Your search keyword '"Mauro Rosi"' showing total 38 results

1. A data driven approach to mineral chemistry unveils magmatic processes associated with long-lasting, low-intensity volcanic activity

Author

Simone Costa, Luca Caricchi, Marco Pistolesi, Anna Gioncada, Matteo Masotta, Costanza Bonadonna, and Mauro Rosi

Subjects

Medicine, Science

Abstract

Abstract The most frequent volcanic eruptions are of low-intensity and small magnitude. They produce abundant ash-sized (

Published

2023

2. Lahar risk assessment from source identification to potential impact analysis: the case of Vulcano Island, Italy

Author

Alessandro Gattuso, Costanza Bonadonna, Corine Frischknecht, Sabatino Cuomo, Valérie Baumann, Marco Pistolesi, Sebastien Biass, J. Ramon Arrowsmith, Mariagiovanna Moscariello, and Mauro Rosi

Subjects

Lahar, Debris flow, SPH, Hazard, Risk, La Fossa volcano, Environmental protection, TD169-171.8, Disasters and engineering, TA495

Abstract

Abstract Lahars are rapid flows composed of water and volcaniclastic sediments, which have the potential to impact residential buildings and critical infrastructure as well as to disrupt critical services, especially in the absence of hazard-based land-use planning. Their destructive power is mostly associated with their velocity (related to internal flow properties and topographic interactions) and to their ability to bury buildings and structures (due to deposit thickness). The distance reached by lahars depends on their volume, on sediments/water ratio, as well as on the geometrical properties of the topography where they propagate. Here we present the assessment of risk associated with lahar using Vulcano island (Italy) as a case study. First, we estimated an initial lahar source volume considering the remobilisation by intense rain events of the tephra fallout on the slopes of the La Fossa cone (the active system on the island), where the tephra fallout is associated with the most likely scenario (e.g. long-lasting Vulcanian cycle). Second, we modelled and identified the potential syn-eruptive lahar impact areas on the northern sector of Vulcano, where residential and touristic facilities are located. We tested a range of parameters (e.g., entrainment capability, consolidation of tephra fallout deposit, friction angle) that can influence lahar propagation output both in terms of intensity of the event and extent of the inundation area. Finally, exposure and vulnerability surveys were carried out in order to compile exposure and risk maps for lahar-flow front velocity (semi-quantitative indicator-based risk assessment) and final lahar-deposit thickness (qualitative exposure-based risk assessment). Main outcomes show that the syn-eruptive lahar scenario with medium entrainment capability produces the highest impact associated with building burial by the final lahar deposit. Nonetheless, the syn-eruptive lahar scenario with low entrainment capacity is associated with higher runout and results in the highest impact associated with lahar-flow velocities. Based on our simulations, two critical infrastructures (telecommunication and power plant), as well as the main road crossing the island are exposed to potential lahar impacts (either due to lahar-flow velocity or lahar-deposit thickness or both). These results show that a risk-based spatial planning of the island could represent a valuable strategy to reduce the volcanic risk in the long term.

Published

2021

3. Integrating hazard, exposure, vulnerability and resilience for risk and emergency management in a volcanic context: the ADVISE model

Author

Costanza Bonadonna, Corine Frischknecht, Scira Menoni, Franco Romerio, Chris E. Gregg, Mauro Rosi, Sebastien Biass, Ali Asgary, Marco Pistolesi, Dehrick Guobadia, Alessandro Gattuso, Antonio Ricciardi, and Chiara Cristiani

Subjects

Risk assessment, Risk management, Emergency management, Hazard, Physical vulnerability, Functional vulnerability, Environmental protection, TD169-171.8, Disasters and engineering, TA495

Abstract

Abstract Risk assessments in volcanic contexts are complicated by the multi-hazard nature of both unrest and eruption phases, which frequently occur over a wide range of spatial and temporal scales. As an attempt to capture the multi-dimensional and dynamic nature of volcanic risk, we developed an integrAteD VolcanIc risk asSEssment (ADVISE) model that focuses on two temporal dimensions that authorities have to address in a volcanic context: short-term emergency management and long-term risk management. The output of risk assessment in the ADVISE model is expressed in terms of potential physical, functional, and systemic damage, determined by combining the available information on hazard, exposed systems and vulnerability. The ADVISE model permits qualitative, semi-quantitative and quantitative risk assessment depending on the final objective and on the available information. The proposed approach has evolved over a decade of study on the volcanic island of Vulcano (Italy), where recent signs of unrest combined with uncontrolled urban development and significant seasonal variations of exposed population result in highly dynamic volcanic risk. For the sake of illustration of all the steps of the ADVISE model, we focus here on the risk assessment of the transport system in relation to the tephra fallout associated with a long-lasting Vulcanian cycle.

Published

2021

4. Defining the Pre-Eruptive States of Active Volcanoes for Improving Eruption Forecasting

Author

Mauro Rosi, Valerio Acocella, Raffaello Cioni, Francesca Bianco, Antonio Costa, Prospero De Martino, Guido Giordano, and Salvatore Inguaggiato

Subjects

volcano unrest, magma accumulation, dyke propagation, eruption, volcano monitoring, Science

Abstract

A crucial feature to manage a volcanic crisis is the ability of volcanologists to promptly detect an impending eruption. This is often affected by significant uncertainty, mainly for the difficulty in interpreting the monitoring signals in terms of the exact timing of a possible eruption. Here we contribute to this problem, focusing on the states of active volcanoes with closed conduit, as deduced from monitoring data. Four main states can be identified. In the quiescence state 1) the monitoring data lie on a baseline, suggesting the lack of shallow magma/fluid movement. The unrest state is highlighted by minor 2) to major 3) variations in the intensity and rate of monitoring data; in both cases, radial ground deformation pattern and non-migrating seismicity imply shallow magma and/or fluid accumulation. The state of impending eruption 4) is characterised by non-radial, asymmetric ground deformation pattern and migrating seismicity, which suggest that magma approaches the surface through a propagating dyke. As early recognition of this distinctive state is crucial for timely eruption forecast, monitoring activity should be aimed at its prompt detection. The application of this rationale to two types of active volcanoes in densely inhabited areas, a restless caldera (Campi Flegrei) and a quiescent stratovolcano (Vesuvio), highlights its feasibility and importance in eruption forecasting. This rationale may foster a general reference framework to be adopted in case of unrest, supporting in interpreting the monitoring data, as well as more effective: 1) operationally-oriented, monitoring system; 2) probabilistic forecast; 3) use of volcanic alert levels.

Published

2022

5. [In Versilia science and society working together on water resources management]

Author

Mauro Rosi

Subjects

Versilia’s groundwater systems, water treatment, sustainable water management, water resource and climate change, aquifer recharge, Geology, QE1-996.5

Abstract

[Article in Italian] In Versilia scienza e società lavorano insieme per la gestione della risorsa acqua I convegni sull’ambiente di Villa Bertelli a Forte dei Marmi, si pongono l’obiettivo di fare dialogare scienza, rappresentanti del territorio e mondo della scuola per analizzare le sfide ambientali del comprensorio Apuo-Versiliese. Il fine ultimo di questi eventi è quello di mettere a disposizione degli organi di governo e gestionali del territorio e professionisti, elementi conoscitivi rigorosi ed oggettivi necessari a indentificare i problemi e le possibili soluzioni e a guidare le strategie di medio e lungo periodo.

Published

2020

6. The Effects of Vent Location, Event Scale, and Time Forecasts on Pyroclastic Density Current Hazard Maps at Campi Flegrei Caldera (Italy)

Author

Andrea Bevilacqua, Augusto Neri, Marina Bisson, Tomaso Esposti Ongaro, Franco Flandoli, Roberto Isaia, Mauro Rosi, and Stefano Vitale

Subjects

hazard mapping, Campi Flegrei, Cox-Hawkes processes, box model, doubly stochastic models, Monte Nuovo, Science

Abstract

This study presents a new method for producing long-term hazard maps for pyroclastic density currents (PDC) originating at Campi Flegrei caldera. Such method is based on a doubly stochastic approach and is able to combine the uncertainty assessments on the spatial location of the volcanic vent, the size of the flow and the expected time of such an event. The results are obtained by using a Monte Carlo approach and adopting a simplified invasion model based on the box model integral approximation. Temporal assessments are modeled through a Cox-type process including self-excitement effects, based on the eruptive record of the last 15 kyr. Mean and percentile maps of PDC invasion probability are produced, exploring their sensitivity to some sources of uncertainty and to the effects of the dependence between PDC scales and the caldera sector where they originated. Conditional maps representative of PDC originating inside limited zones of the caldera, or of PDC with a limited range of scales are also produced. Finally, the effect of assuming different time windows for the hazard estimates is explored, also including the potential occurrence of a sequence of multiple events. Assuming that the last eruption of Monte Nuovo (A.D. 1538) marked the beginning of a new epoch of activity similar to the previous ones, results of the statistical analysis indicate a mean probability of PDC invasion above 5% in the next 50 years on almost the entire caldera (with a probability peak of ~25% in the central part of the caldera). In contrast, probability values reduce by a factor of about 3 if the entire eruptive record is considered over the last 15 kyr, i.e., including both eruptive epochs and quiescent periods.

Published

2017

7. The Stromboli Volcano: An Integrated Study of the 2002 - 2003 Eruption

Author

Sonia Calvari, Salvatore Inguaggiato, Giuseppe Puglisi, Maurizio Ripepe, Mauro Rosi, Sonia Calvari, Salvatore Inguaggiato, Giuseppe Puglisi, Maurizio Ripepe, Mauro Rosi

Published

2013

8. The contribution of palaeomagnetism, tephrochronology and radiocarbon dating to refine the last 1100 years of eruptive activity at Vulcano (Italy)

Author

Arianna Beatrice Malaguti, Mauro Rosi, Marco Pistolesi, Fabio Speranza, and Martin Menzies

Subjects

Palaeomagnetic dating, Radiocarbon, Tephrostratigraphy, Vulcanello, Vulcano Island, Geochemistry and Petrology

Published

2022

9. Chrono-stratigraphy of the youngest (last 1500 years) rhyolitic eruptions of Lipari (Aeolian Islands, Southern Italy) and implications for distal tephra correlations

Author

E. Billotta, Marco Pistolesi, A.B. Malaguti, Claudio Antonio Tranne, Mauro Rosi, A. Di Roberto, Federico Lucchi, Fabio Speranza, Paul G. Albert, Victoria C. Smith, Pistolesi, M., Rosi, M., Malaguti, A.B., Lucchi, F., Tranne, C.A., Speranza, F., Albert, P.G., Smith, V.C., Di Roberto, A., and Billotta, E.

