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  • 1
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    Insights on the European Fault-Source Model (EFSM20) as input to the 2020 update of the European Seismic Hazard Model (ESHM20) (2021)
    Details
    Publication Date: 2021-05-12
    Description: The H2020 Project SERA (WP25-JRA3; http://www.sera-eu.org) is committed to updating and extending the 2013 European Seismic Hazard Model (ESHM13; Woessner et al., 2015, Bull. Earthquake Eng.) to form the basis of the next revision of the European seismic design code (CEN-EC8). Following the probabilistic framework established for ESHM13, the 2020 update (ESHM20) requires a continent-wide seismogenic model based on input from earthquake catalogs, tectonic information, and active faulting. The development of the European Fault-Source Model (EFSM20) fulfills the requirements related to active faulting. EFSM20 has two main categories of seismogenic faults: crustal faults and subduction systems. Crustal faults are meant to provide the hazard model with seismicity rates in a variety of tectonic contexts, including onshore and offshore active plate margins and plate interiors. Subduction systems are meant to provide the hazard model with both slab interface and intraslab seismicity rates. The model covers an area that encompasses a buffer of 300 km around all target European countries (except for Overseas Countries and Territories, OTCs), and a maximum of 300 km depth for slabs. The compilation of EFSM20 relies heavily on publicly available datasets and voluntarily contributed datasets spanning large regions, as well as solicited local contributions in specific areas of interest. The current status of the EFSM20 compilation includes 1,256 records of crustal faults for a total length of ~92,906 km and four subduction systems, namely the Gibraltar Arc, Calabrian Arc, Hellenic Arc, and Cyprus Arc. In this contribution, we present the curation of the main datasets and their associated information, the criteria for the prioritization and harmonization across the region, and the main strategy for transferring the earthquake fault-source input to the hazard modelers. The final version of EFSM20 will be made available through standard web services published in the EFEHR (http://www.efehr.org) and EPOS (https://www.seismofaults.eu) platforms adopting FAIR data principles. The SERA project received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No.730900.
    Description: European Union's Horizon 2020 research and innovation programme under grant agreement No.730900
    Description: Published
    Description: Online
    Description: 3T. Sorgente sismica
    Keywords: Seismic Hazard Assessment ; SHA ; Seismogenic fault ; EFSM20 ; SERA ; Solid Earth
    Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Type: Conference paper
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  • 2
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    Evaluation of The Seismic Hazard in The Marmara Region (Turkey) Based on Updated Databases (2020)
    Details
    Publication Date: 2020-03-05
    Description: The increase in the wealth of information on the seismotectonic structure of the Marmara region after two devastating earthquakes (M7.6 Izmit and M7.2 Duzce events) in the year 1999 opened the way for the reassessment of the probabilistic seismic hazard in the light of new datasets. In this connection, the most recent findings and outputs of different national and international projects concerning seismicity and fault characterization in terms of geometric and kinematic properties are exploited in the present study to build an updated seismic hazard model. A revised fault segmentation model, alternative earthquake rupture models under a Poisson and renewal assumptions, as well as recently derived global and regional ground motion prediction equations (GMPEs) are put together in the present model to assess the seismic hazard in the region. Probabilistic seismic hazard assessment (PSHA) is conducted based on characteristic earthquake modelling for the fault segments capable of producing large earthquakes and smoothed seismicity modelling for the background smaller magnitude earthquake activity. The time-independent and time-dependent seismic hazard results in terms of spatial distributions of three ground-shaking intensity measures (peak ground acceleration, PGA, and 0.2 s and 1.0 s spectral accelerations (SA) on rock having 10% and 2% probabilities of exceedance in 50 years) as well as the corresponding hazard curves for selected cities are shown and compared with previous studies.
