Signature of magmatic processes in strainmeter records at Campi Flegrei (Italy)

Bagagli, Matteo; Montagna, Chiara Paola; Papale, Paolo; Longo, Antonella

doi:10.1002/2016gl071875

Cited by 15 publications

(11 citation statements)

References 41 publications

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“…Our results related to the CO 2 degassing are compatible with findings which state that the elastic rock matrix of CF is transitioning to inelastic behavior under long-term stress accumulation, accompanied by a permeability increase in the shallow crust, disguising any direct indicator of unrest, such as rapid ground uplift or enhanced seismicity (Bodnar et al, 2007;Di Luccio et al, 2015;Kilburn et al, 2017). In line with this prospect is a clear seismic velocity decrease since 2012 (Zaccarelli and Bianco, 2017), which could be due to, for instance, a softening bulk or increase in CO 2 saturation in the CF aquifer (Queißer and Singh, 2012) that may also explain the strong seismic attenuation observed (De Siena et al, 2017b).…”

Section: Discussionsupporting

confidence: 91%

“…As all calderas, CF represents a complicated makeup that includes a magmatic plumbing system with a depth of up to ∼ 8 km (Bodnar et al, 2007;Zollo et al, 2008;Vitale et al 2014;Moretti et al, 2017), feeding the overlying hydrothermal system (Chiodini et al, 2010;Troiano et al, 2011;De Siena et al, 2017a) through an intricate network of fractures (Zollo et al, 2008;De Siena et al, 2010;Byrdina et al, 2014). A clear picture of the feeding mechanisms and its dynamics is one of the central open questions regarding CF and is subject to ongoing debate.…”

Section: Introductionmentioning

confidence: 99%

“…An increase in the supply of fluids and associated thermal energy into the hydrothermal system for depressurization of the magmatic source (Allard et al, 1991;Chiodini et al, 2016). This increased supply is thought to stem from either the ∼ 8 km deep main magma reservoir (Bodnar et al, 2007;Zollo et al, 2008;Moretti et al, 2017) or from a contribution of a magma batch that intruded into the shallow subsurface (∼ 3-4 km depth) concomitantly with the 1982-1984 unrest episode (Chiodini et al, 2010;Caliro et al, 2014) and is periodically rejuvenated by arrivals of deep, more primitive magma (Bagagli et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

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Increasing CO<sub>2</sub> flux at Pisciarelli, Campi Flegrei, Italy

Queiβer¹,

Granieri²,

Burton³

et al. 2017

Preprint

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Abstract. Campi Flegrei caldera is located in the metropolitan nucleus of Naples (Italy), and has been undergoing different stages of unrest since 1950, evidenced by episodes of significant ground uplift followed by minor subsidence, increasing and fluctuating emission strengths of water vapor and CO2 from fumaroles, and periodic seismic crises. We deployed a scanning laser remote sensing spectrometer (LARSS) that measures path integrated CO2 concentrations at the Pisciarelli area in May 2017. The resulting mean CO2 flux is 578 ± 246 t d−1. Our data suggest a significant increase in CO2 flux at this site since 2015. Together with recent geophysical observations, this suggests a greater contribution of the magmatic source to the degassing and/or an increase of permeability at shallow levels. Thanks to the integrated path soundings, LARSS proves to give representative measurements from large regions containing different CO2 sources, including fumaroles, low-T vents, and degassing soils, helping to constrain the contribution of deep gases and their migration mechanisms towards the surface.

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Section: Discussionsupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Increasing CO<sub>2</sub> flux at Pisciarelli, Campi Flegrei, Italy

Queiβer¹,

Granieri²,

Burton³

et al. 2017

Preprint

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“…Approximately 74 cm of uplift occurred between 1950and 1952(Del Gaudio et al, 2010, but without any report or record of associated seismic activity. Slow subsidence followed this period of uplift interrupted in 1970-1972 and in 1982-1984 by rapid (≈ 1.5 m) inflation episodes, the first accompanied by moderate low seismicity (Corrado et al, 1977) with only few events felt by residents, whereas the second was accompanied by relatively intense swarms of volcano tectonic (VT) earthquakes (Barberi et al, 1986). This seismic activity caused alarm in the population and a spontaneous partial evacuation of the city of Pozzuoli (44 000 residents).…”