Subjects

Rhyolitic eruption, geography, Paleomagnetism, geography.geographical_feature_category, Explosive eruption, Lava, Geochemistry, Pyroclastic rock, Chrono-stratigraphy, Lapilli, Lipari, Volcanic glass, Geophysics, Volcano, Geochemistry and Petrology, Pumice, Tephra correlations, Lipari Chrono-stratigraphy Rhyolitic eruption Paleomagnetism Tephra correlations, Tephra, Geology

Abstract

The youngest (last 1500 years) volcanic eruptions of Lipari, within the Aeolian Archipelago, produced the prominent pumice cone of Monte Pilato and the obsidian lava flows of Rocche Rosse and Forgia Vecchia, concentrated in the north-eastern sector of the island as well as highly dispersed white-coloured, fine-grained tephra layers of rhyolitic composition in terrestrial and marine settings on the regional scale. Here we describe in detail the stratigraphy of pyroclastic successions and lava flows erupted by different vents - Monte Pilato, Forgia Vecchia, Lami, and Rocche Rosse - combining field observations, sedimentological characteristics of the tephra deposits, and major and trace element compositions of the volcanic glass. All the pyroclastic materials consist of aphyric pumice lapilli and ash with a largely homogeneous rhyolitic composition. The Monte Pilato and Forgia Vecchia deposits primarily consist of highly vesicular pumice fragments and subordinate obsidian clasts, whilst Rocche Rosse and Lami are characterized by moderately vesicular juvenile fragments with a more significant fraction of obsidian. The Lami tephra also contains peculiar pumice clasts with a fibrous texture and breadcrust bombs. Stratigraphic relationships, and paleomagnetic and 14C ages of the lava and pyroclastic deposits are combined with the archaeological information and historical reports, enabling us to provide an accurate chrono-stratigraphic framework for the youngest eruptions of Lipari. Following the 8th century CE eruption of Monte Pilato, which produced a pumice cone and a obsidian lava flow, activity resumed in the second half of 13th century CE with the explosive eruption of Forgia Vecchia that culminated in the emission of a bilobate obsidian lava flow. This eruption was shortly followed by the explosive eruptions of Lami and Rocche Rosse, the latter concluded with the emission of the widely renowned obsidian lava flow. By integrating stratigraphy and geochemistry of tephra deposits with a new chronological scheme, our work facilitates the refinement of proximal-to-distal correlation of Lipari's rhyolitic tephra in continental marine environments of the central Mediterranean area in the last 1500 years. A fine-grained, rhyolitic ash found on Stromboli (~40 km NE from Lipari) has an origin from the Monte Pilato and thus, constrains tephra dispersion towards the NE. Very similar ash beds dispersed southwards and interlayered within the near-source deposits of La Fossa, Vulcano island (~10 km from Lipari) exhibit features that are consistent with the younger activities of the Rocche Rosse eruption. A possible link between previously identified rhyolitic ash layers identified in marine cores of the Ionian Sea and the Forgia Vecchia eruption are postulated, although the age and textural characteristics of these distal tephra are not univocal in indicating a correlation to either Monte Pilato or Forgia Vecchia.

Published

2021

10. Evidence of active magmatic rifting at the Ma’Alalta volcanic field (Afar, Ethiopia)

Author

Anna Gioncada, Carolina Pagli, Derek Keir, Laura De Dosso, Mauro Rosi, and Gianmaria Tortelli

Subjects

Basalt, Cinder cone, Tectonic extension, Rift, 010504 meteorology & atmospheric sciences, Lava, Ma’Alalta volcanic field, Rift segment, Central volcano, Rift margin, Magma plumbing, Silicic, 010502 geochemistry & geophysics, 01 natural sciences, Geochemistry and Petrology, Magma, Stratovolcano, Mafic, Petrology, Geology, 0105 earth and related environmental sciences

Abstract

During continental rifting, strain and magmatism are believed to localize to narrow magmatic segments, while the rift margin is progressively abandoned. We integrate volcanological, geochemical, petrological and seismic data from the Ma’Alalta volcanic field (MVF) near the western margin of Afar, to show that the MVF is an active magmatic segment. Magmatism in MVF initiated with lava flows and large-volume, caldera-forming ignimbrites from a central edifice. However, the most recent magmatic activity shifted towards mafic lava fields, cinder cones and obsidian-rich silicic domes erupted from vents aligned NNW-SSE, defining a ~ 35-km-long magmatic segment. Along the same area, a NNW-SSE alignment of earthquakes was recorded by two local seismic networks (2005–2009 and 2011–2013). The geochemistry of the mafic rocks is similar to those of nearby axial volcanoes. Inferred magma storage depth from mineral geobarometry shows that a shallow, silicic chamber existed at ~ 5-km depth below the stratovolcano, while a stacked plumbing system with at least three magma storage levels between 9 and 24 km depth fed the recent basalts. We interpret the wide set of observations from the MVF as evidence that the area is an active magmatic segment, showing that localised axial extension can be heavily offset towards the rift margin.

Published

2021

11. Tsunami and tephra deposits record interactions between past eruptive activity and landslides at Stromboli volcano, Italy

Author

Alessio Di Roberto, Mauro Rosi, Maurizio Ripepe, Antonella Bertagnini, and Marco Pistolesi

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Volcano, 13. Climate action, Geochemistry, Geology, Landslide, 010502 geochemistry & geophysics, Tephra, 01 natural sciences, 0105 earth and related environmental sciences

Abstract

Devastation associated with tsunamis is well known on the global scale. Flank collapse at volcanic islands is among the mechanisms triggering tsunamis, but very few examples document interaction between landslides and volcanic activity. The study of three well-preserved medieval tsunami deposits recently discovered along the coast of Stromboli volcano (Aeolian Islands, southern Italy) enabled a detailed characterization of the tsunami sequences intercalated with volcaniclastic deposits and primary tephra and allowed reconstruction of the likely sequence of volcanic events. In one case, a violent explosion possibly preceded the tsunami, whereas in the youngest event, the lateral collapse of the volcano flank triggered a tsunami wave that was rapidly followed by sustained explosive magmatic activity and ensuing prolonged ash venting. The hypothesized tsunami-triggering dynamics suggests a close link between volcanic activity and flank collapse, further confirming that the persistent activity at Stromboli makes the volcano particularly susceptible to tsunami generation.

Published

2020

12. Geoarchaeological evidence of Middle-Age tsunamis at Stromboli and consequences for the tsunami hazard in the Southern Tyrrhenian Sea

Author

Marco Pistolesi, F. Ferranti, Sara Tiziana Levi, Alberto Renzulli, Valentina Cannavo, Antonella Bertagnini, D. Yoon, Mauro Rosi, A. Di Renzoni, and Daniele Brunelli

Subjects

0301 basic medicine, Volcanic island, hazard, lcsh:Medicine, Article, geoarchaeological, Archaeological science, Geological Phenomena, Middle Age, 03 medical and health sciences, Paleontology, 0302 clinical medicine, Stromboli, lcsh:Science, geography, Multidisciplinary, tsunami, stromboli, geography.geographical_feature_category, Tsunami, lcsh:R, Landslide, Storm, tsunami, Stromboli, landslide, archaeometry, Hazard, 030104 developmental biology, Volcano, Tsunami hazard, lcsh:Q, 030217 neurology & neurosurgery, Geology

Abstract

Large-scale landslides at volcanic islands are one of the most dangerous geological phenomena, able to generate tsunamis whose effects can propagate far from the source. However, related deposits are scarcely preserved on-land in the geologic records, and are often difficult to be interpreted. Here we show the discovery of three unprecedented well-preserved tsunami deposits related to repeated flank collapses of the volcanic island of Stromboli (Southern Italy) occurred during the Late Middle Ages. Based on carbon datings, on stratigraphic, volcanological and archaeological evidence, we link the oldest, highest-magnitude investigated tsunami to the following rapid abandonment of the island which was inhabited at that time, contrary than previously thought. The destructive power of this event is also possibly related to a huge marine storm that devastated the ports of Naples in 1343 (200 km north of Stromboli) described by the famous writer Petrarch. The portrayed devastation can be potentially attributed to the arrival of multiple tsunami waves generated by a major landslide in Stromboli island, confirming the hypothetical hazard of these phenomena at a regional scale.