    Description: Published
    Description: id 489
    Description: 6T. Studi di pericolosità sismica e da maremoto
    Description: JCR Journal
    Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Type: article
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  • 3
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    The 2014 Earthquake Model of the Middle East: seismogenic sources (2018)
    Details
    Publication Date: 2022-05-24
    Description: The Earthquake Model of Middle East (EMME) project was carried out between 2010 and 2014 to provide a harmonized seismic hazard assessment without country border limitations. The result covers eleven countries: Afghanistan, Armenia, Azerbaijan, Cyprus, Georgia, Iran, Jordan, Lebanon, Pakistan, Syria and Turkey, which span one of the seismically most active regions on Earth in response to complex interactions between four major tectonic plates i.e. Africa, Arabia, India and Eurasia. Destructive earthquakes with great loss of life and property are frequent within this region, as exemplified by the recent events of Izmit (Turkey, 1999), Bam (Iran, 2003), Kashmir (Pakistan, 2005), Van (Turkey, 2011), and Hindu Kush (Afghanistan, 2015). We summarize multidisciplinary data (seismicity, geology, and tectonics) compiled and used to characterize the spatial and temporal distribution of earthquakes over the investigated region. We describe the development process of the model including the delineation of seismogenic sources and the description of methods and parameters of earthquake recurrence models, all representing the current state of knowledge and practice in seismic hazard assessment. The resulting seismogenic source model includes seismic sources defined by geological evidence and active tectonic findings correlated with measured seismicity patterns. A total of 234 area sources fully cross-border-harmonized are combined with 778 seismically active faults along with background-smoothed seismicity. Recorded seismicity (both historical and instrumental) provides the input to estimate rates of earthquakes for area sources and background seismicity while geologic slip-rates are used to characterize fault-specific earthquake recurrences. Ultimately, alternative models of intrinsic uncertainties of data, procedures and models are considered when used for calculation of the seismic hazard. At variance to previous models of the EMME region, we provide a homogeneous seismic source model representing a consistent basis for the next generation of seismic hazard models within the region.
    Description: Published
    Description: 3465-3496
    Description: 6T. Studi di pericolosità sismica e da maremoto
    Description: JCR Journal
    Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Type: article
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  • 4
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    The 2020 European Seismic Hazard Model: Milestones and Lessons Learned (2023)
    Springer Nature
    Details
    Publication Date: 2023-01-18
    Description: The 2020 update of the European Seismic Hazard Model (ESHM20) is the most recent seismic hazard model of the Euro-Mediterranean region. It was built upon unified and homogenized datasets including earthquake catalogues, active faults, ground motion recordings and state-of-the-art modelling components, i.e. earthquake rates forecast and regionally variable ground motion characteristic models. ESHM20 replaces the 2013 European Seismic Hazard Model (ESHM13), and it is the first regional model to provide two informative hazard maps for the next update of the European Seismic Design Code (CEN EC8). ESHM20 is also one of the key components of the first publicly available seismic risk model for Europe. This chapter provides a short summary of ESHM20 by highlighting its main features and describing some lessons learned during the model’s development.
    Description: Published
    Description: 3-25
    Description: 6T. Studi di pericolosità sismica e da maremoto
    Description: 4IT. Banche dati
    Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Type: book chapter
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  • 5
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    Terremoti storici in Anatolia Sud-Orientale: alcuni casi da una ricerca in corso (2023)
    Details
    Publication Date: 2023-03-23
    Description: Questo articolo traduce e compendia parte dei dati contenuti nel sito della Boğaziçi University Kandilli Observatory and Earthquake Research Institute, Department of Earthquake Engineering. Nella pagina relativa ai Rapporti sul terremoto a Kahramanmaraş – Gaziantep del 6 febbraio 2023 (ore 04:17 locali) c’è un Report preliminare dedicato ai forti terremoti storici (Large historical earthquakes of the earthquake-affected region: a preliminary report) a firma di K. Sesetyan, M. Stucchi, V. Castelli e A.A. Gomez Capera, pubblicato il 17 febbraio 2023.
