Search results for "event.disaster_type"

showing 10 items of 56 documents

Ratiocalc: Software for processing data from multicomponent volcanic gas analyzers

2015

Portable gas analyzers have become a powerful tool for the real-time monitoring of volcanic gas composition over the last decade. Gas analyzers make it possible to retrieve in real-time the chemical composition of a fumarole system or a plume in an open-conduit volcano via periodic field-deployments or at permanent stations. The core of a multicomponent volcanic gas analyzer (MultiGAS) consists of spectroscopic and electrochemical sensors that are used to determine the concentrations of the most abundant volcanic gases (H2O, CO2, SO2, H2S, H2, CO and HCl) in a diluted plume and their mutual molar ratios. Processing such data is often difficult due to the high sensitivity of the sensors to e…

MineralogyInformation SystemMultiGASGas sensorsGas analyzerVolcanic GasesVolcanic gaseventGas compositionComputers in Earth SciencesGas analyzer; Gas sensors; MultiGAS; Ratiocalc; Volcanic gas; Information Systems; Computers in Earth SciencesChemical compositionevent.disaster_typegeographygeography.geographical_feature_categoryVolcanic gaProcess (computing)RatiocalcFumaroleGas analyzerPlumeVolcano13. Climate actionEnvironmental scienceGas sensorInformation SystemsComputers & Geosciences
researchProduct

Scavenging of sulphur, halogens and trace metals by volcanic ash: The 2010 Eyjafjallajökull eruption

2013

The Eyjafjallajökull volcanic eruption in 2010 released considerable amounts of ash into the high troposphere-low stratosphere, leading to unprecedented disruption of air traffic over Europe. The role of such fine-grained tephra in adsorbing, and therefore rapidly scavenging, volcanogenic volatile elements such as sulphur and halogens, is explored here. We report on results (major to trace element chemistry) of leaching experiments carried out on 20 volcanic ash samples, taken from the deposits of the main phases of the eruption (March–April 2010), or directly while falling (5–9 May 2010). Ash leachate solutions from Eyjafjallajökull are dominated – among cations – by Ca and Na, and display…

Mineralogyexplosive volcanismvolcanic eruptionVolcanic GasesGeochemistry and Petrologyddc:550eventTrace metalVOLCANIC ASHmonitoring systemTephraVolatilesScavengingevent.disaster_typeVulcanian eruptionplumeChemistrystratosphere-troposphere interactionTrace elementtephrahalogentrace metalexplosive volcanism; VOLCANIC ASH; EyjafjallajökullEyjafjallajökullsulfurEnvironmental chemistryvolcanic gasVolcanic ashGeochimica et Cosmochimica Acta
researchProduct

Genesis of fumarolic emissions as inferred by isotope mass balances: CO 2 and water at Vulcano Island, Italy

2002

We have developed a quantitative model of CO2 and H2O isotopic mixing between magmatic and hydrothermal gases for the fumarolic emissions of the La Fossa crater (Vulcano Island, Italy). On the basis of isotope balance equations, the model takes into account the isotope equilibrium between H2O and CO2 and extends the recent model of chemical and energy two-end-member mixing by Nuccio et al. (1999). As a result, the H2O and CO2 content and the δD, δ18O, and δ13C isotope compositions for both magmatic and hydrothermal end-members have been assessed. Low contributions of meteoric steam, added at a shallow depth, have been also recognized and quantified in the fumaroles throughout the period fro…

Volcanic Gasesevent.disaster_typeMagmatic waterIsotope fractionationGeochemistry and PetrologyStable isotope ratioIsotope geochemistryGeochemistryeventFumaroleHydrothermal circulationGeologyIsotopes of oxygenGeochimica et Cosmochimica Acta
researchProduct

Gas emissions from five volcanoes in northern Chile and implications for the volatiles budget of the Central Volcanic Zone

2014

This study performed the first assessment of the volcanic gas output from the Central Volcanic Zone (CVZ) of northern Chile. We present the fluxes and compositions of volcanic gases (H2O, CO2, H2, HCl, HF, and HBr) from five of the most actively degassing volcanoes in this region—Lascar, Lastarria, Putana, Ollague, and San Pedro—obtained during field campaigns in 2012 and 2013. The inferred gas plume compositions for Lascar and Lastarria (CO2/Stot = 0.9–2.2; Stot/HCl = 1.4–3.4) are similar to those obtained in the Southern Volcanic Zone of Chile, suggesting uniform magmatic gas fingerprint throughout the Chilean arc. Combining these compositions with our own UV spectroscopy measurements of …

