0000000000866828

AUTHOR

Aaron Curtis

showing 6 related works from this author

Sustaining persistent lava lakes: Observations from high-resolution gas measurements at Villarrica volcano, Chile

2016

International audience; Active lava lakes – as the exposed upper part of magmatic columns – are prime locations to investigate the conduit flow processes operating at active, degassing volcanoes. Persistent lava lakes require a constant influx of heat to sustain a molten state at the Earth's surface. Several mechanisms have been proposed to explain how such heat transfer can operate efficiently. These models make contrasting predictions with respect to the flow dynamics in volcanic conduits and should result in dissimilar volatile emissions at the surface. Here we look at high-frequency SO2 fluxes, plume composition, thermal emissions and aerial video footage from the Villarrica lava lake i…

010504 meteorology & atmospheric sciencesLavaEarth scienceUAVUV camera010502 geochemistry & geophysics01 natural sciencesElectrical conduitFlux (metallurgy)Geochemistry and PetrologyEarth and Planetary Sciences (miscellaneous)[SDU.STU.VO]Sciences of the Universe [physics]/Earth Sciences/VolcanologyPetrologyGeophysic0105 earth and related environmental sciencesgeographyTrail By Firegeography.geographical_feature_categoryTrail ByLava domeFireconduit dynamicPlumeGeophysicsVolcano13. Climate actionSpace and Planetary ScienceGas slugMagmavolcanic degassingGeologyMulti-GAS
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Unrest at the Nevados de Chillán volcanic complex: a failed or yet to unfold magmatic eruption?

2018

Resuming erupting activity at volcanoes that have been long quiescent poses a significant challenge to hazard assessment, as it require assessment of whether the change in activity is an isolated event or the beginning of a new eruptive sequence. Such inception is often poorly characterised as quiescent volcanoes tend to be poorly equipped and not extensively monitored, especially with respect to gas geochemistry. Here, we report gas composition and flux measurements from a newly opened vent at the very onset of eruptive activity at the Nevados de Chillán volcanic complex (Chile) in January-February 2016. The molar proportions of H2O, CO2, SO2, H2S and H2 gases are found to be 98.4, 0.97, 0…

event.disaster_typeBasaltTrail By FireQE1-996.5geographygeography.geographical_feature_categoryAndesiteGeochemistryUV cameraGeologyEruption triggerDaciteVolcanic GasesBasaltic andesiteLithic fragmentVolcanoVolcanic unrestMagma[SDU.STU.VO]Sciences of the Universe [physics]/Earth Sciences/Volcanologyevent[SDU.ENVI]Sciences of the Universe [physics]/Continental interfaces environmentVolcanic gasesMulti-GASGeology
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Volcanic gas emissions and degassing dynamics at Ubinas and Sabancaya volcanoes; implications for the volatile budget of the central volcanic zone

2017

Abstract Emission of volcanic gas is thought to be the dominant process by which volatiles transit from the deep earth to the atmosphere. Volcanic gas emissions, remain poorly constrained, and volcanoes of Peru are entirely absent from the current global dataset. In Peru, Sabancaya and Ubinas volcanoes are by far the largest sources of volcanic gas. Here, we report the first measurements of the compositions and fluxes of volcanic gases emitted from these volcanoes. The measurements were acquired in November 2015. We determined an average SO 2 flux of 15.3 ± 2.3 kg s − 1 (1325-ton day − 1 ) at Sabancaya and of 11.4 ± 3.9 kg s − 1 (988-ton day − 1 ) at Ubinas using scanning ultraviolet spectr…

IASI010504 meteorology & atmospheric sciencesSabancayaEarth scienceGeochemistry010502 geochemistry & geophysics01 natural sciencesVolcanic GasesAtmospherechemistry.chemical_compoundFlux (metallurgy)Geochemistry and Petrology[SDU.STU.VO]Sciences of the Universe [physics]/Earth Sciences/VolcanologyVolcanic degassingeventGeophysic0105 earth and related environmental sciences[SDU.OCEAN]Sciences of the Universe [physics]/Ocean Atmosphereevent.disaster_typeTrail By Firegeographygeography.geographical_feature_categoryGas emissionsUV-cameraUbinaGeophysicsCarbon dioxidechemistryVolcanoUbinasDOAS13. Climate actionCarbon dioxideMulti-GASGeologyEarth (classical element)Journal of Volcanology and Geothermal Research
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Magmatic gas percolation through the old lava dome of El Misti volcano

2017

International audience; The proximity of the major city of Arequipa to El Misti has focused attention on the hazards posed by the active volcano. Since its last major eruption in the fifteenth century, El Misti has experienced a series of modest phreatic eruptions and fluctuating fumarolic activity. Here, we present the first measurements of the compositions of gas emitted from the lava dome in the summit crater. The gas composition is found to be fairly dry with a H2O/SO2 molar ratio of 32 ± 3, a CO2/SO2 molar ratio of 2.7 ± 0.2, a H2S/SO2 molar ratio of 0.23 ± 0.02 and a H2/SO2 molar ratio of 0.012 ± 0.002. This magmatic gas signature with minimal evidence of hydrothermal or wall rock int…

Volcanic hazardsImágenes ASTER010504 meteorology & atmospheric sciencesPoison control010502 geochemistry & geophysics01 natural sciencesASTERTrail by fireImpact craterGeochemistry and Petrology[SDU.STU.VO]Sciences of the Universe [physics]/Earth Sciences/VolcanologyGases volcánicos14. Life underwaterGas compositionPetrology0105 earth and related environmental sciencesWall rockgeographygeography.geographical_feature_categoryVolcanesOutgassingArequipaVolcanic hazardLava domeVolcán MistiPhreatic eruptionVolcano13. Climate action[SDU]Sciences of the Universe [physics]DesgasificaciónGeologySeismologyMulti-GASResearch Article
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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
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A CO2-gas precursor to the March 2015 Villarrica volcano eruption

2017

We present here the first volcanic gas compositional time-series taken prior to a paroxysmal eruption of Villarrica volcano (Chile). Our gas plume observations were obtained using a fully autonomous Multi-component Gas Analyser System (Multi-GAS) in the 3 month-long phase of escalating volcanic activity that culminated into the 3 March 2015 paroxysm, the largest since 1985. Our results demonstrate a temporal evolution of volcanic plume composition, from low CO$_2$/SO$_2$ ratios (0.65-2.7) during November 2014-January 2015 to CO$_2$/SO$_2$ ratios up to ≈ 9 then after. The H$_2$O/CO$_2$ ratio simultaneously declined to <38 in the same temporal interval. We use results of volatile saturatio…

volcanic gaseGeochemistry and Petrologyvolcanic gasesVillarrica volcanolava lakelava lakesmulti-GASprecursor CO2/SO2variationGeophysicprecursor CO2/SO2 variations
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