Published

2019

13. The Effects of Vent Location, Event Scale, and Time Forecasts on Pyroclastic Density Current Hazard Maps at Campi Flegrei Caldera (Italy)

Author

Roberto Isaia, Stefano Vitale, Andrea Bevilacqua, Mauro Rosi, Tomaso Esposti Ongaro, Augusto Neri, Marina Bisson, Franco Flandoli, Bevilacqua, Andrea, Neri, Augusto, Bisson, Marina, Esposti Ongaro, Tomaso, Flandoli, Franco, Isaia, Roberto, Rosi, Mauro, and Vitale, Stefano

Subjects

010504 meteorology & atmospheric sciences, Hazard mapping, uncertainty quantification, Monte Carlo method, Pyroclastic rock, 010502 geochemistry & geophysics, 01 natural sciences, Doubly stochastic model, Monte Nuovo, Range (statistics), Caldera, Earth Science, Uncertainty quantification, lcsh:Science, 0105 earth and related environmental sciences, Event (probability theory), Vent opening map, Series (stratigraphy), geography, doubly stochastic models, geography.geographical_feature_category, box model, vent opening maps, hazard mapping, Box model, Campi Flegrei, Cox-Hawkes processes, Doubly stochastic models, Vent opening maps, Earth and Planetary Sciences (all), Cox-Hawkes processe, Volcano, 13. Climate action, General Earth and Planetary Sciences, lcsh:Q, hazard mapping, Campi Flegrei, Cox-Hawkes processes, box model, doubly stochastic models, Monte Nuovo, uncertainty quantification, vent opening maps, Seismology, Geology

Abstract

This study presents a new method for producing long-term hazard maps for pyroclastic density currents (PDC) originating at Campi Flegrei caldera. Such method is based on a doubly stochastic approach and is able to combine the uncertainty assessments on the spatial location of the volcanic vent, the size of the flow and the expected time of such an event. The results are obtained by using a Monte Carlo approach and adopting a simplified invasion model based on the box model integral approximation. Temporal assessments are modelled through a Cox-type process including self-excitement effects, based on the eruptive record of the last 15 kyr. Mean and percentile maps of PDC invasion probability are produced, exploring their sensitivity to some sources of uncertainty and to the effects of the dependence between PDC scales and the caldera sector where they originated. Conditional maps representative of PDC originating inside limited zones of the caldera, or of PDC with a limited range of scales are also produced. Finally, the effect of assuming different time windows for the hazard estimates is explored, also including the potential occurrence of a sequence of multiple events. Assuming that the last eruption of Monte Nuovo (A.D. 1538) marked the beginning of a new epoch of activity similar to the previous ones, results of the statistical analysis indicate a mean probability of PDC invasion above 5% in the next 50 years on almost the entire caldera (with a probability peak of ~25% in the central part of the caldera). In contrast, probability values reduce by a factor of about 3 if the entire eruptive record is considered over the last 15 kyr, i.e. including both eruptive epochs and quiescent periods.

Published

2017

14. Great Balls of Fire: A probabilistic approach to quantify the hazard related to ballistics — A case study at La Fossa volcano, Vulcano Island, Italy

Author

Sébastien Biass, Jean-Luc Falcone, Federico Di Traglia, Pierino Lestuzzi, Costanza Bonadonna, Mauro Rosi, and Marco Pistolesi

Subjects

Hazard (logic), 010504 meteorology & atmospheric sciences, Perforation (oil well), Physical vulnerability, Pre-event impact assessment, Probabilistic hazard assessment, Volcanic ballistic projectiles, Vulcano Island La Fossa, Geochemistry and Petrology, Geophysics, Hazard analysis, 010502 geochemistry & geophysics, 01 natural sciences, ddc:550, ddc:025.063, Roof, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Vulcanian eruption, Probabilistic logic, Variable (computer science), Volcano, 13. Climate action, Geology, Seismology

Abstract

We present a probabilistic approach to quantify the hazard posed by volcanic ballistic projectiles (VBP) and their potential impact on the built environment. A model named Great Balls of Fire (GBF) is introduced to describe ballistic trajectories of VBPs accounting for a variable drag coefficient and topography. It relies on input parameters easily identifiable in the field and is designed to model large numbers of VBPs stochastically. Associated functions come with the GBF code to post-process model outputs into a comprehensive probabilistic hazard assessment for VBP impacts. Outcomes include probability maps to exceed given thresholds of kinetic energies at impact, hazard curves and probabilistic isoenergy maps. Probabilities are calculated either on equally-sized pixels or zones of interest. The approach is calibrated, validated and applied to La Fossa volcano, Vulcano Island (Italy). We constructed a generic eruption scenario based on stratigraphic studies and numerical inversions of the 1888-1890 long-lasting Vulcanian cycle of La Fossa. Results suggest a similar to 10(-2)% probability of occurrence of VBP impacts with kinetic energies = 2.5 x 10(-3)% probability of roof perforation. (C) 2016 Elsevier B.V. All rights reserved.

Published

2016

15. Quantifying volcanic hazard at Campi Flegrei caldera (Italy) with uncertainty assessment: 2. Pyroclastic density current invasion maps

Author

Augusto Neri, Andrea Bevilacqua, Tomaso Esposti Ongaro, Roberto Isaia, Willy P. Aspinall, Marina Bisson, Franco Flandoli, Peter J. Baxter, Antonella Bertagnini, Enrico Iannuzzi, Simone Orsucci, Marco Pistolesi, Mauro Rosi, Stefano Vitale, Neri, Augusto, Bevilacqua, Andrea, Esposti Ongaro, Tomaso, Isaia, Roberto, Aspinall, Willy P., Bisson, Marina, Flandoli, Franco, Baxter, Peter J., Bertagnini, Antonella, Iannuzzi, Enrico, Orsucci, Simone, Pistolesi, Marco, Rosi, Mauro, and Vitale, Stefano

Subjects

pyroclastic density current, hazard map, Geophysics, uncertainty quantification, Geochemistry and Petrology, Space and Planetary Science, caldera, Campi Flegrei (Italy), Earth and Planetary Sciences (miscellaneous), Geophysic

Abstract

Campi Flegrei (CF) is an example of an active caldera containing densely populated settlements at very high risk of pyroclastic density currents (PDCs). We present here an innovative method for assessing background spatial PDC hazard in a caldera setting with probabilistic invasion maps conditional on the occurrence of an explosive event. The method encompasses the probabilistic assessment of potential vent opening positions, derived in the companion paper, combined with inferences about the spatial density distribution of PDC invasion areas from a simplified flow model, informed by reconstruction of deposits from eruptions in the last 15 ka. The flow model describes the PDC kinematics and accounts for main effects of topography on flow propagation. Structured expert elicitation is used to incorporate certain sources of epistemic uncertainty, and a Monte Carlo approach is adopted to produce a set of probabilistic hazard maps for the whole CF area. Our findings show that, in case of eruption, almost the entire caldera is exposed to invasion with a mean probability of at least 5%, with peaks greater than 50% in some central areas. Some areas outside the caldera are also exposed to this danger, with mean probabilities of invasion of the order of 5-10%. Our analysis suggests that these probability estimates have location-specific uncertainties which can be substantial. The results prove to be robust with respect to alternative elicitation models and allow the influence on hazard mapping of different sources of uncertainty, and of theoretical and numerical assumptions, to be quantified.

Published

2015

16. Complex dynamics of small-moderate volcanic events: the example of the 2011 rhyolitic Cordón Caulle eruption, Chile

Author

Pistolesi, Marco, Cioni, Raffaello, Francalanci, Lorella, Costanza, Bonadonna, Manuela, Elissondo, Valerie, Baumann, Antonella, Bertagnini, Laura, Chiari, Rafael, Gonzales, and Mauro, Rosi

Subjects

explosive volcanism, volcanic eruption, Rhyolitic tephra, Long-lasting eruptions

Published

2015

17. Quantifying volcanic hazard at Campi Flegrei caldera (Italy) with uncertainty assessment: 1. Vent opening maps

Author

Augusto Neri, Andrea Bevilacqua, Tomaso Esposti Ongaro, Roberto Isaia, Willy P. Aspinall, Marina Bisson, Franco Flandoli, Peter J. Baxter, Antonella Bertagnini, Enrico Iannuzzi, Simone Orsucci, Marco Pistolesi, Mauro Rosi, Stefano Vitale, Neri, Augusto, Bevilacqua, Andrea, Esposti Ongaro, Tomaso, Isaia, Roberto, Aspinall, Willy P., Bisson, Marina, Flandoli, Franco, Baxter, Peter J., Bertagnini, Antonella, Iannuzzi, Enrico, Orsucci, Simone, Pistolesi, Marco, Rosi, Mauro, and Vitale, Stefano

Subjects

uncertainty quantification, Geochemistry and Petrology, Space and Planetary Science, caldera, Earth and Planetary Sciences (miscellaneous), probability map, vent opening map, Geophysic, Campi Flegrei (Italy)

Abstract

Campi Flegrei is an active volcanic area situated in the Campanian Plain (Italy) and dominated by a resurgent caldera. The great majority of past eruptions have been explosive, variable in magnitude, intensity, and in their vent locations. In this hazard assessment study we present a probabilistic analysis using a variety of volcanological data sets to map the background spatial probability of vent opening conditional on the occurrence of an event in the foreseeable future. The analysis focuses on the reconstruction of the location of past eruptive vents in the last 15 ka, including the distribution of faults and surface fractures as being representative of areas of crustal weakness. One of our key objectives was to incorporate some of the main sources of epistemic uncertainty about the volcanic system through a structured expert elicitation, thereby quantifying uncertainties for certain important model parameters and allowing outcomes from different expert weighting models to be evaluated. Results indicate that past vent locations are the most informative factors governing the probabilities of vent opening, followed by the locations of faults and then fractures. Our vent opening probability maps highlight the presence of a sizeable region in the central eastern part of the caldera where the likelihood of new vent opening per kilometer squared is about 6 times higher than the baseline value for the whole caldera. While these probability values have substantial uncertainties associated with them, our findings provide a rational basis for hazard mapping of the next eruption at Campi Flegrei caldera.

