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A preliminary census of engineering activities located in Sicily (Southern Italy) which may “potentially” induce seismicity
Author(s)
Type
Poster session
Language
English
Obiettivo Specifico
Status
Unpublished
Conference Name
Issued date
April 12, 2015
Conference Location
Vienna (Austria)
Abstract
The seismic events caused by human engineering activities are commonly termed as “triggered” and “induced”.
This class of earthquakes, though characterized by low-to-moderate magnitude, have significant social and eco-
nomical implications since they occur close to the engineering activity responsible for triggering/inducing them
and can be felt by the inhabitants living nearby, and may even produce damage. One of the first well-documented
examples of induced seismicity was observed in 1932 in Algeria, when a shallow magnitude 3.0 earthquake
occurred close to the Oued Fodda Dam. By the continuous global improvement of seismic monitoring networks,
numerous other examples of human-induced earthquakes have been identified. Induced earthquakes occur at
shallow depths and are related to a number of human activities, such as fluid injection under high pressure
(e.g. waste-water disposal in deep wells, hydrofracturing activities in enhanced geothermal systems and oil
recovery, shale-gas fracking, natural and CO2 gas storage), hydrocarbon exploitation, groundwater extraction,
deep underground mining, large water impoundments and underground nuclear tests. In Italy, induced/triggered
seismicity is suspected to have contributed to the disaster of the Vajont dam in 1963. Despite this suspected case
and the presence in the Italian territory of a large amount of engineering activities “capable” of inducing seismicity,
no extensive researches on this topic have been conducted to date. Hence, in order to improve knowledge and
correctly assess the potential hazard at a specific location in the future, here we started a preliminary study on the
entire range of engineering activities currently located in Sicily (Southern Italy) which may “potentially” induce
seismicity. To this end, we performed:
• a preliminary census of all engineering activities located in the study area by collecting all the useful information
coming from available on-line catalogues;
• a detailed compilation of instrumental and historical seismicity, focal mechanisms solutions, multidisciplinary
stress indicators, GPS-based ground deformation field, mapped faults, etc by merging data from on-line catalogues
with those reported in literature.
Finally, for each individual site, we analysed: i) long-term statistic behaviour of instrumental seismicity (mag-
nitude of completeness, seismic release above a threshold magnitude, depth distribution, focal plane solutions);
ii) long-term statistic behaviour of historical seismicity (maximum magnitude estimation, recurrence time inter-
val, etc); iii) properties and orientation of faults (length, estimated geological slip, kinematics, etc); iv) regional
stress (from borehole, seismological and geological observations) and strain (from GPS-based observations) fields.
This class of earthquakes, though characterized by low-to-moderate magnitude, have significant social and eco-
nomical implications since they occur close to the engineering activity responsible for triggering/inducing them
and can be felt by the inhabitants living nearby, and may even produce damage. One of the first well-documented
examples of induced seismicity was observed in 1932 in Algeria, when a shallow magnitude 3.0 earthquake
occurred close to the Oued Fodda Dam. By the continuous global improvement of seismic monitoring networks,
numerous other examples of human-induced earthquakes have been identified. Induced earthquakes occur at
shallow depths and are related to a number of human activities, such as fluid injection under high pressure
(e.g. waste-water disposal in deep wells, hydrofracturing activities in enhanced geothermal systems and oil
recovery, shale-gas fracking, natural and CO2 gas storage), hydrocarbon exploitation, groundwater extraction,
deep underground mining, large water impoundments and underground nuclear tests. In Italy, induced/triggered
seismicity is suspected to have contributed to the disaster of the Vajont dam in 1963. Despite this suspected case
and the presence in the Italian territory of a large amount of engineering activities “capable” of inducing seismicity,
no extensive researches on this topic have been conducted to date. Hence, in order to improve knowledge and
correctly assess the potential hazard at a specific location in the future, here we started a preliminary study on the
entire range of engineering activities currently located in Sicily (Southern Italy) which may “potentially” induce
seismicity. To this end, we performed:
• a preliminary census of all engineering activities located in the study area by collecting all the useful information
coming from available on-line catalogues;
• a detailed compilation of instrumental and historical seismicity, focal mechanisms solutions, multidisciplinary
stress indicators, GPS-based ground deformation field, mapped faults, etc by merging data from on-line catalogues
with those reported in literature.
Finally, for each individual site, we analysed: i) long-term statistic behaviour of instrumental seismicity (mag-
nitude of completeness, seismic release above a threshold magnitude, depth distribution, focal plane solutions);
ii) long-term statistic behaviour of historical seismicity (maximum magnitude estimation, recurrence time inter-
val, etc); iii) properties and orientation of faults (length, estimated geological slip, kinematics, etc); iv) regional
stress (from borehole, seismological and geological observations) and strain (from GPS-based observations) fields.
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