141 research outputs found
Tsunami: alla scoperta dei maremoti
Tsunami è una parola giapponese che significa “onda (nami) nel porto (tsu)”, in quanto anticamente si osservava che alcune onde diventavano devastanti avvicinandosi alla costa. Il termine italiano usato per definire uno tsunami è maremoto, cioè una serie di onde che, superando l'abituale linea costiera, provocano danni all'interno dei porti, ma anche lungo tutta la costa e a volte nell’entroterra
A revision of the 1783?1784 Calabrian (southern Italy) tsunamis
International audienceSouthern Italy is one of the most tsunamigenic areas in the Mediterranean basin, having experienced during centuries a large number of tsunamis, some of which very destructive. In particular, the most exposed zone here is the Messina Straits separating the coasts of Calabria and Sicily that was the theatre of the strongest Italian events. In 1783?1785 Calabria was shaken by the most violent and persistent seismic crisis occurred in the last 2000 years. Five very strong earthquakes, followed by tsunamis, occurred in a short interval of time (February?March 1783), causing destruction and a lot of victims in a vast region embracing the whole southern Calabria and the Messina area, Sicily. In this study we re-examined these events by taking into account all available historical sources. In particular, we focussed on the 5 and 6 February 1783 tsunamis, that were the most destructive. As regards the 5 February event, we found that it was underestimated and erroneously considered a minor event. On the contrary, the analysis of the sources revealed that in some localities the tsunami effects were quite strong. The 6 February tsunami, the strongest one of the sequence, was due to a huge earthquake-induced rockfall and killed more than 1500 people in the Calabrian village of Scilla. For this event the inundated area and the runup values distribution were estimated. Further, the analysis of the historical sources allowed us to find three new tsunamis that passed previously unnoticed and that occurred during this seismic period. The first one occurred a few hours before the large earthquake of 5 February 1783. The second was generated by a rockfall on 24 March 1783. Finally, the third occurred on 9 January 1784, probably due to a submarine earthquake
A new version of the European tsunami catalogue: updating and revision
A new version of the European catalogue of tsunamis is presented here. It differs from the latest release of the catalogue that was produced in 1998 and is known as GITEC tsunami catalogue in some important aspects. In the first place, it is a database built on the Visual FoxPro 6.0 DBMS that can be used and maintained under the PC operating systems currently available. Conversely, the GITEC catalogue was compatible only with Windows 95 and older PC platforms. In the second place, it is enriched by new facilities and a new type of data, such as a database of pictures that can be accessed easily from the main screen of the catalogue. Thirdly, it has been updated by including the newly published references. Minute and painstaking search for new data has been undertaken to re-evaluate cases that were not included in the GITEC catalogue, though they were mentioned in previous catalogues; the exclusion was motivated by a lack of data. This last work has focused so far on Italian cases of the last two centuries. The result is that at least two events have been found which deserve inclusion in the new catalogue: one occurred in 1809 in the Gulf of La Spezia, and the other occurred in 1940 in the Gulf of Palermo. Two further events are presently under investigation
The Euro-Mediterranean Tsunami Catalogue
A unified catalogue containing 290 tsunamis generated in the European
and Mediterranean seas since 6150 B.C. to current days is presented. It is
the result of a systematic and detailed review of all the regional cata-
logues available in literature covering the study area, each of them hav-
ing their own format and level of accuracy. The realization of a single
catalogue covering a so wide area and involving several countries was a
complex task that posed a series of challenges, being the standardization
and the quality of the data the most demanding. A “reliability” value
was used to rate equally the quality of the data for each event and this pa-
rameter was assigned based on the trustworthiness of the information
related to the generating cause, the tsunami description accuracy and also
on the availability of coeval bibliographical sources. Following these cri-
teria we included in the catalogue events whose reliability ranges from 0
(“very improbable tsunami”) to 4 (“definite tsunami”). About 900 docu-
mentary sources, including historical documents, books, scientific reports,
newspapers and previous catalogues, support the tsunami data and de-
scriptions gathered in this catalogue. As a result, in the present paper a list
of the 290 tsunamis with their main parameters is reported. The online
version of the catalogue, available at http://roma2.rm.ingv.it/en/faci
lities/data_bases/52/catalogue_of_the_euro-mediterranean_tsunamis,
provides additional information such as detailed descriptions, pictures,
etc. and the complete list of bibliographical sources. Most of the included
events have a high reliability value (3= “probable” and 4= “definite”)
which makes the Euro-Mediterranean Tsunami Catalogue an essential
tool for the implementation of tsunami hazard and risk assessment
Applicability of the Decision Matrix of North Eastern Atlantic, Mediterranean and connected seas Tsunami Warning System to the Italian tsunamis
After the 2004 Indian Ocean tsunami catastrophe, UNESCO through the IOC (Intergovernmental Oceanographic Commission) sponsored the establishment of Intergovernmental Coordination Groups (ICG) with the aim to devise and implement Tsunami Warning Systems (TWSs) in all the oceans exposed to tsunamis, in addition to the one already in operation in the Pacific (PTWS). In this context, since 2005 efforts started for the establishment of TWSs in the Indian Ocean (IOTWS), in the Caribbean area (CARIBE EWS) and in the North Eastern Atlantic, the Mediterranean and Connected Seas (NEAMTWS).