Published

2015

18. Complex dynamics of small-moderate volcanic events: the example of the 2011 rhyolitic Cordón Caulle eruption, Chile

Author

Antonella Bertagnini, Laura Chiari, Manuela Elissondo, Marco Pistolesi, Rafael Gonzales, Mauro Rosi, Raffaello Cioni, Valérie Baumann, Lorella Francalanci, and Costanza Bonadonna

Subjects

geography, geography.geographical_feature_category, Lava, Geochemistry, Lapilli, Plume, Eruptive style transitions, Volcano, Geochemistry and Petrology, Clastic rock, Rhyolite, Long-lasting eruptions, Shear localization, ddc:550, Sequence stratigraphy, Rhyolitic tephra, Tephra, Geomorphology, Geology

Abstract

After decades of repose, Puyehue-Cordon Caulle Volcano (Chile) erupted in June 2011 following a month of continuously increasing seismic activity. The eruption dispersed a large volume of rhyolitic tephra over a wide area and was characterized by complex dynamics. During the initial climactic phase of the eruption (24–30 h on 4–5 June), 11–14-km-high plumes dispersed most of the erupted tephra eastward towards Argentina, reaching as far as the Atlantic Ocean. This first eruptive phase was followed by activity of lower intensity, leading to the development of a complex stratigraphic sequence, mainly due to rapid shifts in wind direction and eruptive style. The resulting tephra deposits consist of 13 main layers grouped into four units. Each layer was characterized based on its dispersal direction, sedimentological features, and on the main characteristics of the juvenile fraction (texture, density, petrography, chemistry). The lowest part of the eruptive sequence (Unit I), corresponding to the tephra emitted between 4 and 5 June, is composed of alternating lapilli layers with a total estimated volume of ca. 0.75 km3; these layers record the highest intensity phase, during which a bent-over plume dispersed tephra towards the southeast-east, with negligible up-wind sedimentation. Products emitted during 5–6 June (Unit II) signaled an abrupt shift in wind direction towards the north, leading to the deposition of a coarse ash deposit in the northern sector (ca. 0.21 km3 in volume), followed by a resumption of easterly directed winds. A third phase (Unit III) began on 7 June and resulted in tephra deposits in the eastern sector and ballistic bombs around the vent area. A final phase (Unit IV) started after 15 June and was characterized by the emission of fine-grained white tephra from ash-charged plumes during low-level activity and the extrusion of a viscous lava flow. Timing and duration of the first eruptive phases were constrained based on comparison of the dispersal of the main tephra layers with satellite images, showing that most of the tephra was emitted during the first 72 h of the event. The analyzed juvenile material tightly clusters within the rhyolitic field, with negligible chemical variations through the eruptive sequence. Textural observations reveal that changes in eruption intensity (and consequently in magma ascent velocity within the conduit) and complex interactions between gas-rich and gas-depleted magma portions during ascent resulted in vesicular clasts with variable degrees of shear localization, and possibly in the large heterogeneity of the juvenile material.

Published

2015

19. The Shallow Plumbing System of Piton de la Fournaise Volcano (La Reunion Island, Indian Ocean) Revealed by the Major 2007 Caldera-Forming Eruption

Author

Lucia Civetta, Etienne Deloule, Mauro Rosi, T. Fougeroux, D. Vergani, Nicole Métrich, Pietro Armienti, A. Di Muro, Ilenia Arienzo, Institut de Physique du Globe de Paris (IPGP), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-IPG PARIS-Université Paris Diderot - Paris 7 (UPD7)-Université de La Réunion (UR)-Centre National de la Recherche Scientifique (CNRS), Dipartimento di Scienze della Terra [Pisa], University of Pisa - Università di Pisa, Centre de Recherches Pétrographiques et Géochimiques (CRPG), Institut national des sciences de l'Univers (INSU - CNRS)-Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS), Osservatorio Vesuviano, Istituto Nazionale di Geofisica e Vulcanologia - Sezione di Napoli (INGV), Istituto Nazionale di Geofisica e Vulcanologia-Istituto Nazionale di Geofisica e Vulcanologia, Dipartimento di Scienze della Terra, dell'Ambiente e delle Risorse (DiSTAR), Università degli studi di Napoli Federico II, Istituto Nazionale di Geofisica e Vulcanologia - Sezione di Palermo (INGV), and Istituto Nazionale di Geofisica e Vulcanologia

Subjects

Basalt, geography, geography.geographical_feature_category, Olivine, Geochemistry, [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, engineering.material, Geophysics, Sill, Volcano, 13. Climate action, Geochemistry and Petrology, Magma, engineering, Caldera, Phenocryst, Volatiles, Seismology, Geology

Abstract

International audience; The 2007 caldera-forming eruption of Piton de la Fournaise (PdF) erupted the largest volume of magma (210 Mm3) recorded at this volcano in at least three centuries. Major and trace element and Sr–Nd isotope data for bulk-rocks, groundmasses and olivine phenocrysts have been combined with melt inclusion data (major, trace and volatile elements) to track magma evolution over the whole eruptive sequence. We show that each eruptive phase had a distinctive geochemical and petrological signature and that caldera collapse on 5 April was preceded by a marked shift in bulk magma composition and crystal content and size. Aphyric basalt erupted at the beginning of the sequence (February 2007) had relatively high Sr isotope ratio (87Sr/86Sr = 0·70420–0·704180) and low Nd isotopic ratio (143Nd/144Nd = 0·51285–0·51286). Olivine-basalts extruded on 2–5 April just before caldera collapse are less enriched in radiogenic Sr (87Sr/86Sr = 0·70412–0·70416), but characterized by the same Nd isotopic composition. This magma is interpreted as a new deep input, which pressurized the shallow PdF plumbing system and triggered the 2007 activity. Post-collapse oceanite lavas represent the main volume of magma extruded in 2007. Their bulk-rocks and groundmasses have 87Sr/86Sr (∼0·70418) intermediate between those of February and 5 April, and similar to those of the March 2007 and 2001–2006 lavas. We show that the Steady State Basalts (SSB) commonly erupted at PdF are hybrid melts, which result from multistep mixing between ‘alkaline’ and ‘transitional’ end-members. Our results lead us to propose a new model of the PdF plumbing system to reconcile the petrological, geochemical and geophysical observations: (1) the shallow portion (above sea level) of the PdF plumbing system hosts several small sills, in which magma experiences variable degrees of degassing, cooling and crystallization; (2) oceanite lavas result from the withdrawal of shallow harrisitic mushes stored at low pressures (

Published

2014

20. Exploration of the 1891 Foerstner submarine vent site (Pantelleria, Italy): Insights into the formation of basaltic balloons

Author

Marco Pistolesi, Steven Carey, Michael Marani, Katherine Lynn Croff-Bell, Chris Roman, Mauro Rosi, and Joshua T. Kelly

Subjects

Basalt, Pillow lava, Tachylite, Lava, Geochemistry, Submarine volcanism, Explosive, Basaltic ballon, Pantelleria, Foerstner, Strombolian eruption, Basaltic balloon, Submarine eruption, Paleontology, Geochemistry and Petrology, Magma, Scoria, Geology

Abstract

On October 17, 1891, a submarine eruption started at Foerstner volcano located within the Pantelleria Rift of the Strait of Sicily (Italy). Activity occurred for a period of 1 week from an eruptive vent located 4 km northwest of the island of Pantelleria at a water depth of 250 m. The eruption produced lava balloons that discharged gas at the surface and eventually sank to the seafloor. Remotely operated vehicle (ROV) video footage and high-resolution multi-beam mapping of the Foerstner vent site were used to create a geologic map of the AD 1891 deposits and conduct the first detailed study of the source area associated with this unusual type of submarine volcanism. The main Foerstner vent consists of two overlapping circular mounds with a total volume of 6.3x10(5) m(3) and relief of 60 m. It is dominantly constructed of clastic scoriaceous deposits with some interbedded pillow lavas. Petrographic and geochemical analyses of Foerstner samples by X-ray fluorescence and inductively coupled plasma mass spectrometry reveal that the majority of the deposits are vesicular, hypocrystalline basanite scoria that display porphyritic, hyaloophitic, and vitrophyric textures. An intact lava balloon recovered from the seafloor consists of a large interior gas cavity surrounded by a thin lava shell comprising two distinct layers: a thin, oxidized, quenched crust surrounding the exterior of the balloon and a dark gray, tachylite layer lying beneath it. Ostwald ripening is proposed to be the dominant bubble growth mechanism of four representative Foerstner scoria samples as inferred by vesicle size distributions. Characterization of the diversity of deposit facies observed at Foerstner in conjunction with quantitative rock texture analysis indicates that submarine Strombolian-like activity is the most likely mechanism for the formation of lava balloons. The deposit facies observed at the main Foerstner vent are very similar to those produced by other known submarine Strombolian eruptions (short pillow flow lobes, large scoriaceous clasts, spatter-like vent facies). Balloons were likely formed from the rapid cooling of extremely vesicular magma fragments as a result of a gas-rich frothy magma source. The exterior of these fragments hyperquenched forming a vesicular glassy shell that acted as an insulating layer preventing magmatic gas in its interior from escaping and thus allowing flotation as densities reached less than 1,000 kg/m(3). We believe that lava balloons are a common eruptive product, as the conditions required to generate these products are likely to be present in a variety of submarine volcanic environments. Additionally, the facies relationships observed at Foerstner may be used as a paleoenvironmental indicator for modern and ancient basaltic shallow submarine eruptions because of the relatively narrow depth range over which they likely occur (200-400 m).

