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European Seafloor Observatory Offers New Possibilities For Deep Sea Study (2009)

Beranzoli, L. ; Braun, T. ; Calcara, M. ; [et al.]

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Publication Date: 2017-04-04

Description: The Geophysical and Oceanographic Station for Abyssal Research (GEOSTAR), an autonomous seafloor observatory that collects measurements benefiting a number of disciplines during missions up to 1 year long, will begin the second phase of its first mission in 2000. The 6-8 month investigation will take place at a depth of 3400 m in the southern Tyrrhenian basin of the southern Tyrrhenian basin of the central Mediterranean. GEOSTAR was funded by the European Community (EC) for $2.4 million (U.S. dollars) in 1995 as a part of the Marine Science and Technology programme (MAST). The innovative deployment and recovery procedure GEOSTAR uses was derived from the "two-module" concept successfully applied by NASA in the Apollo and space shuttle missions, where one module performs tasks for the other, including deployment, switching on and off, performing checks and recovery. The observatory communication system, which takes advantage of satellite telemetry, and the simultaneous acquisition of a set of various measurements with a unique time reference make GEOSTAR the first fundamental element of a multiparameter ocean network. GEOSTAR's first scientific and technological mission, which took place in the summer of 1998 in the Adriatic Sea, verified the performance and reliability of the system. The mission was a success. providing 440 hours of continuous seismic magnetic and oceanographic data. Thje second phase of the mission, which was funded by the EC for $2 million (US dollars), will carry equipment for chemical, biological and isotopic analyses not used in the first phase, which will broaden the data collection effort.

Description: Published

Description: 45, 48-49

Description: 2.5. Laboratorio per lo sviluppo di sistemi di rilevamento sottomarini

Description: N/A or not JCR

Description: reserved

Keywords: Multidisciplinary Seafloor observatory ; Monitoring ; 04. Solid Earth::04.01. Earth Interior::04.01.99. General or miscellaneous

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Microseismicity recorded before geothermal exploitation at Torre Alfina (Italy), (Poster Session - ESC2016-464) (2016)

Braun, T. ; Badiali, L. ; Caciagli, M. ; [et al.]

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Publication Date: 2017-04-04

Description: The geothermal field of Torre Alfina is located in Central Italy at the northern extremity of the Vulsini quaternary volcanic complex. Wells drilled in the 1970s and 1980s down to depths ranging from 563 to 2710 m revealed that Torre Alfina is a medium-enthalpy (T=140 C) geothermal field, hosted in buried fractured Mesozoic limestones. Recently a multinational industrial company received the license for the production of geothermal energy up to a maximum of 5 MW. In 2013, the INGV was commissioned to realize a monitoring system that includes the observation of gas emissions, microseismicity and ground deformation. Following the recommendations, described in the Ministerial Decree that regulates the geothermal production activity, the seismic monitoring system should be capable to record the local microseismicity during the phase of geothermal energy production and the natural seismicity since 12 months before the beginning of the production operations. In 2014, we started to install a short-period seismic network called ReMoTA near the future geothermal production site of Torre Alfina. Stations are equipped with 24 bit digitizers and short-period seismometers. The seismic noise level recorded at the single stations is unfavorably high, due to an intensive colonization and numerous settlements of small and medium industries. Transients as well as persistent monochromatic disturbances are recorded very well especially at the southern stations, probably due to a low wave energy dissipation inside the layer of quaternary volcanic rocks. During the period from June 2014 – November 2015 ReMoTA recorded 289 local earthquakes and 19 quarry blasts, with respect to 46 seismic events reported by ISIDE. The depth distribution of the seismic events recorded during 18 months before the beginning of the geothermal exploitation is concentrated inside the upper crust at a depth range between 4 - 8 km. The spatial distribution of the hypocenters seems to dip slightly towards SW beneath the area of Torre Alfina. This tendency together with the focal solutions of the Dec 2014 seismicity cluster highlights the presence of a normal fault with a weak transverse component striking in NW-SE-direction, within splitting distance to the future geothermal production site. The other two seismicity cluster of Mar-2015 and Nov-2015 seem to delineate antithetic structures with respect to the main fault. Considering that the future production level will be at a depth range between 1500 – 2300 m, and being aware of the hypocentral uncertainties, the discrimination between “natural” earthquakes and seismicity triggered by anthropic activity will be an important challenge.

Description: Unpublished

Description: Trieste, Italy

Description: 6T. Sismicità indotta e caratterizzazione sismica dei sistemi naturali

Description: open

Keywords: Monitoring ; Geothermic field ; Active tectonic ; Seismic analysis ; 04. Solid Earth::04.03. Geodesy::04.03.06. Measurements and monitoring

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: Poster session

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On the seismicity recorded in the geothermal area of Mt. Amiata. (Oral Presentation - ESC2016-461) (2016)

Braun, T. ; Caciagli, M. ; Dahm, T. ; [et al.]

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Publication Date: 2017-04-04

Description: Mt. Amiata in Tuscany (Italy) is an extinct volcano whose last eruptive activity was dated about 200 ky ago. Being still characterized by a high geothermal gradient the area lends itself for geothermal exploitation. Beneath the Tuscan Geothermal Areas seismicity is exclusively observed in the upper crust and is confined in depth by the so called K-horizon (400°C isotherme). The structure above contains permeable layers of highly fractured, volcanic rocks saturated with hot water and steam. Geothermal exploitation from these layers started in the 1960’s. Shallow earthquakes have occurred close to the geothermal wells, and the question is raised whether these event are of natural origin or related to the exploitation of heat. To monitor the seismic activity inside the geothermal field, an 8 station seismic network and a 7 element small aperture seismic array were installed in 2015 in the vicinity of the geothermal power plants during a joint field experiment by the Istituto Nazionale di Geofisica e Vulcanologia, the University of Potsdam and the GFZ-German Research Center of Geoscience. Already during the first 24 hours of seismic recording the array and the neighboring network stations recorded a M0.5 seismic event in the vicinity of the geothermal field of Bagnore. Since then micro-earthquake activity was recorded regularly. One of the main challenges of the seismic array/network installation, deployed in direct proximity to the geothermal energy production, is to identify seismic events caused by human operations. As hypocenters are located close to the geothermal power plants, at a similar depth as the production level, it is very difficult - if not impossible - to discriminate between natural earthquakes and anthropogenic events. The main goal of the seismic array/network deployed in the framework of our project is to shed some additional light on this question. The monitoring capabilities of the recording system permit a lowering of the detection threshold for local seismic events, performing high-resolution hypocentral determination, especially in the vicinity of the industrial operations, and calculating focal mechanisms. Array techniques and relative location methods will be used for a precise hypocentral determination. Polarization and spectral analysis, will be applied to discriminate seismic recordings from Mt. Amiata that sometimes resemble rather volcano-seismic waveforms with long-period characteristics, than typical tectonic events.

Description: European Seismological Commission

Description: Unpublished

Description: Trieste, Italy

Description: 6T. Sismicità indotta e caratterizzazione sismica dei sistemi naturali

Description: open

Keywords: Monitoring ; Seismic array ; 04. Solid Earth::04.03. Geodesy::04.03.06. Measurements and monitoring

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: Oral presentation

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