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UNA NUOVA STAZIONE A VULCANO PER IL MONITORAGGIO DEL FLUSSO DI CALORE DAL SUOLO (2011)

Diliberto, Iole Serena ; Camarda, Marco ; Cappuzzo, Santo ; [et al.]

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Publication Date: 2017-04-04

Description: Una stazione per il monitoraggio delle variazioni del flusso di calore dal suolo è stata installata all’isola di Vulcano sul cono attivo di La Fossa, all’esterno del campo fumarolico di alta temperatura. La stazione misura i valori di temperatura del suolo a sei differenti profondità, lungo uno stesso profilo verticale. Le misure consentono di ottenere il gradiente di temperatura (°C/m) nel suolo ed il coefficiente di correlazione lineare (R2) delle temperature registrate lungo il profilo. Tali parametri (R2 e °C/m) consentono di determinare il flusso di calore nei periodi in cui la componente conduttiva è la principale forma di trasporto del calore. La stazione è stata progettata ed assemblata nel laboratorio di elettronica della sezione di Palermo dell’INGV e utilizza un programma di acquisizione ed un sistema di trasmissione interamente progettati e sviluppati dallo stesso personale. Dopo un primo periodo di osservazione dei dati e di verifiche tecniche la stazione, denominata Bordosud, è entrata nel sistema di monitoraggio geochimico dell’attività di Vulcano gestito dalle Sezione di Palermo dell’INGV. L’energia termica rilasciata da un sistema vulcanico è un parametro di primaria importanza per la sorveglianza dell’attività vulcanica. Durante i periodi intereruttivi, il calore rilasciato attraverso la circolazione dei fluidi idrotermali e l’energia termica associata all’emissione di vapore attraverso i campi fumarolici costituiscono una buona parte dell’energia totale rilasciata dal vulcano.

Description: INGV

Description: Published

Description: 1.2. TTC - Sorveglianza geochimica delle aree vulcaniche attive

Description: open

Keywords: monitoraggio flusso di calore ; gradiente di temperatura nel suolo ; componente conduttiva del flusso di calore ; serie temporale di dati ; 04. Solid Earth::04.08. Volcanology::04.08.06. Volcano monitoring

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: report

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Changes of heat and fluid release from crater and peripheral areas during solphataric activity (2018)

Diliberto, Iole Serena ; Camarda, Marco

Elsevier

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Publication Date: 2018-03-26

Description: At Vulcano (Aeolian Islands, Italy), different measurement methods have been developed for more than 30 years and models were formulated to account for the real time evolution of the actual solphataric activity. The results of a long term monitoring of surface temperature and of CO2 flux from soil, reviewed in a multidisciplinary framework, are presented here. These two parameters, monitored at the ground surface, highlighted local variations of the hydrothermal release and the time series of data showed in several instances, different range of values. The background and anomalous ranges defined by this long term monitoring are robust by a statistical point of view. The long term data-series offered a useful tool to verify conceptual framework and to better define the natural hazard evaluation integrating “classical” and “new” investigation techniques. Moreover, La Fossa area lays in a geodynamic context with active seismo- tectonic processes, frequently perturbing the pressure field of the hydrothermal system under investigation. Any perturbation in the pressure state variable (P) of the system, results in an excited state of its components and a relevant transfer of energy and mass towards the surface starts to counterbalance the perturbation. The continuous monitoring of surface temperature reveals the effects of the forces guiding the heat flows whereas the space variation of temperature indicates the rising paths of hydrothermal and magmatic fluids. The occurrence of new fumaroles and mofetes, or even changing emission rates of fluids by these vents, rises questions about the evolution of the equilibrium state of buried hydrothermal system, or about changing physical condition of overburden rocks. The conceptual framework suggesting the potential of our time series of field data is that a rock body, can be seen as a multiphase geochemical system where the fluid phases play a crucial role in defining the physical changes of the body and its response to the different forces acting on it. The changes of pore pressure depend on the balance between gas phases production and gas leaked out from a geochemical system. Analyses of fluxes at the system boundaries can give information on the equilibrium of the interacting geospheres. Even if playing variables are too many, some specific compounds and parameters can be selected as indicators of the state of the system.#

Description: Published

Description: Yokohama, Japan

Description: 4V. Dinamica dei processi pre-eruttivi

Keywords: Long term monitoring ; Vulcano ; Fluid geochemistry

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: Conference paper

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Report from individual Research Units: INGV-DPC Project V3_5 – Vulcano (2018)

Diliberto, Iole Serena

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Publication Date: 2018-03-22