Published

2014

21. Review of ten years of volcano deformations recorded by the ground-based InSAR monitoring system at Stromboli volcano: a tool to mitigate volcano flank dynamics and intense volcanic activity

Author

D. Leva, Mauro Rosi, Nicola Casagli, Federico Di Traglia, Teresa Nolesini, Emanuele Intrieri, and Francesco Mugnai

Subjects

Volcano monitoring, Tsunamogenic landslide, Dike, geography, Flank, geography.geographical_feature_category, Lava, Earth and Planetary Sciences(all), Stromboli volcano, Sink (geography), Overpressure, Electrical conduit, Volcano deformation, GBInSAR, Flank volcano dynamics, Impact crater, Volcano, General Earth and Planetary Sciences, Seismology, Geology

Abstract

Stromboli volcano (Southern Italy) is one of the most monitored volcano in the world with a surveillance network that includes a permanently sited ground-based SAR interferometer (GBInSAR). This work is the review of the GBInSAR data gained from the last decade of monitoring activity. The analysis of the entire dataset of GBInSAR measurements allowed the assessment of the deformation field of the northern part of the summit crater area and the Sciara del Fuoco depression. In detail, the main displacements recognized can be related to different factors: 1) the inflation/deflation respectively immediately before and after each new effusive event; 2) the bulging of localized sectors of the volcano involved in the vent opening; 3) the gravitational sliding of the Sciara del Fuoco infill; 4) the movement of lava flows. Accelerations in this sector are related to sheet intrusions, while the possibility of vent opening, associated with small sliding, or catastrophic flank failure are related to highly overpressurized sheets, able to produce high displacement rate in the Sciara del Fuoco. In the summit crater area, the increases in the displacement rate are related to the pressurization of the shallow conduit system, as the consequence of the variation in the magma level (magmastatic pressure) or to the lateral magma migration (lateral conduit expansion or dike intrusion) in response to the increase of the overpressure component. Fluctuations in the displacement rate in the summit crater area can be related to the magma overturning within the conduit, with the increases in displacement rate during the upwelling of less dense magma, while displacement rate decreases as the degassed magma column is pushed out from the conduit (lava flows or overflows). Instead, the decrease in the displacement rate without coeval lava outpouring could be related to the sink of the degassed magma due to density contrast between the gas-poor and the gas-charged magmas. Using the displacement rate in the summit crater area as a proxy for the variation in the pressure condition in conduit (both magmastatic and overpressure components), thresholds for the crises characterized by the occurrence of overflows (eventually associated with major explosions) and flank effusions (eventually associated with paroxysmal explosions) are identified. Small conduit overpressure will produce overflows (sometimes associated with crater-rim collapses), while large magma overpressure will laterally expand the conduit forming NE-SW striking sheets, feeding eruptive vents at the base of the summit crater area and within the Sciara del Fuoco, generating conditions of instability that can evolve into catastrophic collapse of the instable flank.

Published

2014

22. Geochemistry of the Phlegraean Fields (Italy) proximal sources for major Mediterranean tephras: implications for the dispersal of Plinian & co-ignimbritic components of explosive eruptions

Author

Sabine Wulf, Emma L. Tomlinson, Christine Lane, Giovanni Orsi, Martin Menzies, Wolfgang Müller, Antonio Carandente, Lucia Civetta, Mauro Rosi, Victoria C. Smith, Ilenia Arienzo, and Mark Hardiman

Subjects

geography, geography.geographical_feature_category, Explosive eruption, Faculty of Science\Geography, Geochemistry, Pyroclastic rock, Research Groups and Centres\Earth Sciences\Ancient and Modern Earth Systems, 550 - Earth sciences, Volcano, Research Groups and Centres\Earth Sciences\Geochemistry, Geochemistry and Petrology, Clastic rock, Period (geology), Faculty of Science\Earth Sciences, Caldera, Chronostratigraphy, Tephra, Geology

Abstract

Volcanic activity at Phlegraean Fields, Italy, produced several major marker tephras over a 50 ka period. The caldera forming eruptions of the Campanian Ignimbrite (CI) and Neapolitan Yellow Tuff (NYT) are of particular importance for tephrostratigraphy in Europe. Other key eruptions from this source include the Pomici Principali (PP) and the Tufi Biancastri eruptions. We combine analyses of fresh glasses from proximal locations (i.e., juvenile clasts in proximal flow and fall deposits) with data for key tephra layers from Lago Grande di Monticchio, 120 km to the east. The micron-beam major (EMPA) and trace (LA-ICP-MS) element glass dataset allows us to: (a) distinguish between tephra units produced from the Phlegraean Fields before and during the CI eruption (CI-series), and before and during the NYT and PP eruptions (NYT-series/PP); (b) discriminate between the CI and the geochemically similar Pre-CI pyroclastic deposits; (c) separate the NYT from Pre-NYT tephra units, although both major and trace elements do show significant overlap. The complex compositional overlap between Pre-NYT tephras may present a problem for tephra correlations in the 14–39 ka time window and may have resulted in incorrect proximal–distal and distal–distal correlations. The diagnostic chemical criteria detailed herein permits more accurate matching of distal tephras with their proximal equivalents and hence will improve chronostratigraphy of distal settings and give insight into tephra dispersal. We show that the dispersal of PP tephra was more limited than previously thought. The surge/fall (Lower Member) and subsequent pyroclastic density current (Upper Member) phases of the NYT eruption can be recognised in distal settings. Both the NYT Lower and Upper Members are found in distal localities to the east of the Phlegraean Fields, however the Lower Member is found in the absence of the Upper Member in locations to the far north of Phlegraean Fields. Chemical compositions of the Plinian and ignimbrite phases of the CI eruption overlap extensively, but can be distinguished on a plot of Zr–Th.

Published

2012

23. The 15 March 2007 explosive crisis at Stromboli Volcano, Italy: assessing physical parameters through a multidisciplinary approach

Author

Dario Delle Donne, Laura Pioli, Mauro Rosi, Maurizio Ripepe, Marco Pistolesi, PISTOLESI, M., DELLE DONNE, D., PIOLI, L., ROSI, M., and RIPEPE, M.

Subjects

DYNAMICS, Atmospheric Science, Explosive material, Lava, Pyroclastic flow, Soil Science, Pyroclastic rock, Aquatic Science, Oceanography, Geophysical monitoring, Effusive eruption, Impact crater, DEFORMATION, Geochemistry and Petrology, ddc:550, SR ISOTOPE EVIDENCE, EFFUSIVE ERUPTION, PAROXYSMAL EXPLOSION, PLUMBING SYSTEM, INSIGHTS, EVENT, TIME, CRYSTALLIZATION, Earth and Planetary Sciences (miscellaneous), Stromboli, Paroxysm, Tephra, Earth-Surface Processes, Water Science and Technology, geography, geography.geographical_feature_category, Ecology, Tephra deposit, Paleontology, Forestry, Ballistic ejection, VOLCANOLOGY, INFRASOUND, FALL-OUT, Geophysics, Volcano, Space and Planetary Science, Scoria, Geology, Seismology

Abstract

Basaltic volcanoes are dominated by lava emission and mild explosive activity. Nevertheless, many basaltic systems exhibit, from time to time, poorly documented and little-understood violent explosions. A short-lived, multiblast explosive crisis (paroxysmal explosion) occurred on 15 March 2007 during an effusive eruptive crisis at Stromboli (Italy). The explosive crisis, which started at 20:38:14 UT, had a total duration of ∼5 min. The combined use of multiparametric data collected by the permanent instrumental networks (seismic, acoustic, and thermal records) and a field survey carried out immediately after the event enabled us to constrain the eruptive dynamics and quantify physical parameters. The eruption consisted of three major pulses: In the first, lithic blocks and ash were ejected at speeds of 100–155 m/s and 130–210 m/s, respectively. The high solid load of the eruptive jet resulted in the partial collapse of the column with the formation of a small-volume pyroclastic density current. The second, 12 s long pulse emitted 2.2–2.7 × 107 kg of tephra (mass discharge rate = 1.9–2.3 × 106 kg/s), forming a 3 km high convective plume, dispersing tephra up to the west coast, and a dilute density current with limited dispersal downslope of the craters. A final, 30 s long phase formed a scoria flow with a volume of 1.5–1.7 × 104 m3 (mass discharge rate = 5.9–6.7 × 105 kg/s), a total runout of ∼200 m, and a velocity of 45 m/s. The total gas volume involved in the explosion was 1.3–1.9 × 104 m3 with an initial overpressure of 7.9 ± 0.4 MPa. We compared the 15 March 2007 event with historical paroxysms, in particular with that of 5 April 2003, which was remarkably similar.

Published

2011

24. Compositional evolution of magma from Parícutin Volcano, Mexico: The tephra record

Author

Laura Pioli, H. Delgado Granados, PW Wallace, Mauro Rosi, E. Johnson, Katharine V. Cashman, and E. Erlund

Subjects

Vulcanian eruption, Lateral eruption, Magma evolution, Lava, Earth science, Geochemistry, Magma chamber, Geophysics, Dense-rock equivalent, Effusive eruption, Tephra, Paricutin, Geochemistry and Petrology, Scoria cone, Magma, Violent Strombolian, ddc:550, Geology

Abstract

The birth of Paricutin Volcano, Mexico, in 1943 provides an unprecedented opportunity to document the development of a monogenetic cinder cone and its associated lava flows and tephra blanket. Three ‘type’ sections provide a complete tephra record for the eruption, which is placed in a temporal framework by comparing both bulk tephra and olivine phenocryst compositions to dated samples of lava and tephra. Our data support the hypothesis of Luhr (2001) that the first four months of activity were fed by a magma batch (Phase 1) that was distinct from the magma that supplied the subsequent eight years of activity. We further suggest that the earliest erupted (vanguard) magma records evidence of temporary residence at shallow levels prior to eruption, suggesting early development of a dike and sill complex beneath the vent. Depletion of this early batch led to diminished eruptive activity in June and July of 1943, while arrival of the second magma batch (Phase 2) reinvigorated activity in late July. Phase 2 fed explosive activity from mid-1943 through 1946, although most of the tephra was deposited by the end of 1945. Phase 3 of the eruption began in mid-1947 with rapid evolution of magma compositions from basaltic andesite to andesite and dominance of lava effusion. The combined physical and chemical characteristics of the erupted material present a new interpretation of the physical conditions that led to compositional evolution of the magma. We believe that syn-eruptive assimilation of wall rock in a shallow complex of dikes and sills is more likely than pre-eruptive assimilation within a large magma chamber, as previously assumed. We further suggest that waning rates of magma supply from the deep feeder system allowed evolved, shallowly stored magma to enter the conduit in 1947, thus triggering the rapid observed change in the erupted magma composition. This physical model predicts that assimilation should be observable in other monogenetic eruptions, particularly those with low pressure melt inclusions and with eruption durations of months to years.

