Search results for " Volcanic"

showing 10 items of 144 documents

UVolc: A software platform for measuring volcanic SO2 fluxes

2012

We present here a novel stand-alone software platform, UVolc, for remotely sensed measurement of volcanic SO"2 emission rates. Such data are important diagnostics of activity conditions, with utility in forecasting measures. This code is made user friendly to enable volcanologists, who are not experts in the underlying physics of spectroscopy, to perform their own measurements. The program provides considerable reduction in errors and far greater operating flexibility than existing analogous code, which, unlike UVolc, can only interface with hardware no longer in manufacture. UVolc will be described here, including a presentation of data collected with this program in the field.

Volcanic SO2 monitoring Volcanic gas geochemistry Volcano remote sensingFlexibility (engineering)geographyUser Friendlygeography.geographical_feature_categorybusiness.industryInterface (computing)Real-time computingField (computer science)Settore GEO/08 - Geochimica E VulcanologiaSoftwareVolcanoCode (cryptography)Computers in Earth SciencesbusinessReduction (mathematics)GeologyInformation SystemsRemote sensingComputers & Geosciences
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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
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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
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First in-situ sensing of volcanic gas plume composition at Boiling Lake (Dominica, West Indies)

2012

Dominica, a small Caribbean island between Martinique (to the South) and Guadeloupe (to the North), is, because of the high number of potentially active volcanic centres,one of the most susceptible sites to volcanic risk in the Lesser Antilles arc. Seven major volcanic centres, active during the last 10ka, are considered likely to erupt again, and one of these is the Valley of Desolation volcanic complex. This is an area of 0.5 km2, located in on SW Dominica, where a number of small explosion craters, hot springs,bubbling pools and fumaroles testify for vigorous and persistent hydrothermal activity. Two main phreatic explosions have been documented in historical time (1880 and 1997), and th…

Volcanology Volcanic gasesSettore GEO/08 - Geochimica E Vulcanologia
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Continuous SO2 flux measurements for Vulcano Island, Italy

2012

&lt;p&gt;The La Fossa cone of Vulcano Island (Aeolian Archipelago, Italy) is a closed conduit volcano. Today, Vulcano Island is characterized by sulfataric activity, with a large fumarolic field that is mainly located in the summit area. A scanning differential optical absorption spectroscopy instrument designed by the Optical Sensing Group of Chalmers University of Technology in Göteborg, Sweden, was installed in the framework of the European project "Network for Observation of Volcanic and Atmospheric Change", in March 2008. This study presents the first dataset of SO&lt;sub&gt;2&lt;/sub&gt; plume fluxes recorded for a closed volcanic system. Between 2008 and 2010, the SO&lt;sub&gt;2&lt;/…

Vulcano Islanddata setSO2lcsh:QC851-999fumaroleNetwork for Observation of Volcanic and Atmospheric ChangeVulcanoFlux (metallurgy)Optical sensingemissionsulfur dioxideSicilyGeomorphologyAeolian archipelagoLipari Islandvolcanology Fossa Cratergeographygeography.geographical_feature_categoryplumeDifferential optical absorption spectroscopylcsh:QC801-809Atmospheric changedegassingSettore GEO/08 - Geochimica E VulcanologiaPlumelcsh:Geophysics. Cosmic physicsGeophysicsOceanographyDifferential optical absorption spectroscopyItalyVolcanoMessina [Sicily]lcsh:Meteorology. ClimatologyGeologyAnnals of Geophysics
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The contribution of volcanic emissions (Etna, Stromboli and Vulcano) to the atmospheric trace metals budget in the Mediterranean basin

2010

Volcanic emissions represent one of the major natural source for several trace metals (Cd, Cu, As, Pb, Hg and Zn) into the atmosphere both as gaseous and aerosol forms. The Mediterranean Sea can be considered a large geochemical sink for these elements whose source are the huge amounts of aerosols of different origin. The industrialized areas located in the northern part of the basin represent a nearly constant source of the anthropogenic-dominated aerosol. By contrast, the arid and desert regions located at the southern and eastern parts of the Mediterranean, are the sources of frequent dust “pulses” perturbing the “steady-state” conditions of the local atmosphere through the input of seve…

Vulcano Stromboli Etna Volcanic emissions
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Development of an active alkaline trap to determine acidic gas ratios in volcanic plumes: sampling technique and analytical methods

2012

alkaline trap volcanic plumesSettore GEO/08 - Geochimica E Vulcanologia
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Mount Etna volcanic emissions signature on the chemical composition of bulk atmospheric deposition in Sicily, Italy.

2022

Mt. Etna, on the eastern coast of Sicily (Italy), is one of the most active and most intensely monitored volcanoes on the Earth, widely recognized as a big source of volcanic gases, such as CO2, SO2, halogens, and many trace elements, including technological critical elements (TCEs), to the atmosphere on a regional and global scale. Mt. Etna emissions account for a significant percentage of the worldwide average volcanic budget and especially during eruptive periods, its products can be dispersed over great distances and they influence the chemical composition of the atmosphere of other continents too. The current knowledge about the geochemical cycle of TCEs is still scarce, nevertheless, …

atmospheric deposition major ions trace elements volcanic emissions Mt. EtnaSettore GEO/08 - Geochimica E Vulcanologia
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Application of the moss bag biomonitoring technique in an active volcanic environment (Mt. Etna, Italy).

2011

This paper presents the preliminary results of a biomonitoring study based on the use of moss bags exposed at 24 sites on Etna volcano. Sphagnum mosses were used to study bioaccumulation originating from atmospheric deposition, by measuring the tissue contents of major and a large suite of trace elements. Elements, such as Tl, Bi, As, Se, Cu and Cd, display high concentrations in the exposed samples close to the active vents. This study confirms the effectiveness of the moss bags technique also in active volcanic areas.

biomonitoring moss bags Mt. Etna volcanic emissions trace elementsSettore GEO/08 - Geochimica E Vulcanologia
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CO2 vents areas show effects of ocean acidification on benthic rocky shores assemblages

2011

climate change carbon dioxide volcanic vent mediterranean
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