    Description: Boğaziçi University Kandilli Observatory and Earthquake Research Institute, Department of Earthquake Engineering
    Description: Published
    Description: 1-7
    Description: 5T. Sismologia, geofisica e geologia per l'ingegneria sismica
    Keywords: Eastern Anatolia Fault ; Historical earthquakes ; Faglia est-anatolica ; Sismicità storica ; Historical seismicity ; Terremoti storici ; 04.06. Seismology
    Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Type: web product
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  • 6
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    Exploiting the legacy of N.N. Ambraseys: known and unknown earthquakes in the Anatolian area (2022)
    Springer
    Details
    Publication Date: 2023-05-25
    Description: N.N. Ambraseys left us a wealth of papers and volumes on a number of topics; many of them concern the historical earth- quake investigation. One of the last works is the 2009 volume (Ambraseys in Earthquakes in the Eastern Mediterranean and the Middle East: a multidisciplinary study of 2000 years of seismicity, Cambridge, Cambridge, UK, 2009), where he summarizes the results of more than thirty years of investigation through archives and libraries, covering earthquakes of a large area, from Albania to Caucasus. For each earthquake, a short summary of the main effects is supplied, together with the list of the sources used. Such information is intended as material for assessing location and size of the earthquakes, task that the author accomplished only in a very preliminary way for a few earthquakes, only. In addition to exhaustive descriptions of the most known earthquakes and the relevant historical sources, the volume contains information on a large number of earthquakes, so far unknown to the current earthquake catalogues. This paper intends to represent a homage to his immense work, partially showing the potential of his volume. We briefly present here some case histories, including the preliminary location and size of the earthquakes – known and unknown—around Anatolia. We add some examples of how he was able to prove that some alleged earthquakes are actually to be considered as fake or very doubtful. We also present the damage information supplied for some known and unknown earthquakes, and how they can be used for assessing location and size of them.
    Description: Published
    Description: 555–568
    Description: 5T. Sismologia, geofisica e geologia per l'ingegneria sismica
    Description: N/A or not JCR
    Keywords: earthquakes ; Anatolia ; Historical seismology ; 04.06. Seismology
    Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Type: article
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  • 7
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    European Fault-Source Model 2020 (EFSM20): online data on fault geometry and activity parameters (2022)
    Details
    Publication Date: 2022-11-18
    Description: Seismology and Earthquake Engineering Research Infrastructure Alliance for Europe (SERA), H2020, grant agreements 730900.
    Description: Published
    Description: 2T. Deformazione crostale attiva
    Description: 6T. Studi di pericolosità sismica e da maremoto
    Description: 4IT. Banche dati
    Keywords: Geology ; Earth sciences of Europe ; Earth sciences of Africa ; Earth sciences of Asia ; Earth Sciences and Geology ; earthquakes ; hazard model ; seismogenic faults ; slip rate ; crustal fault sources ; subduction fault sources ; Seismology ; 04.04. Geology ; 04.06. Seismology ; 04.07. Tectonophysics
    Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Type: web product
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  • 8
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    Kahramanmaraş - Gaziantep Türkiye M7.7 Earthquake, 6 February 2023 (04:17 GMT+03:00) Large historical earthquakes of the earthquake-affected region: a preliminary report (2023)
    Details
    Publication Date: 2023-02-20
    Description: The region where the 2023 February 6 earthquakes took place is known to have been very active in the past; it is part of the contact between the Eurasian and the Arabic plate, an area where seismic activity was relatively low in the 20th century (Figure 1). It is a “border zone” also from the historical point of view; therefore, although many earthquakes are known to most earthquake catalogues and compilations, the relevant information is often rather poor and affected by chronological and place-names problems. As a consequence, earthquake parameters given in the catalogues are often based on a poor dataset; the situation is even more complicated by chronological issues and careless compilations, which lead to earthquake duplications. In the frame of a larger investigation effort underway (Sesetyan et al., 2020; Stucchi et al. 2022) we first considered the available information from the main earthquake catalogues and compilations in the time-window 1000-1900. The volume by Ambraseys (2009) summarizes and sometimes updates the knowledge already proposed in previous works such as Ambraseys and Jackson (1988), Ambraseys (1989), Ambraseys and Finkel (1995). We also considered the works by Soysal et al. (1981), Guidoboni et al. (2019), Sbeinati et al. (2005), some recent historical earthquake investigations and the parametric catalogues by Shebalin and Tatevossian (1997), Tan et al. (2008), Sesetyan et al. (2013). Next, we assessed - when possible - macroseismic intensities at the mentioned localities and, from them, we assessed earthquake parameters by making use of the so-called “Boxer” method by Gasperini et al. (1999). For some of the main earthquakes in the region we briefly summarise here the earthquake parameters from our investigation and from the main catalogues. In the Appendix we summarise the available information.
