Luca De Siena scite author profile

[1] Passive high-resolution attenuation tomography is used here to image the geological structure in the first upper 4 km of the shallow crust beneath the Campi Flegrei caldera, southern Italy. The inverse Q was estimated for each source-receiver path using the coda-normalization method (S-waves) and the slope decay method (P-waves and S-waves). Inversion was performed using a multi-resolution method, which ensures a minimum cell-size resolution of 500 m. The study of the resolution matrix as well as the synthetic tests guarantee an optimal reproduction of the input anomalies in the center of the caldera, between 0 and 3.5 km in depth. High attenuation vertical structures are connected at the surface with the main volcanological features (e.g., the Solfatara and Mofete fumarole fields), and depict vertical Q contrast imaging important geological structures, such as the La Starza fault. These high attenuation volumes extend between the surface and a depth of about 3 km, where a hard rock layer is imaged by the sharp contrast of the quality factors. The retrieved image of the Campi Flegrei has been jointly interpreted taking into account evidence from seismological, geological, volcanological and geochemical investigations. This analysis has allowed an unprecedented view of the feeding systems in this area, and in particular it recognizes the vertically extending, high attenuation structures that correspond to gas or fluid reservoirs beneath Pozzuoli-Solfatara, Solfatara, Mofete-Mt. Nuovo and Agnano. This high-attenuation system is possibly connected with the magma sill revealed at about 7 km in depth by passive travel-time tomography.

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Source and dynamics of a volcanic caldera unrest: Campi Flegrei, 1983–84

Siena

Chiodini

Vilardo

et al. 2017

Sci Rep

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Despite their importance for eruption forecasting the causes of seismic rupture processes during caldera unrest are still poorly reconstructed from seismic images. Seismic source locations and waveform attenuation analyses of earthquakes in the Campi Flegrei area (Southern Italy) during the 1983–1984 unrest have revealed a 4–4.5 km deep NW-SE striking aseismic zone of high attenuation offshore Pozzuoli. The lateral features and the principal axis of the attenuation anomaly correspond to the main source of ground uplift during the unrest. Seismic swarms correlate in space and time with fluid injections from a deep hot source, inferred to represent geochemical and temperature variations at Solfatara. These swarms struck a high-attenuation 3–4 km deep reservoir of supercritical fluids under Pozzuoli and migrated towards a shallower aseismic deformation source under Solfatara. The reservoir became aseismic for two months just after the main seismic swarm (April 1, 1984) due to a SE-to-NW directed input from the high-attenuation domain, possibly a dyke emplacement. The unrest ended after fluids migrated from Pozzuoli to the location of the last caldera eruption (Mt. Nuovo, 1538 AD). The results show that the high attenuation domain controls the largest monitored seismic, deformation, and geochemical unrest at the caldera.

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P and S wave travel time tomography of the SE Asia-Australia collision zone

Zenonos

Siena

Widiyantoro

et al. 2019

Physics of the Earth and Planetary Interiors

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Clues on the origin of post-2000 earthquakes at Campi Flegrei caldera (Italy)

Chiodini

Selva

Pezzo

et al. 2017

Sci Rep

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The inter-arrival times of the post 2000 seismicity at Campi Flegrei caldera are statistically distributed into different populations. The low inter-arrival times population represents swarm events, while the high inter-arrival times population marks background seismicity. Here, we show that the background seismicity is increasing at the same rate of (1) the ground uplift and (2) the concentration of the fumarolic gas specie more sensitive to temperature. The seismic temporal increase is strongly correlated with the results of recent simulations, modelling injection of magmatic fluids in the Campi Flegrei hydrothermal system. These concurrent variations point to a unique process of temperature-pressure increase of the hydrothermal system controlling geophysical and geochemical signals at the caldera. Our results thus show that the occurrence of background seismicity is an excellent parameter to monitor the current unrest of the caldera.

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Space‐weighted seismic attenuation mapping of the aseismic source of Campi Flegrei 1983–1984 unrest

Siena

Amoruso

Pezzo

et al. 2017

Geophysical Research Letters

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Coda wave attenuation imaging is able to detect fluid/melt accumulation and ancient magmatic bodies in volcanoes. Here we use recently developed space‐weighting sensitivity functions to invert for the spatial distributions of multifrequency coda wave attenuation ( Qc−1), measured during the largest monitored unrest at Campi Flegrei caldera (1983–1984). High‐attenuation anomalies are spatially correlated with the regions of highest structural complexities and cross faulting. They characterize deep fluid circulation in and around the aseismic roots of the 1534 A.D. Mount Nuovo eruption and fluid accumulation in the areas of highest hydrothermal hazard. Just offshore Pozzuoli, and at the highest frequency (wavelengths of ∼150 m), the main cause of ground deformation and seismicity during the unrest is an aseismic low‐attenuation circular anomaly, similar in shape and nature to those produced by ancient magmatic reservoirs and active sills at other volcanoes.

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Luca De Siena

Seismic attenuation imaging of Campi Flegrei: Evidence of gas reservoirs, hydrothermal basins, and feeding systems

Source and dynamics of a volcanic caldera unrest: Campi Flegrei, 1983–84

P and S wave travel time tomography of the SE Asia-Australia collision zone

Clues on the origin of post-2000 earthquakes at Campi Flegrei caldera (Italy)

Space‐weighted seismic attenuation mapping of the aseismic source of Campi Flegrei 1983–1984 unrest

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