From seismic input to damage scenario: an example for the pilot area of Mt. Etna volcano (Italy) in the KnowRISK Project

In this paper we present a multidisciplinary approach aimed at assessing seismic risk due to non-structural damage. The study has been carried out in the framework of the European KnowRISK Project and focuses on the pilot area of Mt. Etna volcano (Italy). Both instrumental data and as well as macros...

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Published in:Italian Journal of Geosciences
Main Authors: Azzaro, Raffaele, D'Amico, Salvatore, Langer, Horst, Meroni, Fabrizio, Squarcina, Thea, Tusa, Giuseppina, Tuvè, Tiziana, Rupakhety, R.
Other Authors: Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione OE, Catania, Italia, Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione Milano, Milano, Italia, Earthquake Engineering Research Centre (EERC) - University of Iceland
Format: Conference Object
Language:English
Published: 2017
Subjects:
Mt. Etna
KnowRisk Project
seismic scenarios
ground motion parameters
risk map
Etna
Iceland
Online Access:http://hdl.handle.net/2122/11032
http://icesd.hi.is/wp-content/uploads/2017/06/AID_40.pdf
id ftingv:oai:www.earth-prints.org:2122/11032
record_format openpolar
institution Open Polar
collection Earth-Prints (Istituto Nazionale di Geofisica e Vulcanologia)
op_collection_id ftingv
language English
topic Mt. Etna
KnowRisk Project
seismic scenarios
ground motion parameters
risk map
spellingShingle Mt. Etna
KnowRisk Project
seismic scenarios
ground motion parameters
risk map
Azzaro, Raffaele
D'Amico, Salvatore
Langer, Horst
Meroni, Fabrizio
Squarcina, Thea
Tusa, Giuseppina
Tuvè, Tiziana
Rupakhety, R.
From seismic input to damage scenario: an example for the pilot area of Mt. Etna volcano (Italy) in the KnowRISK Project
topic_facet Mt. Etna
KnowRisk Project
seismic scenarios
ground motion parameters
risk map
description In this paper we present a multidisciplinary approach aimed at assessing seismic risk due to non-structural damage. The study has been carried out in the framework of the European KnowRISK Project and focuses on the pilot area of Mt. Etna volcano (Italy). Both instrumental data and as well as macroseismic observations provide unique opportunities for testing innovative and classical approaches for assessing seismic risk. Starting from the seismic hazard analysis, we first identify a test site (Zafferana) affected by non-structural damage. We produce seismic scenarios based on macroseismic and ground-motion data and finally obtain the relevant risk map using the Italian census data to classify buildings into vulnerability classes and a model to predict damage distribution. Published Reykjavik, Iceland 4T. Sismologia, geofisica e geologia per l'ingegneria sismica
author2 Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione OE, Catania, Italia
Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione Milano, Milano, Italia
Earthquake Engineering Research Centre (EERC) - University of Iceland
format Conference Object
author Azzaro, Raffaele
D'Amico, Salvatore
Langer, Horst
Meroni, Fabrizio
Squarcina, Thea
Tusa, Giuseppina
Tuvè, Tiziana
Rupakhety, R.
author_facet Azzaro, Raffaele
D'Amico, Salvatore
Langer, Horst
Meroni, Fabrizio
Squarcina, Thea
Tusa, Giuseppina
Tuvè, Tiziana
Rupakhety, R.
author_sort Azzaro, Raffaele
title From seismic input to damage scenario: an example for the pilot area of Mt. Etna volcano (Italy) in the KnowRISK Project
title_short From seismic input to damage scenario: an example for the pilot area of Mt. Etna volcano (Italy) in the KnowRISK Project
title_full From seismic input to damage scenario: an example for the pilot area of Mt. Etna volcano (Italy) in the KnowRISK Project
title_fullStr From seismic input to damage scenario: an example for the pilot area of Mt. Etna volcano (Italy) in the KnowRISK Project
title_full_unstemmed From seismic input to damage scenario: an example for the pilot area of Mt. Etna volcano (Italy) in the KnowRISK Project
title_sort from seismic input to damage scenario: an example for the pilot area of mt. etna volcano (italy) in the knowrisk project
publishDate 2017
url http://hdl.handle.net/2122/11032
http://icesd.hi.is/wp-content/uploads/2017/06/AID_40.pdf
long_lat ENVELOPE(-19.191,-19.191,63.706,63.706)
geographic Etna
geographic_facet Etna
genre Iceland
genre_facet Iceland
op_relation International Conference on Earthquake Engineering and Structural Dynamics