Section: Introductionmentioning

confidence: 98%

Aseismic strain episodes at Campi Flegrei Caldera, Italy

et al. 2021

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Abstract. Since 2004 a research project has been developed to monitor subsurface deformation of Italian volcanoes using borehole strainmeters and long-baseline tiltmeters. Six Sacks-Evertson dilatometers were installed around Campi Flegrei caldera and Vesuvius during 2004–2005 (Scarpa et al., 2007), and in 2008 these instruments were supplemented by two arrays of 28–280 m long water-tube tiltmeters in underground tunnels. Relevant strainmeter and tiltmeter data have been collected and analysed from the instruments installed near Campi Flegrei caldera during the recent unrest episodes. In the period 2004–2005 strain, tilt and GPS data from Campi Flegrei indicate the onset of surface deformation that accompanied a low rate of vertical displacement that continued to 2006, corresponding to an increase of CO2 emission. This strain episode preceded caldera microseismic activity by a few months, as was observed also during a significant inflation episode in 1982. Other transient strain episodes occurred in October 2006, which were accompanied by a swarm of VT (Volcano-Tectonic) and LP (Long Period) events, in 2009, at the time of renewed gas emission activity at Solfatara, and again in March 2010, several minutes before a seismic swarm. The time scale of these transient strain events ranges from some hours to several days, putting tight constraints on the origin of ground uplifts at Campi Flegrei. Their location is compatible with a source inferred from long term deformation signals, located about 4 km beneath Pozzuoli. A proposed mechanism for these aseismic strain episodes is that they are associated with magma growth in reservoirs with occasional pressure relief associated with the leakage of gas.

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“…Vesiculation induced by convection increases magma pressure and may fracture the volcanic edifice triggering an explosive eruption. The injection and mixing process is accompanied by geophysical signals, such as earthquakes, gravity changes and ultralong-period ground oscillations, that can now be accurately detected (Williams and Rymer 2002;Longo et al 2012;Bagagli et al 2017). The knowledge of the time elapsing between the beginning of mixing (and associated geophysical signals) and eruption is thus of greatest importance in forecasting the onset of a volcanic eruption.…”

Section: Magma Mixing Time Scale and Eruption Triggermentioning

confidence: 99%

Magma Mixing: History and Dynamics of an Eruption Trigger

Morgavi

Arienzo

Montagna

et al. 2017

Advances in Volcanology

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The most violent and catastrophic volcanic eruptions on Earth have been triggered by the refilling of a felsic volcanic magma chamber by a hotter more mafic magma. Examples include Vesuvius 79 AD, Krakatau 1883, Pinatubo 1991, and Eyjafjallajökull 2010. Since the first hypothesis, plenty of evidence of magma mixing processes, in all tectonic environments, has accumulated in the literature allowing this natural process to be defined as fundamental petrological processes playing a role in triggering volcanic eruptions, and in the generation of the compositional variability of igneous rocks. Combined with petrographic, mineral chemistry and geochemical investigations, isotopic analyses on volcanic rocks have revealed compositional variations at different length scales pointing to a complex interplay of fractional crystallization, mixing/mingling and crustal contamination during the evolution of several magmatic feeding systems. But to fully understand the dynamics of mixing and mingling

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Signature of magmatic processes in strainmeter records at Campi Flegrei (Italy)

Cited by 15 publications

References 41 publications

Increasing CO<sub>2</sub> flux at Pisciarelli, Campi Flegrei, Italy

Increasing CO<sub>2</sub> flux at Pisciarelli, Campi Flegrei, Italy

Aseismic strain episodes at Campi Flegrei Caldera, Italy

Magma Mixing: History and Dynamics of an Eruption Trigger

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Signature of magmatic processes in strainmeter records at Campi Flegrei (Italy)

Cited by 15 publications

References 41 publications

Increasing CO&lt;sub&gt;2&lt;/sub&gt; flux at Pisciarelli, Campi Flegrei, Italy

Increasing CO&lt;sub&gt;2&lt;/sub&gt; flux at Pisciarelli, Campi Flegrei, Italy

Aseismic strain episodes at Campi Flegrei Caldera, Italy

Magma Mixing: History and Dynamics of an Eruption Trigger

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Increasing CO<sub>2</sub> flux at Pisciarelli, Campi Flegrei, Italy

Increasing CO<sub>2</sub> flux at Pisciarelli, Campi Flegrei, Italy