Significance of the 1982-2014 Campi Flegrei seismicity: Preexisting structures, hydrothermal processes, and hazard assessment
Author(s)
Language
English
Obiettivo Specifico
7T. Struttura della Terra e geodinamica
6V. Pericolosità vulcanica e contributi alla stima del rischio
Status
Published
JCR Journal
JCR Journal
Peer review journal
Yes
Journal
Issue/vol(year)
/42 (2015)
Pages (printed)
7498–7506
Date Issued
2015
Abstract
We find that the double-difference relocated seismicity, which occurred over the last 30 years
at Campi Flegrei, was triggered by the uprising of fluids preferentially concentrated along onshore and
offshore NW striking preexisting caldera faults. Focal volumes of the 2005–2014 seismicity do not overlap
that of the 1982–1984 period, when a major uplift of 1.8 m occurred in the central sector of the caldera. This
indicates a transition from an elastic to a plastic behavior due to fluid saturation and heating of the rocks
in the hydrothermal reservoir. The 2012–2014 deeper earthquakes are located in a low VP∕VS zone at the
western boundary of the hydrothermal reservoir, where a volume increase from a magmatic body at 3.5 km
depth has been recognized. The progressive rheological change from elastic to plastic in the upper 4 km of
the crust implies that a slow upward migration of magma may not necessarily be preceded by earthquakes
or swarms.
at Campi Flegrei, was triggered by the uprising of fluids preferentially concentrated along onshore and
offshore NW striking preexisting caldera faults. Focal volumes of the 2005–2014 seismicity do not overlap
that of the 1982–1984 period, when a major uplift of 1.8 m occurred in the central sector of the caldera. This
indicates a transition from an elastic to a plastic behavior due to fluid saturation and heating of the rocks
in the hydrothermal reservoir. The 2012–2014 deeper earthquakes are located in a low VP∕VS zone at the
western boundary of the hydrothermal reservoir, where a volume increase from a magmatic body at 3.5 km
depth has been recognized. The progressive rheological change from elastic to plastic in the upper 4 km of
the crust implies that a slow upward migration of magma may not necessarily be preceded by earthquakes
or swarms.
Type
article
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