A year of lava fountaining at Etna: Volumes from SEVIRI

Ganci, Gaetana; Harris, Andrew; Negro, Ciro Del; Guéhenneux, Yannick; Cappello, Annalisa; Labazuy, Philippe; Calvari, Sonia; Gouhier, Mathieu

doi:10.1029/2012gl051026

Cited by 88 publications

(99 citation statements)

References 40 publications

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“…As anticipated, this accords with the previous source modeling obtained by the analysis of the strain changes . For the lava fountains of NSEC, several geochemical and geophysical studies (Aiuppa et al, 2010;Bonaccorso et al, 2011a,b;Calvari et al, 2011;Ganci et al, 2012;Corsaro et al, 2017) supported the interpretation that these events were violent releases of bubble-rich magma layers previously decoupled from the melt and trapped at shallow depths close to sea level. The observed behavior for the NSEC lava fountains is a cyclic process of charge/discharge.…”

Section: Discussionmentioning

confidence: 91%

Coupled Short- and Medium-Term Geophysical Signals at Etna Volcano: Using Deformation and Strain to Infer Magmatic Processes From 2009 to 2017

et al. 2018

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In active volcanoes a main challenge is to identify and characterize the dynamics of magmatic sources from deformation and strain data. This task is of primary importance in frequently eruptive volcanoes, such as Etna. After the main flank eruption of [2008][2009] and until 2017, Etna volcano was characterized by a lively eruptive activity of different phases. These comprised 44 lava fountain episodes from the New South East Crater (NSEC), two sequences of close episodes of lava fountains from the Voragine crater (VOR), as well as some periods of summit effusive activity with a more prolonged supply of lava flows. Several studies have described and modeled single lava fountains episodes of the NSEC and VOR, in particular through high precision data from borehole strain-meters. In this study, we broaden the analysis also considering the medium-term volcano recharging/discharging periods preceding/accompanying the different eruptive phases during 2009-2017 by constraining the source positions through deformation recorded by the permanent GPS network. Together with the modeling deduced from the strain-meter data we produce a more complete representation of the different sources that characterized the different periods both in the medium-term (i.e., the preparatory phases showing inflation and the eruptive phases showing deflation) and in the short-term (i.e., the fast discharge associated with eruptive events). Our modeling explains the pathway of magma from the intermediate-shallow plumbing system to the surface and highlights a clear separation between the inflation and the deflation source depths, coherently with petrological constraints on the spatio-temporal evolution of magma transfer and storage.

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Section: Discussionmentioning

confidence: 91%

Coupled Short- and Medium-Term Geophysical Signals at Etna Volcano: Using Deformation and Strain to Infer Magmatic Processes From 2009 to 2017

et al. 2018

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“…At the beginning of the new year (during the night between 11 and 12 January 2011), a huge paroxystic phase began at the new Pit Crater, accompanied by a lava fountain and a lava flow which lasted for several hours. The violence of this paroxysm erupted a volume of magma close to 1.55 Â 10 6 m 3 in only 4 h [Ganci et al, 2012]. Although the type of activity of this eruption is similar to the paroxysms that occurred during 2007, the volume of magma erupted was four times higher than in 2007 [Harris et al, 2011].…”

Section: Period 2010-2012mentioning

confidence: 81%

“…During the first 4 months of 2012, a further seven paroxysms with similar features followed (5 January; 9 February; 4 and 18 March; 1, 12, and 24 April), reaching a total of 25 paroxysms since the first in 2011. Ganci et al [2012], using a comparable method, estimated the total amount of lava erupted for all the 18 events in 2011, including the first of the 2012 (5 January), at about 25.4 Â 10 6 m 3 . This is remarkable if we consider that the huge amount of lava erupted over these 19 episodes was emitted in the equivalent of less than 9 days, and that this value might have been underestimated as the weather conditions during the events on 18 February and 19 September did not permit any measurement survey.…”

Section: Period 2010-2012mentioning

confidence: 99%

“…Norm increase-decrease cycles can be put in relationship with the eruptive activity and the volumes of erupted magma [Harris et al, 2011;Ganci et al, 2012], even if, as explained in section 6, a simple direct relationship cannot be expected between them. Nevertheless, it is notable that the eruptions during 2011-2012, although very short in duration, produced a quantity of erupted lava of approximately 25 Â 10 6 m 3 (the time amounting to only about 9 days in total, calculated until the first paroxysm in January 2012), which is more comparable with the 2006 eruption (in total 39 Â 10 6 m 3 ) than with the small 2007 eruptions (in total 2.5 Â 10 6 m 3 ).…”

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confidence: 99%

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Ten years of soil CO₂ continuous monitoring on Mt. Etna: Exploring the relationship between processes of soil degassing and volcanic activity