In this paper we focus on a specific tool that was first introduced in the PTWS routine operations, i.e. the Decision Matrix (DM). This is an easy-to-use table establishing a link between the main parameters of an earthquake and the possible ensuing tsunami in order to make quick decision on the type of alert bulletins that a Tsunami Warning Center launches to its recipients. In the process of implementation of a regional TWS for the NEAM area, two distinct DMs were recently proposed by the ICG/NEAMTWS, one for the Atlantic and the other for the entire Mediterranean area.
This work applies the Mediterranean NEAMTWS DM to the earthquakes recorded in Italy and compares the action predicted by the DM vs. the action that should be appropriate in view of the observed tsunami characteristics with the aim to establish how good the performance of the Italian TWS will be when it uses the DM for future events. To this purpose, we make use of the parametric catalogue of the Italian earthquakes (CPTI04) compiled in 2004 and the most recent compilation of the Italian tsunami, based on the Italian Tsunami Catalogue of 2004 and the subsequent revisions. In order to better compare the TWS actions we have identified four different kinds of action coding them from 0 to 3 according to the tsunami severity and have further considered three different distance ranges where these actions apply, that is local, regional and basin-wide, that refer to the distance of the message recipients from the tsunami source. The result of our analysis is that the actions prescribed by the DM are adequate only in 45%-55% of the cases, overestimations are about 37% and underestimations are the rest. As a whole, the predictive ability of the DM is not satisfactory, which implies that recipients have the difficult task to manage bulletins carrying a great deal of uncertainty and on the other hand also suggests that strategies to improve the DM or to go beyond the DM need to be found
Applying and validating the PTVA-3 Model at the Aeolian Islands, Italy: assessment of the vulnerability of buildings to tsunamis
The volcanic archipelago of the Aeolian Islands (Sicily, Italy) is included on the UNESCO World Heritage list and is visited by more than 200 000 tourists per year. Due to its geological characteristics, the risk related to volcanic and seismic activity is particularly high. Since 1916 the archipelago has been hit by eight local tsunamis. The most recent and intense of these events happened on 30 December 2002. It was triggered by two successive landslides along the north-western side of the Stromboli volcano (Sciara del Fuoco), which poured approximately 2–3&times;10<sup>7</sup> m<sup>3</sup> of rocks and debris into the Tyrrhenian Sea. The waves impacted across the whole archipelago, but most of the damage to buildings and infrastructures occurred on the islands of Stromboli (maximum run-up 11 m) and Panarea. <br><br> The aim of this study is to assess the vulnerability of buildings to damage from tsunamis located within the same area inundated by the 2002 event. The assessment is carried out by using the PTVA-3 Model (Papathoma Tsunami Vulnerability Assessment, version 3). The PTVA-3 Model calculates a Relative Vulnerability Index (RVI) for every building, based on a set of selected physical and structural attributes. Run-up values within the area inundated by the 2002 tsunami were measured and mapped by the Istituto Italiano di Geofisica e Vulcanologia (INGV) and the University of Bologna during field surveys in January 2003. Results of the assessment show that if the same tsunami were to occur today, 54 buildings would be affected in Stromboli, and 5 in Panarea. The overall vulnerability level obtained in this analysis for Stromboli and Panarea are "average"/"low" and "very low", respectively. Nonetheless, 14 buildings in Stromboli are classified as having a "high" or "average" vulnerability. For some buildings, we were able to validate the RVI scores calculated by the PTVA-3 Model through a qualitative comparison with photographs taken by INGV and the University of Bologna during the post-tsunami survey. With the exception of a single structure, which is partially covered by a coastal dune on the seaward side, we found a good degree of accuracy between the PTVA-3 Model forecast assessments and the actual degree of damage experienced by buildings. This validation of the model increases our confidence in its predictive capability. Given the high tsunami risk for the archipelago, our results provide a framework for prioritising investments in prevention measures and addressing the most relevant vulnerability issues of the built environment, particularly on the island of Stromboli
Corrigendum to "Applying and validating the PTVA-3 Model at the Aeolian Islands, Italy: assessment of the vulnerability of buildings to tsunamis" published in Nat. Hazards Earth Syst. Sci., 10, 1547–1562, 2010
F. Dall'Osso1,2,4, A. Maramai3, L. Graziani3, B. Brizuela3, A. Cavalletti2,4, M. Gonella2,4, and S. Tinti5 1CIRSA, Interdepartmental Centre for Environmental Sciences Research, University of Bologna, via S. Alberto 163, 48100 Ravenna, Italy 2IDRA, Environmental Research Institute, via Kennedy 37, 44100 Ferrara, Italy 3INGV, Istituto Nazionale di Geofisica e Vulcanologia, Via di Vigna Murata 605, 00143 Roma, Italy 4Med Ingegneria S.r.l., Environmental Engineering, via P. Zangheri 16, 48124 Ravenna, Italy 5University of Bologna, Department of Physics, Viale Carlo Berti Pichat 8, 40127 Bologna, Ital
Rilievo macrosismico del terremoto del 15 dicembre 2009 nella Valle del Tevere e considerazioni sull'applicazione della scala EMS98
In questo lavoro vengono presentati e discussi i risultati del rilievo macrosismico effettuato in termini di
European Macroseismic Scale 1998 del terremoto del 15 dicembre 2009. L’evento, di Ml 4.2, ha colpito la Valle
del Tevere tra le province di Terni e Perugia, ed ha avuto una intensità EMS pari al 7 grado. Il rilievo è servito
anche come test sull’uso della scala EMS98, non ancora utilizzata sistematicamente per i terremoti italiani,
attraverso un’indagine di dettaglio nelle quattro località più danneggiate. Il tentativo di una applicazione rigorosa
della scala ha fatto emergere alcune problematiche metodologiche, di fronte alle quali sono state fatte delle scelte
in linea con le Linee Guida della scala. In particolare l’adozione del grado intero ci sembra l’alternativa più robusta
per contrastare la abusata tentazione di usare la scala macrosismica come una misura continua dello scuotimento.