Description: Four new stations for heat flux monitoring out of main fumaroles field have been installed at the top of La Fossa cone (MN, MS, BN and BS) within June and July 2005, supplying time series of temperatures and self potential recorded hourly. Another station, already operating since 2004 at the base of La Fossa cone, has been considered “the cold reference” to interpret the variations of heat flux recorded at the top. In accordance to the conduction rate equation (Fourier Law), the linear gradients of temperature are a function of the heat flux towards the surface, and this last can be evaluated with a simplified equation. The main time-variation recorded during three years of experimental acquisitions, have been related to the changes in the hydrothermal heat release. They revealed periods of anomalous release of deep fluids (increases in temperature also in the high temperature fumaroles, correlated to increases in the output of steam and carbon dioxide). The new monitoring stations are away from fumarole fields and the measurable surface flows are related to heat transfer from lower layers and to diffuse degassing. Thus, a comparison between gas flux and heat release gives an indication of the different quotes of surface energy release. This experience suggests that the areas showing higher thermal gradient correspond to areas with the highest diffuse CO2 flux. This evidence resulted by the CO2 flux measurements, performed by chamber accumulation method in the monitoring stations and in the surroundings. Moreover the heat flux values obtained from temperature gradient and those recalculated from CO2 flux are similar, indicating that locally both parameters (soil temperature and gas emission rates) reflect the same form of energy release. The comparative analysis of different time-series supplies information related to perturbations of the state variables, useful to verify conceptual framework and to better define “classical” and “new” monitoring techniques for volcanic, as well as seismic surveillanceThree anomalous periods were observed from November 2004, either in the seismic release and in the surface heat flow. So far, the new monitored sites out of the fumaroles area, resulted very sensitive to minor perturbations of the system. However the test of the self potential continuous monitoring device installed in the unsaturated soil, still needs other accurate laboratory test, in order to define the relationship between this geophysical parameter and the geochemical ones (heat release and diffusive fluxes of carbon dioxide).

Description: Dipartimento Nazionale di Protezione Civile

Description: Unpublished

Description: 4V. Dinamica dei processi pre-eruttivi

Description: 6V. Pericolosità vulcanica e contributi alla stima del rischio

Keywords: Steam Heated Soil (SHS) ; Temperature gradients ; La Fossa cone ; Vulcano ; Geochemical Monitoring

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: report

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Long-term monitoring on a closed-conduit volcano: A 25 year long time-series of temperatures recorded at La Fossa cone (Vulcano Island, Italy), ranging from 250 °C to 520 °C (2018)

Diliberto, Iole Serena

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Publication Date: 2018-03-21

Description: This article is part of a special issue on Volcano hydrothermal Systems

Description: The longest record of temperature data from an active volcano in southern Italy is presented. The dataset comes from continuous monitoring of fumarole temperatures from the La Fossa cone of Vulcano (Aeolian Islands) running from 1991 to 2016. The discussion includes an empirical approach, based on a large number of direct measurements. At Vulcano Island, geochemical monitoring of the uprising fluids allows detection of the surface effects of perturbation in the state variables of the buried hydrothermal and magmatic systems. The presented datasets show that fumaroles' changing temperatures, which are related to surface heat flow, are useful indicators. Over the past 25 years, the combined effects of runoff and chemo-physical alterations were negligible on the output temperature of the earliestmonitored fumaroles. Themaximumrecorded variationwas 298 °C (measured in the ground very close to the steaming vents, at a depth of 0.5 m). Repetition of output temperature values occurred after 19 years in the same position; the time variations suggest a cyclic characteristic, although more years are needed to register the complete cyclic modulation. A combination of minor cyclical variations has also been registered in the fumarole output. The minor cycles appeared in this long series of data after 1995, and they can be interpreted as one of the surface effects of temporary departures from a stationary state assumed for the systemfeeding the La Fossa area. In this sector of the Mediterranean area, the steady state pressure field, aswell as the steady state temperature gradients, can be perturbed either bymagmatismor by seismotectonic processes related to regional dynamics. This long-term monitoring allowed comparisons of many temperature subsets with other validated geochemical and geophysical data series and highlighted common source mechanisms accounting for endogenous processes. Changes in the magma source and/or seismo-tectonic activity have been the primary causes of the time variations. The collected data show the effectiveness of the geochemical approach for following the heat flowchanges that originated froma deep source in real time, even though an estimation of magmatic and/or hydrothermal energy release cannot be retrieved by surface temperature monitoring alone. © 2017 Elsevier B.V. All rights reserved.

Description: National Department of Civil Protection

Description: Published

Description: 151-160

Description: 4V. Dinamica dei processi pre-eruttivi

Description: JCR Journal

Keywords: Fumaroles Temperature Time-series Continuous monitoring Vulcano ; Temperature Time-series Continuous monitoring Vulcano ; Continuous monitoring Vulcano ; Vulcano ; volcano monitoring

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Review of the evolution of geochemical monitoring, networks and methodologies applied to the volcanoes of the Aeolian Arc (Italy) (2018)

Inguaggiato, Salvatore ; Diliberto, Iole Serena ; Federico, Cinzia ; [et al.]