Albarello D (2012) Design earthquake from site-oriented macroseismic hazard estimates. Boll. Geof. Teor. Appl 53(1):7-18 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(4):S0435 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 pp 205-220 Azzaro R, Barbano MS, D'Amico S, Tuvè T (2006) The attenuation of 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 49:77-91 Azzaro R, D'Amico S, Tuvè T (2011) Estimating the magnitude of historic earthquakes from macroseismic intensity data: new relationships for the volcanic region of Mount Etna (Italy). Seismol. Res. Lett 82(4):533-544 Azzaro R, Branca S, Gwinner K, Coltelli M (2012) 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. Ital. J. Geosci. (Boll. Soc. Geol. It.) 131(1):153–170, doi:10.3301/IJG.2011.29 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. Geotherm. 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. Geotherm. Res 251:149-157 Azzaro R, D'Amico S, Tuvè T (2016) Seismic hazard assessment in the volcanic region of Mt. Etna (Italy): a probabilistic approach based on macroseismic data applied to volcano-tectonic seismicity. Bull. Earth. Eng. 17(7):1813-1825 Benedetti D, Petrini V (1984) On seismic vulnerability of masonry buildings: proposal of an evaluation procedure, L'industria delle Costruzioni 18: pp 66-78 Bernardini A, Giovinazzi S, Lagomarsino S, Parodi S (2007) Matrici di probabilità di danno implicite nella scala EMS98. XII Convegno ANIDIS “L’ingegneria sismica in Italia”, Pisa, CD-ROM Bernardini A, Salmaso L, Solari A (2008) Statistical evaluation of vulnerability and expected seismic damage of residential buildings in the Veneto-Friuli area (NE Italy). Boll. Geof. Teor. Appl , 49 (3-4): 427-446 Boore DM (2009) Comparing stochastic point-source and finite-source ground-motion simulations: SMSIM and EXSIM. Bull Seism Soc Am 99:3202–3216 Chiauzzi L, Masi A, Mucciarelli M, Vona M, Pacor F, Cultrera G, Gallovic F, Emolo A (2012) Building damage scenarios based on exploitation of Housner intensity derived from finite faults ground motion simulations. Bull Earth Eng 10: 517–545. doi 10.1007/s10518-011-9309-8 CMTE Working Group (2017) Catalogo Macrosismico dei Terremoti Etnei, 1600–2013. INGV Catania. http://www.ct.ingv.it/macro/ Crowley H, Pinho R (2004) Period height relationship for existing European reinforced concrete buildings. J. Earth. Eng. 8:93–119 D’Amico S, Meroni F, Sousa ML, Zonno G (2016) Building vulnerability and seismic risk analysis in the urban area of Mt. Etna volcano (Italy). Bull. Earthquake Eng 14, (7): pp. 2031-2045 D'Amico V, Albarello D (2008) SASHA: a computer program to assess seismic hazard from intensity data. Seismol. Res. Lett 79 (5):663-671 Giampiccolo E, D'Amico S, Patanè D, Gresta S (2007) Attenuation and source parameters of shallow microearthquakes at Mt. Etna volcano (Italy). Bull. Seismol. Soc. Am 97(1B):184-197 Grünthal G, (eds.) (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/ ISTAT (1991) 13° censimento generale della popolazione, 1991. Dati sulle caratteristiche strutturale della popolazione e delle abitazioni, Roma Iwan WD (1997) Drift spectrum: measure of demand for earthquake ground motions. J. Struct. Eng. 123:397-404 Lagomarsino S, Giovinazzi S (2006) Macroseismic and mechanical models for the vulnerability and damage assessment of current buildings. Bull. Earthquake Eng 4: pp. 415-443 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 14(7):1917-1943, doi:10.1007/s10518-015-9823-1 McNutt SR (2005) Volcanic seismology. Annu. Rev. Earth Planet. Sci 32:461-491 Meroni F, Petrini V, Zonno G (1999) Valutazione della vulnerabilità di edifici su aree estese tramite dati ISTAT, Atti 9° Convegno Nazionale ANIDIS: L’ingegneria Sismica in Italia, Torino (CD-ROM) Meroni F, Petrini V, Zonno G (2000) Distribuzione nazionale della vulnerabilità media comunale in A.Bernardini (ed), La vulnerabilità degli edifici. CNR-GNDT, Roma, pp.105-131 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 (2016) The role of the urban system dysfunction in the assessment of seismic risk in the Mt. Etna area (Italy). Bull. Earthq. Eng 14(7):1979–2008, doi:10.1007/s10518-015-9780-8 Miranda E, Akkar S (2006) Generalized Interstory Drift Spectrum. Journal of Struct. Eng 840-852. doi:10.1061/ASCE0733-94452006132:6840 Rotondi R, Varini E, Brambilla C (2016) Probabilistic modelling of macroseismic attenuation and forecast of damage scenarios. Bull. Earthq. Eng 