Abstract
The 2009 L’Aquila earthquake determined ground cracks in the area of San Gregorio, along a normal fault branch NW–SE trending and SW dipping. We dug two paleoseismological trenches across the fault to investigate its Late Quaternary activity and to verify whether the co-seismic ground ruptures could be effectively related to the fault activation. The trenches showed that, in the past few millennia, the fault branch may have been responsible for surface displacement much larger than that determined by the 2009 earthquake. Moreover, geological/geomorphological field survey defined that the central portion of the structure is utilised in its shallowest portion as sliding plane of a large-scale gravitational mass movement. In particular, one of the paleoseismological trenches revealed that the large scale mass wasting is probably characterised by both continuous displacement and abrupt events of movement. Seismological investigations defined small amplification on rock site along the investigated fault, to be likely related to the joint and fracture condition determined by the fault activity.
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Acknowledgement
The authors thank the association “San Gregorio Rinasce” and Maria Paola Mastrosa, as well as the municipality offices of L’Aquila (Assessore Dr. Pietro Di Stefano) for the effort lavished for the realisation of this study. The manuscript has been improved by thorough and useful revisions of Convener Prof. Paolo Boncio and of an anonymous reviewer. The field studies benefited the helpful discussion of Dr. Fabrizio Galadini and of many other colleagues of INGV. We acknowledge Dr. Emanuela Ceccaroni and Dr. Daniela Villa for the archaeological determinations. The work has been supported by “Progetto Abruzzo” INGV project, coordinator Dr. Gianluca Valensise.
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Gori, S. et al. (2015). Active Normal Faulting and Large-Scale Mass Wasting in Urban Areas: The San Gregorio Village Case Study (L’Aquila, Central Italy). Methodological Insight for Seismic Microzonation Studies. In: Lollino, G., Manconi, A., Guzzetti, F., Culshaw, M., Bobrowsky, P., Luino, F. (eds) Engineering Geology for Society and Territory - Volume 5. Springer, Cham. https://doi.org/10.1007/978-3-319-09048-1_197
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DOI: https://doi.org/10.1007/978-3-319-09048-1_197
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