Abstract
In the framework of the UPStrat-MAFA project, a seismic hazard assessment has been undertaken in the volcanic region of Mt. Etna as a first step in studies aimed at evaluating the risk on an urban scale. The analysis has been carried out with the SASHA code which uses macroseismic data in order to calculate, starting from the site seismic history, the maximum intensity value expected in a given site with a probability of exceedance of 10 % (Iref), for a fixed exposure time. Depending on the aims of the project, hazard is estimated for local volcano-tectonic seismicity and short exposure times (10 and 30 years), without taking into account the contribution of “regional” events characterized by much longer recurrence times. Results from tasks A, B and D of the project have produced an updated macroseismic dataset, better performing attenuation models and new tools for SASHA, respectively. The maps obtained indicate that the eastern flank of Etna, the most urbanized sector of the volcano, is characterized by a high level of hazard with Iref values up to degree VIII EMS, and even IX EMS locally. The disaggregated data analysis allows recognizing the “design earthquake” and the seismogenic fault which most contribute to the hazard at a site-scale. The latter analysis is the starting point to select the scenario earthquake to be used in the analyses of tasks C and F of the project dealing with, respectively, synthetic ground motion simulations and the evaluation of the Disruption Index.
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References
Agostinelli C, Rotondi R (2015) Analysis of macroseismic fields using statistical data depth functions. Bull Earthq Eng 13(6). doi: 10.1007/s10518
Albarello D (2012) Design earthquake from site-oriented macroseismic hazard estimates. Boll Geof Teor Appl 53:7–18
Albarello D, D’Amico V (2004) Attenuation relationship of macroseismic intensity in Italy from probabilistic seismic hazard assessment. Boll Geof Teor Appl 45:271–284
Albarello D, Mucciarelli M (2002) Seismic hazard estimates using ill-defined macroseismic data at site. Pure Appl Geophys 159:1289–1304
Alparone S, Maiolino V, Mostaccio A, Scaltrito A, Ursino A, Barberi G, D′Amico S, Di Grazia G, Giampiccolo E, Musumeci C, Scarfì L, Zuccarello L (2015) Instrumental seismic catalogue of Mt Etna earthquakes (Sicily, Italy): ten years (2000-2010) of instrumental recordings. Ann Geophys 58
Azzaro R (1999) Earthquake surface faulting at Mount Etna volcano (Sicily) and implications for active tectonics. J Geodyn 28:193–213
Azzaro R (2004) Seismicity and active tectonics in the Etna region: constraints for a seismotectonic model. In: Bonaccorso A., Calvari S., Coltelli M., Del Negro C., Falsaperla S., (eds.) Mt. Etna: volcano laboratory, American Geophysical Union, Geophysical monograph, 143, pp 205–220
Azzaro R, Castelli V (2015) Materials for an earthquake catalogue of Mt. Etna volcano from 1600 to 1831. Quad Geofis 123:278
Azzaro R, Barbano MS, Antichi B, Rigano R (2000) Macroseismic catalogue of Mt. Etna earthquakes from 1832 to 1998. Acta Volcanol 12(1):3–36
Azzaro R, Barbano MS, D’Amico S, Tuvè T (2006) The attenuation of the seismic intensity in the Etna region and comparison with other Italian volcanic districts. Ann Geophys 49(4/5):1003–1020
Azzaro R, Barbano MS, D’Amico S, Tuvè T, Albarello D, D’Amico V (2008) First studies of probabilistic seismic hazard assessment in the volcanic region of Mt. Etna (Southern Italy) by means of macroseismic intensities. Boll Geof Teor Appl 49(1):77–91
Azzaro R, Branca S, Gwinner K, Coltelli M (2012a) The volcano-tectonic map of Etna volcano, 1:100.000 scale: morphotectonic analysis from high-resolution DEM integrated with geologic, active faulting and seismotectonic data. It J Geosci (Boll Soc Geol It) 13(1):153–170. doi:10.3301/IJG.2011.29
Azzaro R, D’Amico S, Peruzza L, Tuvè T (2012b) Earthquakes and faults at Mt. Etna: problems and perspectives for a time-dependent probabilistic seismic hazard assessment in a volcanic region. Boll Geof Teor Appl 53(1):75–88
Azzaro R, D’Amico S, Peruzza L, Tuvè T (2013a) Probabilistic seismic hazard at Mt. Etna (Italy): the contribution of local fault activity in mid-term assessment. J Volcanol Geoth Res 251:158–169
