ALBERT

Beschreibung: The project KnowRISK (Know your city, Reduce seISmic risK through non-structural elements) is financed by the European Commission to develop prevention measures that may reduce non-structural damage in urban areas. Pilot areas of the project are within the three European participating countries, namely Portugal, Iceland and Italy. Non-structural components of a building include all those components that are not part of the structural system, more specifically the architectural, mechanical, electrical, and plumbing systems, as well as furniture, fixtures, equipment, and contents. Windows, partitions, granite veneer, piping, ceilings, air conditioning ducts and equipment, elevators, computer and hospital equipment, file cabinets, and retail merchandise are all examples of nonstructural components that are vulnerable to earthquake damage. We will use the experience gained during past earthquakes, which struck in particular Iceland, Italy and Portugal (Azores). Securing the non-structural elements improves the safety during an earthquake and saves lives. This paper aims at identifying non-structural seismic protection measures in the pilot areas and to develop a portfolio of good practices for the most common and serious non-structural vulnerabilities. This systematic identification and the portfolio will be achieved through a “crossknowledge” strategy based on previous researches, evidence of non-structural damage in past earthquakes. Shake table tests of a group of non-structural elements will be performed. These tests will be filmed and, jointly with portfolio, will serve as didactic supporting tools to be used in workshops with building construction stakeholders and in risk communication activities. A Practical Guide for non-structural risk reduction will be specifically prepared for citizens on the basis of the outputs of the project, taking into account the local culture and needs of each participating country

Beschreibung: Published

Beschreibung: Vienna

Beschreibung: 3T. Pericolosità sismica e contributo alla definizione del rischio

Beschreibung: restricted

Beschreibung: A relocated catalogue of Italian earthquakes over last 22 years was available from Chiarabba et al. (2004). Previously 1981-1996 catalogue (Gasperini et al., 2002) was performed using P- and- S wave arrivals time at national and several regional permanent seismic networks operating on Italian territory. Chiarabba et al. (2004) used the same data-set adding new associations of P- and- S wave arrivals from same networks for earthquakes in the period 1997-2002. They relocated with a homogeneous procedure, adapting and optimising location parameters. Almost all the events have duration estimated by INGV national (RSNC) and regional network analysts by visual determination. Contemporary MedNet (Mediterranean Broad-band Network) data centre operating at INGV provides since 1997 automatic Wood-Anderson magnitude and Mw from regional centroid moment tensor estimation for medium-strong earthquakes of Mediterranean area. Revised local magnitudes from MedNet seismic network were also available from 1996 up to 2000 (Olivieri, pers. com.). This data-set consists of more then 5000 local magnitudes of Italian earthquakes occurred during 5 years (Ml ranging from 1.8 up to 5.6). In spite of this, we obtained a revised log of duration vs. local magnitude scale by regression analysis, from observations of the two data sets: 1996-2000 revised Ml-MedNet and duration estimates from RSNC. This in order to calibrate a new duration magnitude scale on local magnitude for RSNC duration estimates and approached to a homogeneous determination of local magnitude for Italian earthquakes instrumental recordings of the recent past. The previous duration magnitude scale used at INGV (Console and Di Sanza, 1989) systematically overestimate magnitude 〈 3 and underestimate M 〉 4. The empirical relationship linking the log of duration with Richter magnitude is M = a + b ·log(T), with a and b depended of investigated area according to the observation that Md is practically independent of hypocentral distance for short distance ranges (Del Pezzo, 2003). CSTI approached the same problem for the 1981-1996 catalogue. Gasperini et al. (2002) used a data-base of real Wood-Anderson amplitudes of the two instruments operating in Italy up to 1989 as well as simulated Wood-Anderson from MedNet recordings, available since 1990. They computed a data-set of 1545 earthquakes from 1975 to 1995. We concentrated on a recent 5 years data-set of Ml- MedNet, representative in terms of magnitude ranging and distribution on Italian territory. Once obtained the parameters of the new magnitude scale calibrated also for stations correction, we applied to the entire catalogue 1981-2002. The threshold of applicability is limited up to 4.5 Ml, this implied an inclusion of computed Wood- Anderson Ml for strongest earthquakes out of the 1996-2000 time window (1981- 1995 from CSTI catalogue: 2001-2002 MedNet revised Ml- Casale, pers.com.). The completeness of Ml 〉 4.5 is checked on the basis of International Bulletins by GNGTS – Atti del 23° Convegno Nazionale / 06.21 National Earthquake Information Center (NEIC) and International Seismological Centre (ISC). A GIS system managed the earthquakes catalogue previously transformed in a data-base, in order to draw a new seismicity map of Italy. The map show 45.000 selected earthquakes which have a location rms smaller than 0.8 s, epicentral errors less than 4 km (10 km for deep earthquakes) and an azimuthal gap less than 180° and 240° for shallow crustal and deep events, respectively. Most of the earthquakes have magnitude lower than 4.0 and are located within the Earth’s crust, in the upper 12 km. Only 33 earthquakes exceeded magnitude 5.0 in the period between 1981 and 2002, and the largest event is the 1997, September 26, Umbria-Marche earthquake (Mw 6.0). The map emphasizes the close relationship between seismicity and topography in the Apennines, and also the high seismic release in active volcanoes (as Mt. Etna) and offshore northern Sicily. A concentration of subcrustal and deep earthquakes is evident in the Southern Tyrrhenian sea, where the Ionian lithosphere subducts beneath the Calabrian arc. The largest deep earthquakes in the period occurred on 1994, January 6 in the Southern Tyrrhenian Sea, with a moment magnitude (Mw) of 5.8, at 200 km depth.

Beschreibung: Published

Beschreibung: Rome

Beschreibung: 2T. Tettonica attiva

Beschreibung: open