A Physical Model of Sill Expansion to Explain the Dynamics of Unrest at Calderas with Application to Campi Flegrei

Giudicepietro, Flora; Macedonio, Giovanni; Martini, M.

doi:10.3389/feart.2017.00054

Cited by 30 publications

(24 citation statements)

References 64 publications

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“…For example, in Berrino et al (1984) and Dvorak and Berrino (1991), the volume variation of the ground in 1980-1984 is about half of the inferred volume variation of the source, mainly because their analytical models include a significant deformation below the source. In contrast, the volume variation of the source during the minor uplifts of -2013in D'Auria et al (2015 and Giudicepietro et al (2017) is consistent with volume variation of the ground because their analytical model neglects any possible elastic deformation occurring below the source (Macedonio et al 2014;Giudicepietro et al 2016). We remark that, in general, the proportionality between the volume changes at the source and at the surface is dependent upon many factors, such as the elastic parameters and the depth of the source (e.g., Lisowski 2006).…”

Section: Estimation Of the Volume Variation Of The Groundsupporting

confidence: 67%

Radial interpolation of GPS and leveling data of ground deformation in a resurgent caldera: application to Campi Flegrei (Italy)

Bevilacqua

Neri

Martino

et al. 2020

J Geod

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This study presents a new method, called the Radial Interpolation Method, to interpolate data characterized by an approximately radial pattern around a relatively constrained central zone, such as the ground deformation patterns shown in many active volcanic areas. The method enables the fast production of short-term deformation maps on the base of spatially sparse ground deformation measurements and can provide uncertainty quantification on the interpolated values, fundamental for hazard assessment purposes and deformation source reconstruction. The presented approach is not dependent on a priori assumptions about the geometry, location and physical properties of the source, except for the requirement of a locally radial pattern, i.e., allowing multiple centers of symmetry. We test the new method on a synthetic point source example, and then, we apply the method to selected time intervals of real geodetic data collected at the Campi Flegrei caldera during the last 39 years, including examples of leveling, Geodetic Precise Traversing measurements and Global Positioning System. The maps of horizontal displacement, calculated inland, show maximum values lying along a semicircular annular region with a radius of about 2-3 km in size. This semi-annular area is marked by mesoscale structures such as faults, sand dikes and fractures. The maps of vertical displacement describe a linear relation between the maximum vertical uplift measured and the volume variation. The multiplicative factor in the linear relation is about 0.3 × 10 6 m 3 /cm if we estimate the proportion of the ΔV that is captured by the GPS network onland and we use this to estimate the full ΔV. In this case, the 95% confidence interval on K because of linear regression is ± 5%. Finally, we briefly discuss how the new method could be used for the production of short-term vent opening maps on the base of real-time geodetic measurements of the horizontal and vertical displacements.

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Section: Estimation Of the Volume Variation Of The Groundsupporting

confidence: 67%

Radial interpolation of GPS and leveling data of ground deformation in a resurgent caldera: application to Campi Flegrei (Italy)

Bevilacqua

Neri

Martino

et al. 2020

J Geod

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“…During deformation episodes reported by the literature, Campi Flegrei has shown the maximum deformation in the center of the caldera, but the eruptive vents in the last 15 ka is not located in the zone of maximum uplift (Bevilacqua et al, 2015;Giudicepietro et al, 2017). Before an eruption, the radial symmetry of the deformation pattern is broken because of the intrusion of a lateral dike.…”

Section: Discussionmentioning

confidence: 92%

Measurement of Seafloor Deformation in the Marine Sector of the Campi Flegrei Caldera (Italy)

et al. 2018

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We present an assessment of vertical seafloor deformation in the shallow marine sector of the Campi Flegrei caldera (southern Italy) obtained from GPS and bottom pressure recorder (BPR) data, acquired over the period April 2016 to July 2017 in the Gulf of Pozzuoli by a new marine infrastructure, MEDUSA. This infrastructure consists of four fixed buoys with GPS receivers; each buoy is connected by cable to a seafloor multisensor module hosting a BPR. The measured maximum vertical uplift of the seafloor is about 4.2 ± 0.4 cm. The MEDUSA data were then compared to the expected vertical displacement in the marine sector according to a Mogi model point source computed using only GPS land measurements. The results show that a single point source model of deformation is able to explain both the GPS land and seafloor data. Moreover, we demonstrate that a network of permanent GPS buoys represents a powerful tool to measure the seafloor vertical deformation field in shallow water. The performance of this system is comparable to on‐land high‐precision GPS networks, marking a significant achievement and advance in seafloor geodesy and extending volcano monitoring capabilities to shallow offshore areas (up to 100 m depth). The GPS measurements of MEDUSA have also been used to confirm that the BPR data provide an independent measure of the seafloor vertical uplift in shallow water.

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“…Starting from 2004, changes in seismicity (Chiodini et al, ; D'Auria et al, ; Saccorotti et al, ), deformation (Troise et al, ; Trasatti et al, ; D'Auria et al, ; De Martino et al, ; Giudicepietro et al, ; Iannaccone et al, ), and degassing activity (Cardellini et al, ; Chiodini et al, ; Chiodini et al, ; Tamburello et al, ) became evident in the Campi Flegrei caldera. These changes were the subject of scientific investigations that resulted in a remarkable production of articles over the recent years (Amoruso et al, ; De Siena et al, ; Di Luccio et al, ; Giudicepietro et al, ; Kilburn et al, ; Zaccarelli & Bianco, ; Zollo et al, ). In December 2012, the civil protection authorities raised the alert of the caldera from green level (base) to the current yellow level (attention) as consequence of a further increase in the deformation rate, seismicity and degassing (Chiodini et al, ).…”

Section: Introductionmentioning

confidence: 99%

Insight Into Campi Flegrei Caldera Unrest Through Seismic Tremor Measurements at Pisciarelli Fumarolic Field

Giudicepietro

Chiodini

Caliro

et al. 2019

Geochem Geophys Geosyst

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Within a general volcanic unrest in the densely urbanized area of Campi Flegrei caldera (Italy) an increase in the activity of Pisciarelli hydrothermal area is occurring. The seismic amplitude of Pisciarelli fumarolic tremor is a proxy for the fluid emission rate of the entire Solfatara‐Pisciarelli hydrothermal system. The long‐term analysis indicates a significant increase, by a factor of ~3 of the fumarolic tremor amplitude since May 2017. This increment matches with the trend of geochemical and seismic parameters observed in Campi Flegrei, therefore highlighting that Pisciarelli is a key site to monitor the volcanic unrest underway in this high‐risk caldera. The analysis of data from three closely spaced seismic stations provided new clues about the source mechanism of the tremor. Analyzing the fumarolic tremor amplitude we could also identify an episode of enlargement of the emission area close to the main fumarole of Pisciarelli. We propose a monitoring system based on the fumarolic tremor analysis, which provides real‐time information on the Pisciarelli hydrothermal activity and therefore on the current unrest in Campi Flegrei caldera.

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A Physical Model of Sill Expansion to Explain the Dynamics of Unrest at Calderas with Application to Campi Flegrei

Cited by 30 publications

References 64 publications

Radial interpolation of GPS and leveling data of ground deformation in a resurgent caldera: application to Campi Flegrei (Italy)

Radial interpolation of GPS and leveling data of ground deformation in a resurgent caldera: application to Campi Flegrei (Italy)

Measurement of Seafloor Deformation in the Marine Sector of the Campi Flegrei Caldera (Italy)

Insight Into Campi Flegrei Caldera Unrest Through Seismic Tremor Measurements at Pisciarelli Fumarolic Field

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