Elsevier

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Publication Date: 2019-03-26

Description: The examples of geochemical monitoring results provided in this review article show the close relationships among data analysis, interpretation, and modeling. We particularly focus on describing the fieldwork procedures, since any theoretical approach must always be verified and supported by field data, rather than just by experiments controlled in laboratory.

Description: Fluids discharged from volcanic systems are the direct surface manifestation of magma degassing at depth and provide primary insights for evaluating the state of volcanic activity. We review the geochemical best practice in volcanic surveillance based to a huge amount of monitoring data collected at different active volcanoes using both continuous and discontinuous approaches. The targeted volcanoes belong to the Aeolian Arc located in the Tyrrhenian Sea (Italy), and they have exhibited different activity states during the monitoring activities reported here. La Fossa cone on Vulcano Island has been in an uninterrupted quiescent stage characterized by variable solfataric activity. In contrast, Stromboli Island has shown a persistent mild explosive activity, episodically interrupted by effusive eruptions (in 1985, 2002, 2007, and 2014). Panarea Island, which is the summit of a seamount rising from the seafloor of the southern Tyrrhenian Sea, showed only undersea fluid release. The only observable clues of active volcanism at Panarea Island have been impulsive changes in the undersea fluid release, with the last submarine gas burst event being observed in November 2002. The geochemical monitoring and observations at each of these volcanoes has directly involved the volcanic plume and/or the fumarole vents, thermal waters, and diffuse soil degassing, depending on the type of manifestations and the level of activity encountered. Through direct access to the magmatic samples (when possible) and the collection of as much observable data related to the fluid release as possible, the aim has been (i) to verify the thermodynamic equilibrium condition, (ii) to discern among the possible hydrothermal, magmatic, marine, and meteoric sources in the fluid mixtures, (iii) to develop models of the fluid circulation supported by data, (iv) to follow the evolution of these natural systems by long-term monitoring, and (v) to support surveillance actions related to defining the volcanic risk and the evaluation and possible mitigation of related hazards. The examples provided in this review article show the close relationships among data analysis, interpretation, and modeling. We particularly focus on describing the fieldwork procedures, since any theoretical approach must always be verified and supported by field data, rather than just by experiments controlled in laboratory. Indeed the natural systems involve many variables producing effects that cannot be neglected. The monitored volcanic systems have been regarded as natural laboratories, and all of the activities have focused on both volcanological research and surveillance purposes in order to ensure that these two goals have overlapped. An appendix is also included that explains the scientific approach to the systematic activities, regarding geochemical monitoring of volcanic activity.

Description: Published

Description: 241-276

Description: 4V. Processi pre-eruttivi

Description: JCR Journal

Keywords: geochemical methodologies ; Vulcano ; Stromboli ; Panarea ; Geochemical Monitoring

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Anatomy of thermal unrest at a hydrothermal system: case study of the 2021–2022 crisis at Vulcano (2023)

Pailot-Bonnétat, Sophie ; Rafflin, Victoria ; Harris, Andrew ; [et al.]

Spinger Nature

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Publication Date: 2023-10-18

Description: Hydrothermal systems can generate phreatic and/or phreatomagmatic explosions with little warning. Understanding the temporal and spatial evolution of geophysical and geochemical signals at hydrothermal systems is crucial for detecting precursory signs of unrest and informing on hazards. Thermal signatures of such systems are poorly defined because data records are often too short or discrete compared to activity timescales, which can be decadal. La Fossa system of Vulcano has been monitored since the 1980s and entered a period of unrest in 2021. We assessed the thermal signature of La Fossa using ground- and satellite-based data with various temporal and spatial scales. While continuously recording stations provided continuous but point-based measurements, fumarole field vent surveys and infrared images obtained from satellite-flown sensors (ASTER and VIIRS) allowed lower temporal resolution but synoptic records to be built. By integrating this multi-resolution data set, precursory signs of unrest could retrospectively be detected from February to June 2021. The intensity of all unrest metrics increased during the summer of 2021, with an onset over a few days in September 2021. By September, seismic, CO2, SO2 and other geochemical metrics also indicated unrest, leading Civil Protection to raise the alert level to yellow on October 1. Heat flux, having been 4 MW in May 2019, increasing to 90 MW by September, and peaking at 120 MW in March 2022. We convolved our thermal data sets with all other monitoring data to validate a Vulcano Fossa Unrest Index (VFUI), the framework of which can be potentially applied to any hydrothermal system. The VFUI highlighted four stages of unrest, none of which were clear in any single data set: background, precursory, onset, and unrest. Onset was characterized by a sudden release of fluids, likely caused by the failure of sealed zones that had become pressurized during the precursory phase that began possibly as early as February 2021. Unrest has been ongoing for more than 18 months and may continue for several more years. Our understanding of this system behavior has been due to hindsight, but demonstrates how multiparametric surveys can track and forecast unrest.

