Crystal-mush reactivation by magma recharge: Evidence from the Campanian Ignimbrite activity, Campi Flegrei volcanic field, Italy

AbstractThe city of Naples can be considered part of the Campi Flegrei volcanic field, and deposits within the urban area record many autochthonous pre- to post-caldera eruptions. Age measurements were carried out using 40Ar–39Ar dating techniques on samples from small monogenetic vents and more widely distributed tephra layers. The 40Ar–39Ar ages on feldspar phenocrysts yielded ages of c. 16 ka and 22 ka for events older than the Neapolitan Yellow Tuff caldera-forming eruption (15 ka), and ages of c. 40 ka, 53 ka and 78 ka for events older than the Campanian Ignimbrite caldera-forming eruption (39 ka). The oldest age obtained is 18 ka older than previous dates for pyroclastic deposits cropping out along the northern rim of Campi Flegrei. The results of this study allow us to divide the Campi Flegrei volcanic history into four main, geochronologically distinct eruptive cycles. A new period, the Paleoflegrei, occurred before 74–78 ka and has been proposed to better discriminate the ancient volcanism in the volcanic field. The eruptive history of Campi Flegrei extends possibly further back than this, but the products of previous eruptions are difficult to date owing to the lack of fresh juvenile clasts. These new geochronological data, together with recently published ages related to young volcanic edifices located in the city of Naples (Nisida volcano, 3.9 ka) testify to persistent activity over a period of at least 80 ka, with an average eruption recurrence interval of ~555 years within and adjacent to this densely populated city.

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Magma chamber evolution prior to the Campanian Ignimbrite and Neapolitan Yellow Tuff eruptions (Campi Flegrei, Italy)

Bulletin of Volcanology ◽

10.1007/s00445-007-0180-z ◽

2007 ◽

Vol 70 (8) ◽

pp. 961-976 ◽

Cited By ~ 49

Author(s):

Sonja Pabst ◽

Gerhard Wörner ◽

Lucia Civetta ◽

Roberto Tesoro

Keyword(s):

Magma Chamber ◽

Campi Flegrei ◽

Campanian Ignimbrite ◽

Neapolitan Yellow Tuff

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The permeability and elastic moduli of tuff from Campi Flegrei, Italy: implications for ground deformation modelling

Solid Earth ◽

10.5194/se-5-25-2014 ◽

2014 ◽

Vol 5 (1) ◽

pp. 25-44 ◽

Cited By ~ 56

Author(s):

M. J. Heap ◽

P. Baud ◽

P. G. Meredith ◽

S. Vinciguerra ◽

T. Reuschlé

Keyword(s):

Ultrasonic Wave ◽

Elastic Moduli ◽

Ground Deformation ◽

Laboratory Data ◽

Campi Flegrei ◽

Pore Collapse ◽

Campanian Ignimbrite ◽

Wave Velocities ◽

Neapolitan Yellow Tuff ◽

Dynamic Elastic Moduli

Abstract. The accuracy of ground deformation modelling at active volcanoes is a principal requirement in volcanic hazard mitigation. However, the reliability of such models relies on the accuracy of the rock physical property (permeability and elastic moduli) input parameters. Unfortunately, laboratory-derived values on representative rocks are usually rare. To this end we have performed a systematic laboratory study on the influence of pressure and temperature on the permeability and elastic moduli of samples from the two most widespread lithified pyroclastic deposits at the Campi Flegrei volcanic district, Italy. Our data show that the water permeability of Neapolitan Yellow Tuff and a tuff from the Campanian Ignimbrite differ by about 1.5 orders of magnitude. As pressure (depth) increases beyond the critical point for inelastic pore collapse (at an effective pressure of 10–15 MPa, or a depth of about 750 m), permeability and porosity decrease significantly, and ultrasonic wave velocities and dynamic elastic moduli increase significantly. Increasing the thermal stressing temperature increases the permeability and decreases the ultrasonic wave velocities and dynamic elastic moduli of the Neapolitan Yellow Tuff; whereas the tuff from the Campanian Ignimbrite remains unaffected. This difference is due to the presence of thermally unstable zeolites within the Neapolitan Yellow Tuff. For both rocks we also find, under the same pressure conditions, that the dynamic (calculated from ultrasonic wave velocities) and static (calculated from triaxial stress-strain data) elastic moduli differ significantly. The choice of elastic moduli in ground deformation modelling is therefore an important consideration. While we urge that these new laboratory data should be considered in routine ground deformation modelling, we highlight the challenges for ground deformation modelling based on the heterogeneous nature (vertically and laterally) of the rocks that comprise the caldera at Campi Flegrei.

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Clinopyroxene growth rates at high pressure: constraints on magma recharge of the deep reservoir of the Campi Flegrei Volcanic District (south Italy)

Bulletin of Volcanology ◽

10.1007/s00445-019-1342-5 ◽

2019 ◽

Vol 82 (1) ◽

Cited By ~ 4

Author(s):

B. Bonechi ◽

C. Perinelli ◽

M. Gaeta

Keyword(s):

High Pressure ◽

Growth Rates ◽

Campi Flegrei ◽

South Italy ◽

Deep Reservoir ◽

Magma Recharge

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Magma Recharge and Crystal Mush Rejuvenation Associated with Early Post-collapse Upper Basin Member Rhyolites, Yellowstone Caldera, Wyoming

Journal of Petrology ◽

10.1093/petrology/egp070 ◽

2009 ◽

Vol 50 (11) ◽

pp. 2095-2125 ◽

Cited By ~ 39

Author(s):

Guillaume Girard ◽

John Stix

Keyword(s):

Crystal Mush ◽

Magma Recharge ◽

Yellowstone Caldera

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Volcanic hazard and risk assessment in a multi-source volcanic area: the example of Napoli city (Southern Italy)

Natural Hazards and Earth System Science ◽

10.5194/nhess-11-1057-2011 ◽

2011 ◽

Vol 11 (4) ◽

pp. 1057-1070 ◽

Cited By ~ 28

Author(s):

I. Alberico ◽

P. Petrosino ◽

L. Lirer

Keyword(s):

Risk Assessment ◽

Volcanic Hazard ◽

Volcanic Field ◽

Campi Flegrei ◽

Volcanic Area ◽

Central Volcano ◽

Field Frequency ◽

Future Possibility ◽

Hazard And Risk ◽

Hazard And Risk Assessment

Abstract. The possible emplacement of pyroclastic fall and flow products from Campi Flegrei and Somma-Vesuvio represents a threat for the population living in Napoli city. For this area, the volcanic hazard was always partially investigated to define the hazard related to the Campi Flegrei or to the Somma-Vesuvio activity one at a time. A new volcanic hazard and risk assessment, at the municipality scale, as a vital tool for decision-making about territorial management and future planning, is presented here. In order to assess the hazard related to the explosive activity of both sources, we integrated the results of field studies and numerical simulations, to evaluate the future possibility for Napoli to be hit by the products of an explosive eruption. This is defined for the Somma Vesuvio central volcano through the sum of "field frequency" based on the thickness and distribution of past deposits (Lirer et al., 2001), and for the Campi Flegrei volcanic field by suitably processing simulated events based on numerical modelling (Alberico et al., 2002; Costa et al., 2009). Aiming at volcanic risk assessment, the hazard areas were joined with the exposure map, considered for our purposes as the economical value of artefacts exposed to hazard. We defined four risk classes, and argued that the medium and low-very low risk classes have the largest extent in Napoli municipality, whereas only few zones located in the eastern part of the city and in the westernmost coastal area show a high risk, owing to the correspondence of high economical value and high hazard.

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