Volcanic Gasesevent.disaster_typegeographyGeophysicsgeography.geographical_feature_categoryVolcanoEarth scienceGeochemistryGeneral Earth and Planetary ScienceseventGas emissionsGeologyPlumeGeophysical Research Letters
researchProduct

Forecasting Etna eruptions by real-time observation of volcanic gas composition

2007

It is generally accepted, but not experimentally proven, that a quantitative prediction of volcanic eruptions is possible from the evaluation of volcanic gas data. By discussing the results of two years of real-time observation of H2O, CO2, and SO2 in volcanic gases from Mount Etna volcano, we unambiguously demonstrate that increasing CO2/SO2 ratios can allow detection of the pre-eruptive degassing of rising magmas. Quantitative modeling by the use of a saturation model allows us to relate the pre-eruptive increases of the CO2/SO2 ratio to the refilling of Etna's shallow conduits with CO2-rich deep-reservoir magmas, leading to pressurization and triggering of eruption. The advent of real-ti…

Volcanic Gasesevent.disaster_typegeographygeography.geographical_feature_categoryVolcanoEtna volcanoGeologyeventGas compositionPetrologySaturation (chemistry)SeismologyGeologyGeology
researchProduct

Isotopically (δ13C and δ18O) heavy volcanic plumes from Central Andean volcanoes: a field study

2017

International audience; Stable isotopes of carbon and oxygen in volcanic gases are key tracers of volatile transfer between Earth's interior and atmosphere. Although important, these data are available for few volcanoes because they have traditionally been difficult to obtain and are usually measured on gas samples collected from fumaroles. We present new field measurements of bulk plume composition and stable isotopes (δ13CCO2 and δ18OH2O+CO2) carried out at three northern Chilean volcanoes using MultiGAS and isotope ratio infrared spectroscopy. Carbon and oxygen in magmatic gas plumes of Lastarria and Isluga volcanoes have δ13C in CO2 of +0.76‰ to +0.77‰ (VPDB), similar to slab carbonate;…

Volcanic gase010504 meteorology & atmospheric sciencesδ18Oδ13CEarth scienceGeochemistry010502 geochemistry & geophysics01 natural sciencesVolcanic GasesIsotopic signatureGeochemistry and Petrology[SDU.STU.VO]Sciences of the Universe [physics]/Earth Sciences/VolcanologyeventIsotope ratio infrared spectroscopy0105 earth and related environmental sciencesevent.disaster_typegeographygeography.geographical_feature_categoryStable isotope ratioCarbon isotopeδ18OFumaroleVolcanoIsotopes of carbon[SDU]Sciences of the Universe [physics]Kinetic fractionationGeology
researchProduct

First determination of magma-derived gas emissions from Bromo volcano, eastern Java (Indonesia)

2015

The composition and fluxes of volcanic gases released by persistent open-vent degassing at Bromo Volcano, east Java (Indonesia), were characterised in September 2014 from both in-situ Multi-GAS analysis and remote spectroscopic (dual UV camera) measurements of volcanic plume emissions. Our results demonstrate that Bromo volcanic gas is water-rich (H2O/SO2 ratios of 56-160) and has CO2/SO2 (4.1 +/- 0.7) and CO2/S-tot (3.2 +/- 0.7) ratios within the compositional range of other high-temperature magma-derived gases in Indonesia. H-2/H2O and H2S/SO2 ratios constrain a magmatic gas source with minimal temperature of 700 degrees C and oxygen fugacity of 10(-17)-10(-18) bars. UV camera sensing on …

Volcanic gaseBromo volcanoJavaEastern javaAtmospheric sciencesVolcanic gases SO2 and CO2 fluxesVolcanic GasesBromo volcano; Eastern java; Indonesia; Multi-GAS; SO2 and CO2 fluxes; Tengger caldera; Volcanic gases; Geochemistry and Petrology; GeophysicsFlux (metallurgy)Caldera Eastern JavaSO2 and CO2 fluxesGeochemistry and PetrologyMineral redox bufferTengger[SDU.STU.VO]Sciences of the Universe [physics]/Earth Sciences/VolcanologyeventGas compositionVolcanic gasescomputer.programming_languageevent.disaster_typegeographygeography.geographical_feature_categoryIndonesia Multi-GASTengger CalderaSO2 and CO2 fluxeSettore GEO/08 - Geochimica E VulcanologiaPlumeEastern Java IndonesiaGeophysicsVolcanoIndonesia13. Climate actionMagmaTengger calderacomputerGeologySeismologyMulti-GAS
researchProduct

