger than 100 m below the surface. These signal variations match with the position of the synthetic and antithetic active fault system bordering the Casamicciola Holocene graben. Our study highlights the importance of employing large-depth Ground-Penetrating Radar geophysical techniques for investigating active fault systems not only in their shallower parts, but also down to a few hundred meters’ depth, providing a contribution to the knowledge of seismic hazard studies on the island of Ischia and elsewhere.

Funder

PON OT4CLIMA

Multidisciplinary Approach for Capable Fault system study at Ischia Island

Publisher

MDPI AG

Link

https://www.mdpi.com/2076-3417/14/15/6460/pdf

Reference43 articles.

1. Nappi, R., Paoletti, V., D’Antonio, D., Soldovieri, F., Capozzoli, L., Ludeno, G., Porfido, S., and Michetti, A.M. (2021). Joint Interpretation of Geophysical Results and Geological Observations for Detecting Buried Active Faults: The Case of the “Il Lago” Plain (Pettoranello del Molise, Italy). Remote Sens., 13.

2. Kopeikin, V.V., Morozov, P.A., Edemskiy, F.D., Edemskiy, D.E., Pavloskii, B.R., and Sungurov, Y.A. (2012, January 4–8). Experience of GPR Application in Oil-and-Gas Industry. Proceedings of the 14th International Conference on Ground Penetrating Radar (GPR), Shanghai, China.

3. The 21 August 2017 Md 4.0 Casamicciola Earthquake: First Evidence of Coseismic Normal Surface Faulting at the Ischia Volcanic Island;Nappi;Seismol. Res. Lett.,2018

4. Nappi, R., Nave, R., Gaudiosi, G., Alessio, G., Siniscalchi, V., Marotta, E., Civico, R., Pizzimenti, L., Peluso, R., and Belviso, P. (2020). 959 Coseismic Evidence of Surface Faulting at the Ischia Volcanic Island after the 21 August 2017 Md 4.0 Casamicciola Earthquake. PANGAEA.

5. Nappi, R., Porfido, S., Paganini, E., Vezzoli, L., Ferrario, M.F., Gaudiosi, G., Alessio, G., and Michetti, A.M. (2021). The 2017, Md=4.0, Casamicciola earthquake: Esi-07 scale evaluation and implications for the source model. Geosciences, 11.