Liuzzo

Gurrieri

Giudice

et al. 2013

Geochem Geophys Geosyst

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[1] The measurement of soil CO 2 flux variations is a wellÀestablished practice in many volcanic areas around the world. Until recently, however, most of these were made using direct sampling methods. These days, a variety of automatic devices providing real-time data now make the continuous monitoring of volcanic areas possible. A network of automatic geochemical monitoring stations (EtnaGas network) was developed by INGV Palermo and installed at various sites on the flanks of Mt. Etna. Here, we present a large set of soil CO 2 flux data recorded by the network, dating back 10 years, a period in which several noteworthy eruptive phenomena occurred. Our statistical analysis strongly suggests that anomalous measurements of soil CO 2 flux are attributable to volcanic origin and in almost all cases precede volcanic activity. Here, we present the actual data series recorded by EtnaGAS and an interpretative model of the expected behavior of soil CO 2 flux (in terms of increase-decrease cycles), which corresponded well with the volcanic activity during this period. Through the use of a comparative approach, incorporating both volcanological and geochemical data, the global soil CO 2 flux trends are put into a coherent framework, highlighting close links between the time flux variations and volcanic activities. These insights, made possible from 10 years of uninterrupted data, confirm the importance of continuous monitoring of volcanic soil degassing, and may contribute in the forecasting of imminent eruptive activity or the temporal evolution of an in-progress eruption, therefore facilitating Civil Defense planning in volcanic areas under high-hazard conditions.

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“…RST VOLC runs, in fact, also on geostationary satellite data [58], which are the most suited to detect short-lived eruptive events [59,60]. Furthermore, it is ready to be implemented on VIIRS (the Visible Infrared Imaging Radiometer Suite), providing information in MIR and TIR bands with a higher spatial resolution (i.e., 375 m) than MODIS, enabling a better subtle hot spot identification at Lengai.…”

Section: Discussionmentioning

confidence: 99%

Assessing Performance of the RSTVOLC Multi-Temporal Algorithm in Detecting Subtle Hot Spots at Oldoinyo Lengai (Tanzania, Africa) for Comparison with MODLEN

et al. 2018

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Abstract:The identification of subtle thermal anomalies (i.e., of low-temperature and/or spatial extent) at volcanoes by satellite is of great interest for scientists, especially because minor changes in surface temperature might reveal an unrest phase or impending activity. A good test case for assessing the sensitivity level of satellite-based methods is to study the thermal activity of Oldoinyo Lengai (OL) (Africa, Tanzania), which is the only volcano on Earth emitting natrocarbonatite lavas at a lower temperature (i.e., in the range 500-600 • C) than usual magmatic surfaces. In this work, we assess the potential of the RST VOLC multi-temporal algorithm in detecting subtle hot spots at OL for comparison with MODLEN: A thermal anomaly detection method tailored to OL local conditions, by using Moderate Resolution Imaging Spectroradiometer (MODIS) data. Our results investigating the eruptive events of 2000-2008 using RST VOLC reveal the occurrence of several undocumented thermal activities of OL, and may successfully integrate MODLEN observations. In spite of some known limitations strongly affecting the identification of volcanic thermal anomalies from space (e.g., cloud cover; occurrence of short-lived events), this work demonstrates that RST VOLC may provide a very important contribution for monitoring the OL, identifying subtle hot spots showing values of the radiant flux even around 1 MW.

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A year of lava fountaining at Etna: Volumes from SEVIRI

Cited by 88 publications

References 40 publications

Coupled Short- and Medium-Term Geophysical Signals at Etna Volcano: Using Deformation and Strain to Infer Magmatic Processes From 2009 to 2017

Coupled Short- and Medium-Term Geophysical Signals at Etna Volcano: Using Deformation and Strain to Infer Magmatic Processes From 2009 to 2017

Ten years of soil CO₂ continuous monitoring on Mt. Etna: Exploring the relationship between processes of soil degassing and volcanic activity

Assessing Performance of the RSTVOLC Multi-Temporal Algorithm in Detecting Subtle Hot Spots at Oldoinyo Lengai (Tanzania, Africa) for Comparison with MODLEN

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A year of lava fountaining at Etna: Volumes from SEVIRI

Cited by 88 publications

References 40 publications

Coupled Short- and Medium-Term Geophysical Signals at Etna Volcano: Using Deformation and Strain to Infer Magmatic Processes From 2009 to 2017

Coupled Short- and Medium-Term Geophysical Signals at Etna Volcano: Using Deformation and Strain to Infer Magmatic Processes From 2009 to 2017

Ten years of soil CO2 continuous monitoring on Mt. Etna: Exploring the relationship between processes of soil degassing and volcanic activity

Assessing Performance of the RSTVOLC Multi-Temporal Algorithm in Detecting Subtle Hot Spots at Oldoinyo Lengai (Tanzania, Africa) for Comparison with MODLEN

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Ten years of soil CO₂ continuous monitoring on Mt. Etna: Exploring the relationship between processes of soil degassing and volcanic activity