    Description: Boğaziçi University Kandilli Observatory and Earthquake Research Institute Department of Earthquake Engineering, Istanbul (Turkey) Istituto Nazionale di Geofisica e Vulcanologia, Italia
    Description: Published
    Description: 3T. Fisica dei terremoti e Sorgente Sismica
    Keywords: Turkey ; Eastern Anatolian Fault ; Seismic History ; Kahramanmaraş - Gaziantep Türkiye M7.7 Earthquake, 6 February 2023 ; Large Historical Earthquakes ; Anatolia ; Historical Seismology ; Seismicity ; 04.06. Seismology
    Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Type: report
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  • 9
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    The 2020 update of the European Seismic Hazard Model: Model Overview. EFEHR Technical Report 001, v1.0.0 (2022)
    Details
    Publication Date: 2024-01-09
    Description: Executive Summary The 2020 European Seismic Hazard Model (ESHM20) provides an update of the earthquake hazard assessment of the Euro-Mediterranean region. ESHM20 has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No.s 730900 of the SERAProject (www.sera-eu.org) The ESHM20 follows the same principles as the ESHM13, with state-of-the art procedures homogeneously applied for the entire pan-European region, without the country-borders issues. The model was built upon recently compiled datasets (i.e. earthquake catalogues, active faults, ground shaking recordings), information (tectonic and geological) and models (seismogenic sources, ground shaking). A fully probabilistic framework was adopted in the hazard model implementation and all datasets and inputs are fully cross-border harmonized. The newly developed seismogenic source model encompass fully harmonized and cross borders seismogenic sources following the recent national earthquake hazard models. The inherent uncertainties in characterizing the earthquake rupture forecast are handled by a complex logic tree, consisting of two main models (branches): an area source-based model and a hybrid fault-smoothed seismicity model. The ground motion characteristic model is built upon the most complete ground shaking recordings in Europe and aims at capturing the effects of source and attenuation path of the expected ground shaking at a site. The regional variability of the ground shaking as constrain by observations is captured by a novel approach of spatial clustering and the overall uncertainties are handled in a backbone logic tree. The master logic tree combines the earthquake rate forecast with the backbone ground motion models into a computational model for assessing the earthquake ground shaking at across the entire Euro- Mediterranean region. Full sets of hazard results (i.e. hazard curves and maps, uniform hazard spectra) for various combinations of return periods and descriptive statistics (mean, median and quantiles) are available. The ESHM20 development process involved several regional workshops where the scientists and experts were consulted and their feedback was acknowledged and considered on the model outcome. Finally, ESHM20 provides the basis to derive informative hazard maps for two key engineering parameters defining the anchoring points of the seismic design spectra for the next version of the European Seismic Design Code (CEN-EC8). The European Facilities for Earthquake Hazard and Risk (EFEHR) will maintain and further develop this model in collaboration with the GEM Foundation and the European Plate Observing System (EPOS). The source data, input models, software and outputs of ESRM20 are thus being openly released with a Creative Commons CC-BY International 4.0 license (https://creativecommons.org/licenses/by/4.0/). This license allows re-users to distribute, remix, adapt, and build upon the material in any medium or format, so long as attribution is given to the creator. The license allows for commercial use. Each product is released with a clear notice on how it should be cited in order to abide by the license. ESHM20 is online available at the www.hazard.EFEHR.org.