Published

2010

25. The eruptive activity of 28 and 29 December 2002

Author

Sonia Calvari, Laura Pioli, Alessio Di Roberto, Mauro Rosi, Letizia Spampinato, and Alberto Renzulli

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Lava, Pyroclastic rock, 010502 geochemistry & geophysics, 01 natural sciences, Volcanic rock, Igneous rock, Impact crater, Volcano, Scoria, Petrology, Seismology, Sea level, Geology, 0105 earth and related environmental sciences

Abstract

At 1820 UT of 28 December 2002, an eruptive vent opened on the NE flank of the Sciara del Fuoco (SdF) at 600 m above sea level, marking the onset of the 2002–2003 eruptive crisis of Stromboli volcano. The first eruptive hours were characterized by mild spattering and effusive activity from the new vent and the summit vent at crater 1. Gravitational instability processes also determined the partial collapse of NE walls of the summit cone (crater 1). Pyroclastic material partly accumulated on the NE part of the SdF and partly flowed downslope and reached the sea at Spiaggia dei Gabbiani, forming a ~4-m-thick, reddish avalanche, that was soon covered by a lava flow emitted in the following hours. In this paper, we describe the first hours of activity through eyewitnesses’ reports, geophysical monitoring, field and laboratory studies, of the erupted pyroclastic material and lava flows. Daily temperature measurements were carried out on the avalanche deposit formed by the flow of scoria along the SdF, using a handheld thermal camera mainly during helicopter surveys. A fast cooling rate was typical of the deposit surface, and a slow cooling rate was representative of its inner portion.

Published

2008

26. Explosive dynamics of violent Strombolian eruptions: The eruption of Paricutin Volcano 1943-1952 (Mexico)

Author

H. Delgado Granados, PW Wallace, Mauro Rosi, Laura Pioli, E. Johnson, Katharine V. Cashman, and E. Erlund

Subjects

Volatile segregation, Explosive eruption, Lateral eruption, Vulcanian eruption, Basaltic explosive activity, Two-phase flow, Strombolian eruption, Phreatic eruption, Geophysics, Dense-rock equivalent, Effusive eruption, Scoria cone, Space and Planetary Science, Geochemistry and Petrology, Gas slug, Earth and Planetary Sciences (miscellaneous), Petrology, Geology, Seismology

Abstract

Violent Strombolian is a term that was originally used by MacDonald [Macdonald, G.A., 1972. Volcanoes, Prentice-Hall inc., Englewood Cliffs, New Jersey, 510 pp.] to describe energetic Strombolian eruptions such as some of the more explosive phases of the 1943–1952 eruption of Parícutin Volcano (Michoacán, central Mexico), eruptions that disperse ‘showers of incandescent cinder and bombs…to heights of a few thousand feet' and during which ‘a great black ash cloud rises above the volcano'. Here we re-examine accounts of the Parícutin eruption and compare them with new stratigraphic data and physical features of the tephra deposit to improve the definition of violent Strombolian activity and to better elucidate the mechanisms that can cause this distinctive eruptive style. We find characteristic violent Strombolian activity to be strongly pulsatory, with production of moderately high eruption columns (2–6 km) that eject abundant fine ash. Also characteristic is simultaneous lava effusion from lateral vents. At Parícutin, violent Strombolian activity occurred at magma eruption rates of 104 to 105 kg/s, intermediate between Strombolian and subplinian rates. A progressive decline in magma flux during the eruption led to a decrease in the relative proportion of both erupted tephra and glassy vesicular fragments in the fallout layers. Eruption characteristics can be explained by varying degrees of shallow gas segregation from water-rich basaltic magma that modulate both transitions between two-phase flow regimes in the upper conduit and effusion of degassed lava from the base of the cone.

Published

2008

27. Subaqueous density flow processes and deposits of an island volcano lanslide (Stromboli Island, Italy)

Author

Alessio Di Roberto, Mauro Rosi, Michael Marani, Fabiano Gamberi, and Antonella Bertagnini

Subjects

subaqueous cohesionless density flows, geography, geography.geographical_feature_category, Bedform, Stratigraphy, submarine landslide deposits, island volcano, Geology, Landslide, flow transitions, Volcano, Clastic rock, Facies, Aeolian processes, Submarine pipeline, Geomorphology, Submarine landslide

Abstract

Stromboli is a 3000 m high island volcano, rising to 900 m above sea-level. It is the most active volcano of the Aeolian Archipelago in the Tyrrhenian Sea (Italy). Major, large volume (1 km 3 ) sector collapses, four occurring in the last 13 kyr, have played an important role in shaping the north-western flank (Sciara del Fuoco) of the volcano, potentially generating a high-risk tsunami hazard for the Aeolian Islands and the Italian coast. However, smaller volume, partial collapses of the Sciara del Fuoco have been shown to be more frequent tsunami-generating events. One such event occurred on 30 December 2002, when a partial collapse of the north-western flank of the island took place. The resulting landslide generated 10 m high tsunami waves that impacted the island. Multibeam bathymetry, side-scan sonar imaging and visual observations reveal that the landslide deposited 25 to 30 · 10 6 m 3 of sediment on the submerged slope offshore from the Sciara del Fuoco. Two contiguous main deposit facies are recognized: (i) a chaotic, coarse-grained (metre-sized to centimetre-sized clasts) deposit; and (ii) a sand deposit containing a lower, cross-bedded sand layer and an upper structureless pebbly sand bed capped by sea floor ripple bedforms. The sand facies develops adjacent to and partially overlying the coarse deposits. Characteristics of the deposits suggest that they were derived from cohesionless, sandy matrix density flows. Flow rheology and dynamics led to the segregation of the density flow into sand-rich and clast-rich regions. A range of density flow transitions, both in space and in time, caused principally by particle concentration and grain-size partitioning within cohesionless parent flows was identified in the deposits of this relatively small-scale submarine landslide event.

Published

2008

28. Eruptive dynamics of the 'Citlaltépetl Pumice' at Citlaltépetl volcano, Eastern Mexico

Author

Andrea Rossotti, Gerardo Carrasco-Núñez, Mauro Rosi, and Andrea Di Muro

Subjects

geography, Vulcanian eruption, geography.geographical_feature_category, Explosive eruption, Geochemistry, Pyroclastic rock, Volcanic rock, Geophysics, Domo, Volcano, Geochemistry and Petrology, Pumice, Scoria, Geomorphology, Geology

Abstract

Citlaltepetl (Pico de Orizaba) is Mexico's highest (5675 m a.s.l.) potentially active volcano, which is presently in a dormant state. Between 9.0 and 8.5 ky B.P., a sequence of volcanic eruptions occurred at Citlaltepetl volcano as part of the most explosive Holocene episode. This sequence is associated with the deposition of an intercalation of pumice fallout and scoria and pumice-rich pyroclastic flow deposits, named here as “Citlaltepetl Pumice” (C.P.). Detailed stratigraphic and petrographic correlation of over 100 measured sections, in conjunction with the analysis of the physical characteristics of the juvenile and lithic portions of each main layer of the sequence, provided the basis to reconstruct the eruptive episodes and to assert the eruptive dynamics of the whole sequence, which was divided into eight main eruptions separated by three brief periods of quiescence. The eruption sequence started with a phreatic phase that soon developed into a bread-crusted, bomb-bearing phase. This was followed by a sequence of vigorous Plinian explosive eruptions separated by brief periods of repose and a short dome-collapse activity. It was followed by another cycle of alternated scoria pyroclastic flows-forming and Plinian activity. This eruptive sequence shows the complexity of single eruptive events with alternated contrasting styles suggested by the compositional differences between the pyroclastic flow and fallout products.

Published

2006

29. Eruptions of the last 2200 years at Vulcano and Vulcanello (Aeolian Islands, Italy) dated by high-accuracy archeomagnetism

Author

Mauro Rosi, Simone Arrighi, Jean-Claude Tanguy, Instituto di Geoscienze e Georisorce [Pisa] (IGG), Consiglio Nazionale delle Ricerche (CNR), Institut de Physique du Globe de Paris (IPGP), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-IPG PARIS-Université Paris Diderot - Paris 7 (UPD7)-Université de La Réunion (UR)-Centre National de la Recherche Scientifique (CNRS), Universita di Pisa Dip. Scienze Geologiche (UNIV. PISA), University of Pisa - Università di Pisa, National Research Council of Italy | Consiglio Nazionale delle Ricerche (CNR), and Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris Diderot - Paris 7 (UPD7)-Université de La Réunion (UR)-Institut de Physique du Globe de Paris (IPG Paris)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Magmatic evolution, 010504 meteorology & atmospheric sciences, Physics and Astronomy (miscellaneous), Lava, Pyroclastic rock, 010502 geochemistry & geophysics, 01 natural sciences, Paleontology, Vulcano, [SDU.STU.VO]Sciences of the Universe [physics]/Earth Sciences/Volcanology, Volcanic eruptions, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Archeomagnetic dating, Astronomy and Astrophysics, Large sample, Volcanic rock, Geophysics, Earth's magnetic field, Volcano, 13. Climate action, Space and Planetary Science, Period (geology), Aeolian processes, Seismology, Geology, Volcanic risk

Abstract

International audience; The recent eruptive history of the Vulcano island (Southern Italy) was investigated through the high-accuracy “large sample” archeomagnetic method (Tanguy, J.C., Le Goff, M., Principe, C., Arrighi, S., Chillemi, V., Paiotti, A., La Delfa, S., Patanè, G., 2003. Archeomagnetic dating of Mediterranean volcanics of the last 2100 years: validity and limits. Earth Planet. Sci. Lett. 211, 111–124; Tanguy, J.C., Principe, C., Arrighi, S., 2005. Comment on “Historical measurements of the Earth's magnetic field compared with remanence directions from lava flows in Italy over the last four centuries” by R. Lanza, A. Meloni, and E. Tema. Phys. Earth Planet. Interiors 152, 116–120; Arrighi, S., 2004. The large sample archeomagnetic method applied to Neapolitan volcanoes and Aeolian Islands. PhD Thesis. University of Pisa, Italy, pp. 1–186). Age determination is based upon directional geomagnetic variation reconstructed from historically dated lavas in Southern Italy, and from archeological sites in Western Europe (Gallet, Y., Genevey, A., Le Goff, M., 2002. Three millennia of directional variation of the Earth's magnetic field in Western Europe as revealed by archeological artefacts. Phys. Earth Planet. Interiors 131, 81–89) relocated to Sicily. Results in the present paper were obtained on 12 sites including 185 samples weighing 0.5–1 kg, distributed over the Vulcanello platform lavas and pyroclastic cones, and on the lava flows from the Fossa cone. It is shown that the Vulcanello platform was built by nearly continuous activity between AD 1000 and 1250, which is more than a millennium younger than believed until now from questionable interpretation of imprecise historical accounts. Most of the lavas from the Fossa cone, whose ages were rather hypothetical or known with a large uncertainty, have erupted within the same period. However, the last “Pietre Cotte” obsidian flow is confirmed to date from 1720 ± 30, in agreement with historical data (1739).