14(7):1777-1796, doi:10.1007/s10518-015-9781-7 Rotondi R, Zonno G (2004) Bayesian analysis of a probability distribution for local intensity attenuation. Ann. Geophys 47(5):1521-1540 Rovelli A, Bonamassa O, Cocco M, Di Bona M, Mazza S (1988) Scaling laws and spectral parameters of the ground motion in active extensional areas in Italy. Bull. Seismol. Soc. Am 78:530-560 Scarfì L, Langer H, Garcia-Fernandez M, Jimenez J. M (2016) Path effects and local elastic site amplification: two case studies on Mt Etna (Italy) and Vega Baja (SE Spain). Bull Earthquake Eng doi 10.1007/s10518-016-9883-x Sousa ML (2006) Risco Sísmico em Portugal Continental, PhD Thesis, IST, UTL, Lisbon, Portugal Sousa ML (2008) Annualized Economic and Human Earthquake Losses for the Portuguese Mainland, Proceedings of the 14EWEE, China Tusa G, Langer H (2016) Prediction of ground-motion parameters for the volcanic area of Mount Etna. J Seismol doi:10.1007/s10950-015-9508-x Wald DJ, Quitoriano V, Heaton TH, Kanamori H, Scrivner CW, Worden CB (1999) Trinet ‘ShakeMaps’: rapid generation of peak ground motion and intensity maps for earthquakes in southern California. Earthquake Spectra 15:537-555
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spelling ftingv:oai:www.earth-prints.org:2122/11032 2023-05-15T16:49:33+02:00 From seismic input to damage scenario: an example for the pilot area of Mt. Etna volcano (Italy) in the KnowRISK Project Azzaro, Raffaele D'Amico, Salvatore Langer, Horst Meroni, Fabrizio Squarcina, Thea Tusa, Giuseppina Tuvè, Tiziana Rupakhety, R. Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione OE, Catania, Italia Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione Milano, Milano, Italia Earthquake Engineering Research Centre (EERC) - University of Iceland 2017-06-12 http://hdl.handle.net/2122/11032 http://icesd.hi.is/wp-content/uploads/2017/06/AID_40.pdf en eng International Conference on Earthquake Engineering and Structural Dynamics Albarello D (2012) Design earthquake from site-oriented macroseismic hazard estimates. Boll. Geof. Teor. Appl 53(1):7-18 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(4):S0435 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 pp 205-220 Azzaro R, Barbano MS, D'Amico S, Tuvè T (2006) The attenuation of 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 49:77-91 Azzaro R, D'Amico S, Tuvè T (2011) Estimating the magnitude of historic earthquakes from macroseismic intensity data: new relationships for the volcanic region of Mount Etna (Italy). Seismol. Res. Lett 82(4):533-544 Azzaro R, Branca S, Gwinner K, Coltelli M (2012) 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. Ital. J. Geosci. (Boll. Soc. Geol. It.) 131(1):153–170, doi:10.3301/IJG.2011.29 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. Geotherm. 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. Geotherm. Res 251:149-157 Azzaro R, D'Amico S, Tuvè T (2016) Seismic hazard assessment in the volcanic region of Mt. Etna (Italy): a probabilistic approach based on macroseismic data applied to volcano-tectonic seismicity. Bull. Earth. Eng. 17(7):1813-1825 Benedetti D, Petrini V (1984) On seismic vulnerability of masonry buildings: proposal of an evaluation procedure, L'industria delle Costruzioni 18: pp 66-78 Bernardini A, Giovinazzi S, Lagomarsino S, Parodi S (2007) Matrici di probabilità di danno implicite nella scala EMS98. XII Convegno ANIDIS “L’ingegneria sismica in Italia”, Pisa, CD-ROM Bernardini A, Salmaso L, Solari A (2008) Statistical evaluation of vulnerability and expected seismic damage of residential buildings in the Veneto-Friuli area (NE Italy). Boll. Geof. Teor. Appl , 49 (3-4): 427-446 Boore DM (2009) Comparing stochastic point-source and finite-source ground-motion simulations: SMSIM and EXSIM. Bull Seism Soc Am 99:3202–3216 Chiauzzi L, Masi A, Mucciarelli M, Vona M, Pacor F, Cultrera G, Gallovic F, Emolo A (2012) Building damage scenarios based on exploitation of Housner intensity derived from finite faults ground motion simulations. Bull Earth Eng 10: 517–545. doi 10.1007/s10518-011-9309-8 CMTE Working Group (2017) Catalogo Macrosismico dei Terremoti Etnei, 1600–2013. INGV Catania. http://www.ct.ingv.it/macro/ Crowley H, Pinho R (2004) Period height relationship for existing European reinforced concrete buildings. J. Earth. Eng. 8:93–119 D’Amico S, Meroni F, Sousa ML, Zonno G (2016) Building vulnerability and seismic risk analysis in the urban area of Mt. Etna volcano (Italy). Bull. Earthquake Eng 14, (7): pp. 2031-2045 D'Amico V, Albarello D (2008) SASHA: a computer program to assess seismic hazard from intensity data. Seismol. Res. Lett 79 (5):663-671 Giampiccolo E, D'Amico S, Patanè D, Gresta S (2007) Attenuation and source parameters of shallow microearthquakes at Mt. Etna volcano (Italy). Bull. Seismol. Soc. Am 97(1B):184-197 Grünthal G, (eds.) (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/ ISTAT (1991) 13° censimento generale della popolazione, 1991. Dati sulle caratteristiche strutturale della popolazione e delle abitazioni, Roma Iwan WD (1997) Drift spectrum: measure of demand for earthquake ground motions. J. Struct. Eng. 123:397-404 Lagomarsino S, Giovinazzi S (2006) Macroseismic and mechanical models for the vulnerability and damage assessment of current buildings. Bull. Earthquake Eng 4: pp. 415-443 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 14(7):1917-1943, doi:10.1007/s10518-015-9823-1 McNutt SR (2005) Volcanic seismology. Annu. Rev. Earth Planet. Sci 32:461-491 Meroni F, Petrini V, Zonno G (1999) Valutazione della vulnerabilità di edifici su aree estese tramite dati ISTAT, Atti 9° Convegno Nazionale ANIDIS: L’ingegneria Sismica in Italia, Torino (CD-ROM) Meroni F, Petrini V, Zonno G (2000) Distribuzione nazionale della vulnerabilità media comunale in A.Bernardini (ed), La vulnerabilità degli edifici. CNR-GNDT, Roma, pp.105-131 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 (2016) The role of the urban system dysfunction in the assessment of seismic risk in the Mt. Etna area (Italy). Bull. Earthq. Eng 14(7):1979–2008, doi:10.1007/s10518-015-9780-8 Miranda E, Akkar S (2006) Generalized Interstory Drift Spectrum. Journal of Struct. Eng 840-852. doi:10.1061/ASCE0733-94452006132:6840 Rotondi R, Varini E, Brambilla C (2016) Probabilistic modelling of macroseismic attenuation and forecast of damage scenarios. Bull. Earthq. Eng 14(7):1777-1796, doi:10.1007/s10518-015-9781-7 Rotondi R, Zonno G (2004) Bayesian analysis of a probability distribution for local intensity attenuation. Ann. Geophys 47(5):1521-1540 Rovelli A, Bonamassa O, Cocco M, Di Bona M, Mazza S (1988) Scaling laws and spectral parameters of the ground motion in active extensional areas in Italy. Bull. Seismol. Soc. Am 78:530-560 Scarfì L, Langer H, Garcia-Fernandez M, Jimenez J. M (2016) Path effects and local elastic site amplification: two case studies on Mt Etna (Italy) and Vega Baja (SE Spain). Bull Earthquake Eng doi 10.1007/s10518-016-9883-x Sousa ML (2006) Risco Sísmico em Portugal Continental, PhD Thesis, IST, UTL, Lisbon, Portugal Sousa ML (2008) Annualized Economic and Human Earthquake Losses for the Portuguese Mainland, Proceedings of the 14EWEE, China Tusa G, Langer H (2016) Prediction of ground-motion parameters for the volcanic area of Mount Etna. J Seismol doi:10.1007/s10950-015-9508-x Wald DJ, Quitoriano V, Heaton TH, Kanamori H, Scrivner CW, Worden CB (1999) Trinet ‘ShakeMaps’: rapid generation of peak ground motion and intensity maps for earthquakes in southern California. Earthquake Spectra 15:537-555 http://hdl.handle.net/2122/11032 http://icesd.hi.is/wp-content/uploads/2017/06/AID_40.pdf open Mt. Etna KnowRisk Project seismic scenarios ground motion parameters risk map Conference paper 2017 ftingv https://doi.org/10.3301/IJG.2011.29 2022-07-29T06:07:16Z In this paper we present a multidisciplinary approach aimed at assessing seismic risk due to non-structural damage. The study has been carried out in the framework of the European KnowRISK Project and focuses on the pilot area of Mt. Etna volcano (Italy). Both instrumental data and as well as macroseismic observations provide unique opportunities for testing innovative and classical approaches for assessing seismic risk. Starting from the seismic hazard analysis, we first identify a test site (Zafferana) affected by non-structural damage. We produce seismic scenarios based on macroseismic and ground-motion data and finally obtain the relevant risk map using the Italian census data to classify buildings into vulnerability classes and a model to predict damage distribution. Published Reykjavik, Iceland 4T. Sismologia, geofisica e geologia per l'ingegneria sismica Conference Object Iceland Earth-Prints (Istituto Nazionale di Geofisica e Vulcanologia) Etna ENVELOPE(-19.191,-19.191,63.706,63.706) Italian Journal of Geosciences Vol. 131, n. 1 153 170

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