The bridge volcanic LIdar-BILLI: A review of data collection and processing techniques in the Italian most hazardous volcanic areas

2020

Volcanologists have demonstrated that carbon dioxide (CO2) fluxes are precursors of volcanic eruptions. Controlling volcanic gases and, in particular, the CO2 flux, is technically challenging, but we can retrieve useful information from magmatic/geological process studies for the mitigation of volcanic hazards including air traffic security. Existing techniques used to probe volcanic gas fluxes have severe limitations such as the requirement of near-vent in situ measurements, which is unsafe for operators and deleterious for equipment. In order to overcome these limitations, a novel range-resolved DIAL-Lidar (Differential Absorption Light Detection and Ranging) has been developed as part of…

Volcanic hazards010504 meteorology & atmospheric sciences010502 geochemistry & geophysics01 natural scienceslcsh:TechnologyData processing techniquesWind speedBridge (nautical)Volcanic Gaseslcsh:ChemistryHazardous wasteGeneral Materials ScienceeventVolcanic eruptionsInstrumentationlcsh:QH301-705.50105 earth and related environmental sciencesRemote sensingFluid Flow and Transfer Processesevent.disaster_typeCO2 flux Data processing techniques DIAL-Lidar Volcanic eruptions Volcanic plumesgeographyData collectiongeography.geographical_feature_categorylcsh:TProcess Chemistry and TechnologyCO<sub>2</sub> fluxGeneral Engineeringlcsh:QC1-999Computer Science ApplicationsfluxLidarVolcanolcsh:Biology (General)lcsh:QD1-999lcsh:TA1-2040DIAL-LidarVolcanic plumesEnvironmental scienceCO2lcsh:Engineering (General). Civil engineering (General)lcsh:Physics
researchProduct

The role of melt composition on aqueous fluid vs. silicate melt partitioning of bromine in magmas

2018

International audience; Volcanogenic halogens, in particular bromine, potentially play an important role in the ozone depletion of the atmosphere. Understanding bromine behaviour in magmas is therefore crucial to properly evaluate the contribution of volcanic eruptions to atmospheric chemistry and their environmental impact. To date, bromine partitioning between silicate melts and the gas phase is very poorly constrained, with the only relevant experimental studies limited to investigation of synthetic melt with silicic compositions. In this study, fluid/melt partitioning experiments were performed using natural silicate glasses with mafic, intermediate and silicic compositions. For each co…

atmospheric chemistry010504 meteorology & atmospheric sciencesbromine[SDU.STU]Sciences of the Universe [physics]/Earth SciencesSilicicarc magma010502 geochemistry & geophysics01 natural sciencesfluid/melt partitioningVolcanic Gaseschemistry.chemical_compoundGeochemistry and PetrologyEarth and Planetary Sciences (miscellaneous)eventPetrologyGeophysic0105 earth and related environmental sciencesMelt inclusionsevent.disaster_typeBasaltAndesiteSettore GEO/07 - Petrologia E PetrografiadegassingSilicatearc magmasSettore GEO/08 - Geochimica E VulcanologiaGeophysicschemistry13. Climate actionSpace and Planetary ScienceMagmaMaficGeology
researchProduct

2017

Abstract. Remote sensing of the gaseous composition of non-eruptive, passively degassing volcanic plumes can be a tool to gain insight into volcano interior processes. Here, we report on a field study in September 2015 that demonstrates the feasibility of remotely measuring the volcanic enhancements of carbon dioxide (CO2), hydrogen fluoride (HF), hydrogen chloride (HCl), sulfur dioxide (SO2), and bromine monoxide (BrO) in the downwind plume of Mt. Etna using portable and rugged spectroscopic instrumentation. To this end, we operated the Fourier transform spectrometer EM27/SUN for the shortwave-infrared (SWIR) spectral range together with a co-mounted UV spectrometer on a mobile platform in…

event.disaster_typeAtmospheric Sciencegeographygeography.geographical_feature_category010504 meteorology & atmospheric sciencesSpectrometer010502 geochemistry & geophysicsAtmospheric sciences01 natural sciencesPlumeVolcanic Gaseschemistry.chemical_compoundAltitudeImpact craterVolcanochemistrySunriseeventGeologySulfur dioxide0105 earth and related environmental sciencesRemote sensingAtmospheric Measurement Techniques
researchProduct