Published

2006

30. Breadcrust bombs as indicatore of vulcanian eruption dynamics at Guagua Pichincha volcano, Ecuador

Author

Raffaello Cioni, Heather M. N. Wright, K. V. Cashman, and Mauro Rosi

Subjects

geography, Vulcanian eruption, geography.geographical_feature_category, Bubble, Mineralogy, Crust, Matrix (geology), Overpressure, Electrical conduit, Volcano, Geochemistry and Petrology, Magma, Petrology, Geology

Abstract

Vulcanian eruptions are common at many volcanoes around the world. Vulcanian activity occurs as either isolated sequences of eruptions or as precursors to sustained explosive events and is interpreted as clearing of shallow plugs from volcanic conduits. Breadcrust bombs characteristic of Vulcanian eruptions represent samples of different parts of these plugs and preserve information that can be used to infer parameters of pre-eruption magma ascent. The morphology and preserved volatile contents of breadcrust bombs erupted in 1999 from Guagua Pichincha volcano, Ecuador, thus allow us to constrain the physical processes responsible for Vulcanian eruption sequences of this volcano. Morphologically, breadcrust bombs differ in the thickness of glassy surface rinds and in the orientation and density of crack networks. Thick rinds fracture to create deep, widely spaced cracks that form large rectangular domains of surface crust. In contrast, thin rinds form polygonal networks of closely spaced shallow cracks. Rind thickness, in turn, is inversely correlated with matrix glass water content in the rind. Assuming that all rinds cooled at the same rate, this correlation suggests increasing bubble nucleation delay times with decreasing pre-fragmentation water content of the melt. A critical bubble nucleation threshold of 0.4–0.9 wt% water exists, below which bubble nucleation does not occur and resultant bombs are dense. At pre-fragmentation melt H2O contents of >∼0.9 wt%, only glassy rinds are dense and bomb interiors vesiculate after fragmentation. For matrix glass H2O contents of ≥1.4 wt%, rinds are thin and vesicular instead of thick and non-vesicular. A maximum measured H2O content of 3.1 wt% establishes the maximum pressure (63 MPa) and depth (2.5 km) of magma that may have been tapped during a single eruptive event. More common H2O contents of ≤1.5 wt% suggest that most eruptions involved evacuation of ≤1.5 km of the conduit. As we expect that substantial overpressures existed in the conduit prior to eruption, these depth estimates based on magmastatic pressure are maxima. Moreover, the presence of measurable CO2 (≤17 ppm) in quenched glass of highly degassed magma is inconsistent with simple models of either open- or closed-system degassing, and leads us instead to suggest re-equilibration of the melt with gas derived from a deeper magmatic source. Together, these observations suggest a model for the repeated Vulcanian eruptions that includes (1) evacuation of the shallow conduit during an individual eruption, (2) depressurization of magma remaining in the conduit accompanied by open-system degassing through permeable bubble networks, (3) rapid conduit re-filling, and (4) dome formation prior to the subsequent explosion. An important part of this process is densification of upper conduit magma to allow repressurization between explosions. At a critical overpressure, trapped pressurized gas fragments the nascent impermeable cap to repeat the process.

Published

2006

31. Changes in eruptive style during the A.D. 1538 Monte Nuovo eruption (Phlegrean Fields, Italy): the role of syn-eruptive crystallization

Author

Antonella Bertagnini, Margherita Polacci, Elisa Poggianti, Patrizia Landi, Claudia D'Oriano, Raffaello Cioni, and Mauro Rosi

Subjects

education.field_of_study, geography, geography.geographical_feature_category, Population, Geochemistry, Pyroclastic rock, Volcanic rock, Igneous rock, Geochemistry and Petrology, Pumice, Magma, Phreatomagmatic eruption, Scoria, education, Geology

Abstract

The Monte Nuovo eruption is the most recent event that occurred at Phlegrean Fields (Italy) and lasted from 29 September to 6 October 1538. It was characterized by 2 days of quasi-sustained phreatomagmatic activity generating pumice-bearing pyroclastic density currents and forming a 130-m-high tuff cone (Lower Member deposits). The activity resumed after a pause of 2 days with two discrete Vulcanian explosions that emplaced radially distributed, scoria-bearing pyroclastic flows (Upper Member deposits). The juvenile products of Lower and Upper Members are, respectively, phenocryst-poor, light-coloured pumice and dark scoria fragments with K-phonolitic bulk compositions, identical in terms of both major and trace elements. Groundmass is formed by variable proportions of K-feldspar and glass, along with minor sodalite and Fe-Ti oxide present in the most crystallized samples. Investigations of groundmass compositions and textures were performed to assess the mechanisms of magma ascent, degassing and fragmentation along the conduit and implications for the eruptive dynamics. In pumice of the Lower Member groundmass crystal content increases from 13 to 28 vol% from the base to the top of the sequence. Products of the Upper Member consist of clasts with a groundmass crystal content between 30 and 40 vol% and of totally crystallized fragments. Crystal size distributions of groundmass feldspars shift from a single population at the base of the Lower Member to a double population in the remaining part of the sequence. The average size of both populations regularly increases from the Lower to the Upper Member. Crystal number density increases by two orders of magnitude from the Lower to the Upper Member, suggesting that nucleation dominated during the second phase of the eruption. The overall morphological, compositional and textural data suggest that the juvenile components of the Monte Nuovo eruption are likely to record variations of the magma properties within the conduit. The different textures of pumice clasts from the Lower Member possibly reflect horizontal gradients of the physical properties (P, T) of the ascending magma column, while scoriae from the second phase are thought to result from the disruption of a slowly rising plug crystallizing in response to degassing. In particular, crystal size distribution data point to syn-eruptive degassing-induced crystallization as responsible for the transition in eruptive style from the first to the second phase of the eruption. This mechanism not only has been proved to profoundly affect the dynamics of dome-forming calc-alkaline eruptions, but may also have a strong influence in driving the eruption dynamics of alkaline magmas of intermediate to evolved compositions.

Published

2005

32. Rheomorphic structures in a high-grade ignimbrite: The Nuraxi tuff, Sulcis volcanic district (SW Sardinia, Italy)

Author

Laura Pioli and Mauro Rosi

Subjects

geography, Agglutination, geography.geographical_feature_category, Explosive eruption, Lava, Pyroclastic rock, Magma chamber, Sardinia, Lapilli, Volcanic rock, Igneous rock, Geophysics, Geochemistry and Petrology, High-grade ignimbrite, Rhyolite, Paleoflow indicators, Welding, Rheomorphism, Petrology, Geomorphology, Geology

Abstract

Deposits of the 15.8 Ma Nuraxi explosive eruption crop out in the Sulcis volcanic district, southwestern Sardinia. They consist of a decimeter-thick pumice fallout layer overlain, with no apparent temporal break, by several tens of meters thick, high-grade ignimbrite. The eruption was from a vent probably located ∼20–30 km north of S. Pietro island, and it tapped a compositionally uniform, rhyolite magma reservoir (SiO2 70–72 wt.%) bearing about 20 vol.% crystals. The ignimbrite consists of: (a) a Lower Ignimbrite (LI)

Published

2005

33. Role of conduit shear on ascent of the crystal-rich magma feeling the 800-year-B.P. Plinian eruption of Quilotoa volcano (Ecuador)

Author

D. Zandomeneghi, Margherita Polacci, A. Di Muro, Patrizia Landi, and Mauro Rosi

Subjects

geography, geography.geographical_feature_category, Geochemistry, Pyroclastic rock, engineering.material, Dacite, Microlite, Volcanic rock, Petrography, Igneous rock, Geochemistry and Petrology, Pumice, engineering, Phenocryst, Geology

Abstract

We have characterized pumice products belonging to the climactic phase of the 800-year-b.p. Quilotoa eruption. Bulk rock compositions, petrography, mineral, and glass chemistry and textural investigations were performed on the three end-member pumice types, namely white, gray, and mingled pumices. All the investigated pumice clasts are dacites characterized by the same bulk rock composition and mineralogical assemblage, but glass compositions and bulk textures change according to different pumice types. White pumice has higher crystallinity (~48 wt%), abundant euhedral pheno/microphenocrysts, no groundmass microlites, the most evolved glass compositions (74–78 wt% SiO2), and heterogeneous vesicle populations marked by deformed and highly coalesced vesicles with thin walls. Gray pumice exhibits lower crystallinity (29–36 wt%), abundant broken and/or resorbed crystals, ubiquitous groundmass phenocryst fragments and microlites, the widest range of glass compositions (69–78 wt% SiO2), and quite homogeneous poorly deformed and coalesced vesicles with thicker walls. Mingled pumices are characterized by the alternation of bands or patches with white and gray pumice compositional and textural characteristics. We attribute heterogeneities in glass compositions and crystal and vesicle textures to processes occurring within volcanic conduits as magma is ascending to the surface. In particular, the above observations and results are consistent with an origin of a gray magma by heating of the original white magma in a strongly sheared region of the conduit because of a mechanism of viscous dissipation and crystal grinding and resorption at the conduit walls. The less viscous gray magma, therefore, would enable the onset and preservation of a high mass flux of the eruption otherwise difficult to explain for highly viscous crystal-rich dacitic magmas.