Azzaro R, D’Amico S, Rotondi R, Tuvè T, Zonno G (2013b) Forecasting seismic scenarios on Etna volcano (Italy) through probabilistic intensity attenuation models: a Bayesian approach. J Volcanol Geoth Res 251:149–157
CMTE Working Group (2014) Catalogo Macrosismico dei Terremoti Etnei, 1832–2013. INGV Catania. http://www.ct.ingv.it/macro/
D’Amico V, Albarello D (2008) SASHA: a computer program to assess seismic hazard from intensity data. Seismol Res Lett 79(5):663–671
D’Amico V, Albarello D, Sigbjörnsson R, Rupakhety R (2015a) Seismic hazard assessment for Iceland in terms of macroseismic intensity using a site approach. Bull Earthq Eng. doi:10.1007/s10518-015-9805-3
D’Amico S, Meroni F, Sousa ML, Zonno G (2015b) Building vulnerability and seismic risk analysis in the urban area of Mt. Etna volcano (Italy). Bull Earthq Eng. doi:10.1007/s10518-015-9804-4
Gómez Capera A, D’Amico V, Meletti C, Rovida A, Albarello D (2010) Seismic hazard assessment in terms of macroseismic intensity in Italy: a critical analysis from the comparison of different computational procedures. Bull Seism Soc Am 100(4):1614–1631
Grünthal G (1998) European macroseismic scale 1998 (EMS-98). European Seismological Commission, subcommission on Engineering Seismology, working Group Macroseismic Scales. Conseil de l’Europe, Cahiers du Centre Européen de Géodynamique et de Séismologie, 15, Luxembourg, pp. 99. http://www.ecgs.lu/cahiers-bleus/
Langer H, Tusa G, Scarfì L, Azzaro R (2015) Ground-motion scenarios on Mt Etna inferred from empirical relations and synthetic simulations. Bull Earthq Eng (under review)
Magri L, Mucciarelli M, Albarello D (1994) Estimates of site seismicity rates using ill defined macroseismic data. Pure Appl Geophys 143(4):617–632
Meroni F, Zonno G, Azzaro R, D’Amico S, Tuvè T, Oliveira CS, Ferreira MA., Mota de Sá F, Brambilla C, Rotondi R, Varini E (2015) The role of the urban system dysfunction in the assessment of seismic risk in the Mt. Etna area (Italy). Bull Earthq Eng 13(6). doi: 10.1007/s10518-015-9780-8
Rotondi R, Zonno G (2010) Guidelines to use the software PROSCEN. Open archives earth-prints repository INGV reports. http://hdl.handle.net/2122/6726
Rotondi R, Varini E, Brambilla C (2015) Probabilistic modelling of macroseismic attenuation and forecast of damage scenarios. Bull Earthq Eng. doi:10.1007/s10518-015-9781-7
Rovida A, Camassi R, Gasperini P, Stucchi M (eds.) (2011) CPTI11, the 2011 version of the Parametric catalogue of Italian earthquakes. Milano, Bologna. doi: 10.6092/INGV.IT-CPTI11. http://emidius.mi.ingv.it/CPTI
Stucchi M, Meletti C, Montaldo V, Crowley H, Calvi GM, Boschi E (2011) Seismic hazard assessment (2003–2009) for the Italian building code. Bull Seism Soc Am 101(4):1885–1911
Zonno G, Rotondi R, Brambilla C (2009) Mining macroseismic fields to estimate the probability distribution of the intensity at site. Bull Seismol Soc Am 98(5):2876–2892
Zonno G, Azzaro R, Bianco F, Cusano P, D’Amico S, D’Amico V, Falsaperla S, Galluzzo D, Langer H, Meroni F, Musacchio G, Nave R, Sansivero F, Scarfì L, Rotondi R, Brambilla C, Varini E, Oliveira CS, Ferreira MA, Lopes M, Mota de Sà F, Nunes JC, Carvalho A., Sousa ML, Raposo S, Garcia-Fernandez M, Beltran A,. Jenni J, Jimenez MJ, Sigbjörnsson R, Bernhardsdottir AE, Olafsson S, Rupakhety R, Sigurdsson SU, Thorvaldsdottir S, Albarello D (2012) Urban disaster prevention strategies using macroseismic fields and fault sources, 15th world conference on earthquake engineering (WCEE), 24–28 September 2012, Lisbon (Portugal). http://www.iitk.ac.in/nicee/wcee/article/WCEE2012_0678.pdf
Acknowledgments
This study was funded by the EU Civil Protection Financial Instrument, in the framework of the European project ‘Urban Disaster Prevention Strategies using Macroseismic Fields and Fault Sources’ (UPStrat-MAFA), Grant Agreement No. 23031/2011/613486/SUB/A5. M.S. Barbano and an anonymous referee are thanked for their suggestions that improved the paper.
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Azzaro, R., D’Amico, S. & Tuvè, T. Seismic hazard assessment in the volcanic region of Mt. Etna (Italy): a probabilistic approach based on macroseismic data applied to volcano-tectonic seismicity. Bull Earthquake Eng 14, 1813–1825 (2016). https://doi.org/10.1007/s10518-015-9806-2
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DOI: https://doi.org/10.1007/s10518-015-9806-2