This paper shows the results of the macroseismic survey of the December 15, 2009 earthquake, performed according to
the EuropeanMacroseismic Scale 1998. The event (Ml 4.2), hit the Tiber Valley, between the Terni and Perugia provinces
has been evaluated of intensity 7. As the EMS98 is not yet systematically used for Italian earthquakes, we tested it by
means of a detailed survey in the most damaged localities. The several methodological questions arisen led us to make some
choices according to the Guidelines of the EMS98, in the intensity assessment. Particularly effective is, in our opinion, the
choice to preserve the integer character of the scale, and not use intermediate formulations of the intensity degree.
Tsunami: a movie for the tsunami risk reduction in Italy
Italy is a country well known for the seismic and volcanic hazard. As a matter of fact the first seismological and volcanological observations were done in since the Roman times. However, a similarly great hazard, although not well recognized, is posed by the occurrence of tsunami
waves along the Italian coastline. This is testified by a rich catalogue and by field evidence of deposits left over by pre- and historical tsunamis, even in places today considered safe. This observation is of great importance since many of the areas affected by tsunamis in the past are today touristic places. The Italian tsunamis can be caused by different sources: 1- off-shore or
near coast in-land earthquakes (e.g. 1627, 1783 and 1908 events); 2- very large earthquakes on distant sources in the Mediterranean (e.g. the 365 Crete subduction zone earthquake); 3- submarine volcanic explosion in the Tyrrhenian sea; 4- submarine landslides triggered by earthquakes and volcanic activity (e.g. 2002 Stromboli landslide). The consequence of such a
wide spectrum of sources is that an important part of the more than 7000 km long Italian coast line is exposed to the tsunami risk, and thousands of inhabitants (with numbers increasing during summer) live near hazardous coasts. In order to reduce this risk and following the emotional impact of the december 2004 Sumatra earthquake and tsunami, we developed an outreach program consisting in talks given by scientists and in a movie, both exploring the causes of the tsuanami waves, how do they propagate in deep and shallow waters, and what are the effects on the coasts. Hints are also given on the most dangerous Italian coasts (as deduced by scientific studies), and how to behave in the case of a tsunami approaching the coast. These seminars are open to the general publics, but special programs are developed with schools of all grades. In this talk we want to present the movie used during the seminars and scientific expositions, that was realized from a previous 3D version originally developed for science festivals
Identification of tsunami deposits and liquefaction features in the Gargano area (Italy): paleoseismological implication
The Gargano region (Southeastern Italy) was hit by a M = 6.8 earthquake and inundated by a subsequent tsunami
in 1627. To better define the hazard in the region, we searched for evidence of this and prior earthquakes in
the geologic record. We identified potential earthquake-related liquefaction features and tsunami deposits in the
stratigraphic sequences of the marsh areas both north and south of the Gargano promontory. We recognized clear
liquefaction features and possible tsunamigenic sands that can be related to the 1627 seismic event in irrigation
ditch exposures and gouge cores along the Northern Gargano coast. In total, six potential tsunami sand deposits
have been recognized in two areas located close to the northern and southern coasts of the Gargano promontory.
However, ambiguous evidence comes from the paleontological analysis of these sands. Although fragments of
marine shells have been found in the coarser portion of the sand samples, foraminifera and ostracods assemblages
are typical of brackish water condition. Radiocarbon dating of three of these deposits from the Northern
Gargano coast, near the town of Lesina, suggests an average recurrence interval of 1700 years for tsunami events
in this area. Assuming that all the paleotsunamis are related to the same seismogenic source responsible for the
1627 earthquake, this average recurrence interval may be typical for that source. Radiocarbon dating of three
sand layers observed on the southern coast, close to the city of Manfredonia, suggests that the average recurrence
time for violent sea inundation there is about 1200 years
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