Published

2004

34. Dynamics of magma mixing and degassing recorded in plagioclase at Stromboli (Aeolian Arcipelago, Italy)

Author

Patrizia Landi, Mauro Rosi, Nicole Métrich, and Antonella Bertagnini

Subjects

Olivine, Mineral, Lava, Geochemistry, Mineralogy, engineering.material, law.invention, Matrix (geology), Geophysics, Geochemistry and Petrology, law, Magma, engineering, Plagioclase, Igneous differentiation, Crystallization, Geology

Abstract

Crystal-rich materials (scoriae and lava flows) emitted during the 1985–2000 activity of Stromboli were taken into consideration for systematic study of bulk rock/matrix glass chemistry and in particular for the study of chemical and textural zoning of plagioclase, the most abundant mineral phase. Over the considered time period, bulk rock composition remained fairly constant in both major (SiO2 49.2–50.9 wt% and K2O 1.96–2.18 wt%) and trace elements. The quite constant chemistry of matrix glasses also indicates that the degree of crystallization of magma was maintained at around 50 vol%. Plagioclase ranges in composition between An62 and An88 and is characterized by alternating

Published

2004

35. The Stromboli Volcano : An Integrated Study of the 2002 - 2003 Eruption

Author

Sonia Calvari, Salvatore Inguaggiato, Giuseppe Puglisi, Maurizio Ripepe, Mauro Rosi, Sonia Calvari, Salvatore Inguaggiato, Giuseppe Puglisi, Maurizio Ripepe, and Mauro Rosi

Subjects

Volcanism--Italy--Stromboli

Abstract

Published by the American Geophysical Union as part of the Geophysical Monograph Series, Volume 182.This book presents a study of the'eruptive crisis'that took place at the Stromboli volcano from December 2002 to July 2003. It features an integrative approach to the monitoring of eruptive activity, including lava flow output, explosive activity, flank instability, submarine and subaerial landslides, tsunami, paroxysmal explosive events, and mitigation strategies. The book comes with a DVD with spectacular photos and video of The landslide and the tsunami that hit the coast of the island; The 5 April 2003 paroxysmal event; The whole eruption showing the stages of effusive activity and growth of the lava flow field; Selected data useful for testing geochemical, petrological, seismological, thermal, and ground deformation models. This multidisciplinary and multimedia experience, unique for the amount, quality, and variety of data it covers, can be applied to other active volcanoes. Stromboli will appeal to solid Earth scientists and students working in seismology, geodynamics, geochemistry, and mineral physics, as well as nonspecialists with an interest in the inner workings of our planet and others.

Published

2008

36. Breadcrust bombs as indicators of Vulcanian eruption dynamics at Guagua Pichincha volcano, Ecuador.

Author

Heather Wright, Katharine Cashman, Mauro Rosi, and Raffaello Cioni

Subjects

VOLCANIC eruptions, NATURAL disasters, VOLCANISM

Abstract

Abstract Vulcanian eruptions are common at many volcanoes around the world. Vulcanian activity occurs as either isolated sequences of eruptions or as precursors to sustained explosive events and is interpreted as clearing of shallow plugs from volcanic conduits. Breadcrust bombs characteristic of Vulcanian eruptions represent samples of different parts of these plugs and preserve information that can be used to infer parameters of pre-eruption magma ascent. The morphology and preserved volatile contents of breadcrust bombs erupted in 1999 from Guagua Pichincha volcano, Ecuador, thus allow us to constrain the physical processes responsible for Vulcanian eruption sequences of this volcano. Morphologically, breadcrust bombs differ in the thickness of glassy surface rinds and in the orientation and density of crack networks. Thick rinds fracture to create deep, widely spaced cracks that form large rectangular domains of surface crust. In contrast, thin rinds form polygonal networks of closely spaced shallow cracks. Rind thickness, in turn, is inversely correlated with matrix glass water content in the rind. Assuming that all rinds cooled at the same rate, this correlation suggests increasing bubble nucleation delay times with decreasing pre-fragmentation water content of the melt. A critical bubble nucleation threshold of 0.4–0.9 wt% water exists, below which bubble nucleation does not occur and resultant bombs are dense. At pre-fragmentation melt H2O contents of >?0.9 wt%, only glassy rinds are dense and bomb interiors vesiculate after fragmentation. For matrix glass H2O contents of ?1.4 wt%, rinds are thin and vesicular instead of thick and non-vesicular. A maximum measured H2O content of 3.1 wt% establishes the maximum pressure (63 MPa) and depth (2.5 km) of magma that may have been tapped during a single eruptive event. More common H2O contents of ?1.5 wt% suggest that most eruptions involved evacuation of ?1.5 km of the conduit. As we expect that substantial overpressures existed in the conduit prior to eruption, these depth estimates based on magmastatic pressure are maxima. Moreover, the presence of measurable CO2 (?17 ppm) in quenched glass of highly degassed magma is inconsistent with simple models of either open- or closed-system degassing, and leads us instead to suggest re-equilibration of the melt with gas derived from a deeper magmatic source. Together, these observations suggest a model for the repeated Vulcanian eruptions that includes (1) evacuation of the shallow conduit during an individual eruption, (2) depressurization of magma remaining in the conduit accompanied by open-system degassing through permeable bubble networks, (3) rapid conduit re-filling, and (4) dome formation prior to the subsequent explosion. An important part of this process is densification of upper conduit magma to allow repressurization between explosions. At a critical overpressure, trapped pressurized gas fragments the nascent impermeable cap to repeat the process. [ABSTRACT FROM AUTHOR]

Published

2007

37. Changes in eruptive style during the A.D. 1538 Monte Nuovo eruption (Phlegrean Fields, Italy): the role of syn-eruptive crystallization.

Author

Claudia D’Oriano, Elisa Poggianti, Antonella Bertagnini, Raffaello Cioni, Patrizia Landi, Margherita Polacci, and Mauro Rosi

Abstract

Abstract The Monte Nuovo eruption is the most recent event that occurred at Phlegrean Fields (Italy) and lasted from 29 September to 6 October 1538. It was characterized by 2 days of quasi-sustained phreatomagmatic activity generating pumice-bearing pyroclastic density currents and forming a 130-m-high tuff cone (Lower Member deposits). The activity resumed after a pause of 2 days with two discrete Vulcanian explosions that emplaced radially distributed, scoria-bearing pyroclastic flows (Upper Member deposits). The juvenile products of Lower and Upper Members are, respectively, phenocryst-poor, light-coloured pumice and dark scoria fragments with K-phonolitic bulk compositions, identical in terms of both major and trace elements. Groundmass is formed by variable proportions of K-feldspar and glass, along with minor sodalite and Fe-Ti oxide present in the most crystallized samples. Investigations of groundmass compositions and textures were performed to assess the mechanisms of magma ascent, degassing and fragmentation along the conduit and implications for the eruptive dynamics. In pumice of the Lower Member groundmass crystal content increases from 13 to 28 vol% from the base to the top of the sequence. Products of the Upper Member consist of clasts with a groundmass crystal content between 30 and 40 vol% and of totally crystallized fragments. Crystal size distributions of groundmass feldspars shift from a single population at the base of the Lower Member to a double population in the remaining part of the sequence. The average size of both populations regularly increases from the Lower to the Upper Member. Crystal number density increases by two orders of magnitude from the Lower to the Upper Member, suggesting that nucleation dominated during the second phase of the eruption. The overall morphological, compositional and textural data suggest that the juvenile components of the Monte Nuovo eruption are likely to record variations of the magma properties within the conduit. The different textures of pumice clasts from the Lower Member possibly reflect horizontal gradients of the physical properties (P, T) of the ascending magma column, while scoriae from the second phase are thought to result from the disruption of a slowly rising plug crystallizing in response to degassing. In particular, crystal size distribution data point to syn-eruptive degassing-induced crystallization as responsible for the transition in eruptive style from the first to the second phase of the eruption. This mechanism not only has been proved to profoundly affect the dynamics of dome-forming calc-alkaline eruptions, but may also have a strong influence in driving the eruption dynamics of alkaline magmas of intermediate to evolved compositions. [ABSTRACT FROM AUTHOR]

Published

2005

38. The Plinian phase of the Campanian Ignimbrite eruption (Phlegrean Fields, Italy): evidence from density measurements and textural characterization of pumice.

Author

Margherita Polacci, Laura Pioli, and Mauro Rosi

Subjects

VOLCANIC eruptions, MAGMATISM, PUMICE

Abstract

Textural characterization of pumice clasts from explosive volcanic eruptions provides constraints on magmatic processes through the quantification of crystal and vesicle content, size, shape, vesicle wall thickness and the degree of interconnectivity. The Plinian fallout deposit directly underlying the Campanian Ignimbrite (CI) eruption represents a suitable case to investigate pumice products with different textural characteristics and to link the findings to processes accompanying conduit magma ascent to the crater. The deposit consists of a lower (LFU) and upper (UFU) pumice lapilli bed generated by the sub-steady eruption of trachytic magma with <5 vol%. crystals and a peak discharge rate of 3.2?10 8 kg/s. Density measurements were performed on samples collected from different stratigraphic intervals at the Voscone-type outcrop, and their textural characteristics were investigated at different magnifications through image analysis techniques. According to clast densities, morphologies and vesicle textures pumice clasts were classified into microvesicular (heterogeneous vesicles), tube (elongated/deformed vesicles) and expanded (coalesced/inflated vesicles).The combination of density data and textural investigations allowed us to characterize both representative areas and textural extremes of pumice products. Bulk vesicularity spans a broad interval varying from 0.46 to >0.90, with vesicle number density ranging from 10 7?10 8 cm -3. The degree of vesicle coalescence is high for all pumice types, with interconnected vesicles generally representing more than 90% of the bulk vesicle population. The results show a high degree of heterogeneous textures among pumice clasts from both phases of the eruption and within each eruption phase, the different pumice types and also within each single pumice type fragment. The origin of pumice clasts with different textural characteristics is ascribed to the development of conduit regions marked by different rheological behavior. The conclusions of this study are that vesicle deformation, degree of coalescence and intense shear at the conduit walls play a major role on the degassing process, hence affecting the entire conduit dynamics. [ABSTRACT FROM AUTHOR]

Published

2003