Description: LabEx Clervolc (program 2); ANR-DIRE (ANR-19-CE04-0014-DIRE: Prédire les crises des écosystèmes hydrothermaux volcaniques à partir de réseaux multiples de capteurs); EuroVolc TransNational Access grant (EV-C2_003); INGV-Palermo supported fieldwork and equipment purchase

Description: Published

Description: 159

Description: JCR Journal

Keywords: Hydrothermal system ; Heat flux ; Unrest ; Satellite remote sensing ; Vulcano ; Soil temperature ; Fumaroles

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Temperatures recorded from January 2019 to February 2023 in the high-temperature fumaroles of the active cone of La Fossa Caldera (2024)

Diliberto, Iole Serena ; Di Figlia, Maria Grazia ; Cosenza, Paolo ; [et al.]

Spinger Nature

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Publication Date: 2024-03-19

Description: I have attached the manuscript resubmitted after making the changes requested by the reviewers. The Data Report is published in a Special Issue of Bulletin of Volcanology, Copyright © 2024, International Association of Volcanology & Chemistry of the Earth's Interior.

Description: The thermal monitoring of high-temperature fumaroles (HTF) located at the summit of La Fossa cone (Island of Vulcano, Italy), is based on the acquisition of high temporal resolution data. The HTF stations are part of a multi-parameter surveillance network. The longest time series of HTF temperatures has tracked the thermal effects of many exhaling crises that have affected the active volcanic system under la Fossa caldera, for over 40 years. The HTF records always showed a medium term period (from weeks to several months) of increasing heat flow before of the following impulsive onset. The last impulsive onset occurred in 2021, and reached the acme of the exhaling crisis in early November. The INGV surveillance network, detected different anomalous signals, allowing the scientific community to closely follow the surface effects of processes originated at depth. The very first signals detected during unrests were the increases in outlet temperatures and steam output from fumaroles, correlated to an enhanced concentration of acidic gas species. The episodes of unrest have been generally accompanied by an increase in seismo-volcanic events with, sometimes negligible, ground deformation. On this close conduit volcano, we are facing the upgrading of thermal monitoring at the ground level. Starting from these long-term monitoring datasets, used as ground control data, we are also testing the most advanced technical facilities supplied by the optical sensors (either ground, air or space based) to define the time variations of the thermal release over large surfaces.

Description: This research was funded by the INGV-DPC (Istituto Nazionale di Geofisica e Vulcanologia—Italian Civil Protection Department) volcanic surveillance program of Vulcano Island. This study has benefited from funding provided by the Italian Presidenza del Consiglio dei Ministri—Dipartimento della Protezione Civile (OvFu 0304.010).

Description: Published

Description: 30

Description: OSV4: Preparazione alle crisi vulcaniche

Description: JCR Journal

Keywords: temperature of fumaroles ; time series ; Unrest ; Vulcano ; 04.08. Volcanology ; 05.02. Data dissemination ; 05.04. Instrumentation and techniques of general interest

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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The temperatures recorded from January 2020 to February 2023 in the 3 Diffuse Degassing Zone of the active cone of La Fossa Caldera (2024)

Diliberto, Iole Serena ; Calderone, Lorenzo ; Cosenza, Paolo ; [et al.]

Springer

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Publication Date: 2024-05-27

Description: Active volcanoes show many mild thermal anomalies, because the ground surface is sensible to changes in the advective processes, occurring through the network of fissures. This data report shows the temperatures, recorded from January 2020 to February 2023, by a remote-controlled monitoring station. The VCS station is located on the summit of La Fossa cone (Vulcano, Aeolian Islands), in a zone of intense diffuse degassing. The temperature data, hourly registered at VCS, are available in the supplementary Excel file. The thermal data are part of the comprehensive network, performed by the Istituto Nazionale di Geofisica e Vulcanologia, for volcanic surveillance. On the Island of Vulcano, the active volcanic system under la Fossa caldera has been affected by multiple exhaling crises, interpreted as unrest of volcanic activity. The temperature time series provided reference data showing the thermal transition of the volcanic ground surface from a background degassing condition, through unrest, to the new thermal condition that followed the unrest period.

Description: OvFu 0304.010 - Italian Presidenza del Consiglio dei Ministri—Dipartimento della Protezione Civile

Description: Published

Description: 40

Description: OSV2: Complessità dei processi vulcanici: approcci multidisciplinari e multiparametrici

Description: JCR Journal

Keywords: heat flux ; time series ; Unrest ; Vulcano ; diffuse degassing ; thermal monitoring

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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