    Description: 1. Swiss Seismological Service, ETH Zurich, Sonneggstrasse 5, 8092 Zurich, Switzerland, 2. Istituto Nazionale di Geofisica e Vulcanologia (INGV), 00143 Rome, Italy, 3. German Research Centre for Geociences (GFZ), Section 2.6 Seismic Hazard & Risk Dynamics, 14473 Potsdam, Germany, 4. Institut des Sciences de la Terre (ISTerre), IRD, 38058 Grenoble, France, 5. Istituto Nazionale di Geofisica e Vulcanologia (INGV), 20133 Milan, Italy, 6. Instituto Superior Tecnico (IST), 1049-001 Lisboa, Portugal, 7. Bogazici University, Kandilli Observatory and Earthquake Research Institute, Department of Earthquake Engineering, 34684, Cengelkoy, Istanbul, Turkey, 8. Institute of Geophysics , ETH Zurich, Sonneggstrasse 5, 8092 Zurich, Switzerland
    Description: Published
    Description: OST5 Verso un nuovo Monitoraggio
    Keywords: seismic hazard ; Europe ; 05.08. Risk
    Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Type: report
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  • 10
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    What about the predecessors of the February 2023 earthquakes in Eastern Anatolia? (2024)
    Details
    Publication Date: 2024-04-05
    Description: When large earthquakes occur, it is natural enough to wonder about their likely predecessors (if any). This is why, after the earthquakes of February 2023, we began a review of the historical seismic record of Eastern Anatolia Our investigation concentrated on six major earthquakes/sequences occurred after 1000 AD (1003, 1114/1115, 1269, 1344, 1513/1514 and 1544). The earthquakes of 1822, 1872 and 1893 are better known and do not require priority investigation. The geopolitical history of this region is very complex, with many changes of rulers along the centuries, but its long-term seismic history is rather well known. Many earthquakes are on record both before and since the date - some 2100 years ago - when the region became a Roman province. Many of its main towns (Aleppo and Antakya for instance) have a long-term history that includes eyewitness observations of many strong earthquakes. Historical earthquake records for this area were collected and studied several times. The latest studies are Soysal et al. (1981), Ambraseys and Finkel (1995), Guidoboni & Comastri (2005), Sbeinati et al. (2005), Tan et al. (2008). N.N. Ambraseys wrote many papers on this subject and compendiated his work in Ambraseys (2009). However, time, epicentral location and size of many earthquakes are debatable and earthquake catalogues propose contrasting values for the same events. Our work consisted of: a) retrieving and analyzing the main historical sources for each earthquake; b) identifying the localities mentioned in the sources and assessing macroseismic intensities from the original information; c) determining earthquake parameters (Io, Mw and - whenever possible - source azimuth) with the “Boxer” method (Gasperini et al., 1999), after properly calibrating the relevant coefficient by using recent earthquakes of the Anatolian region. Fig. 3 presents the seismological results of this work: Mw (with uncertainty equal to 0.3) and the “boxes” obtained with the Gasperini et al. (1999) procedure and representing the surface projection of the possible earthquake sources: the epicentre is in the middle of the “box”. The epicentral location and Mw calculated for the main earthquake of 1114 are close to those of the first event of 6 February, 2023. The “box” seems to match the Pazarcik segment of the EAFZ (we refer hereafter to the fault definitions used by Duman and Emre, 2013 and by Duman et al., 2018). The 1269 earthquake was less energetic than the 1114 one, and its parameters are less well constrained. Its “box” suggests the Amanos segment as the likeliest source, with the Toprakkale segment as an alternative candidate. The 1344 earthquake is rather well known and was indeed a very large one. On account of its location it was not considered in the debate on the 2023 earthquake source. However, the identification of its source would be helpful for the understanding of seismicity in this region. As for the 1513/1514 earthquake, the first interpretation by Ambraseys (1988) was -and still is – considered as the absolute truth by literature, leading to a strong connection with the Pazarcık segment. Unfortunately, this interpretation is founded on poor information, as later stated by Ambraseys (2009) and confirmed by us. Though we cannot provide reliable epicentral location and magnitude estimates, we believe that the Toprakkale or Karataş segments could represent a more appropriate option for the source. Similar considerations can be proposed for the 1544 earthquake, whose informative background is also very weak. It could be located in the area where the recent M7.6 took place (Çardak fault), with Mw around 6.9.
    Description: Unpublished
    Description: Ferrara
    Description: OST1 Alla ricerca dei Motori Geodinamici
    Keywords: Eastern Anatolian Fault ; February 2023 earthquakes ; Predecessors ; historical seismology ; Earthquakes of 1003, 1114/1115, 1269, 1344, 1513/1514 and 1544 ; Historical seismology
    Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Type: Conference paper
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