Search results for " volcanic ash."

showing 9 items of 9 documents

Possible impacts of volcanic ash emissions of Mount Etna on the primary productivity in the oligotrophic Mediterranean Sea: Results from nutrient-rel…

2013

Atmospheric deposition of volcanic ash has recently been recognized as an important nutrient source into the surface ocean. Mount Etna (Italy), one of the world's most active volcanoes, is located in the oligotrophic Mediterranean Sea (MedSea). Despite the active volcanism on Mount Etna, the biogeochemical impacts of volcanic ash fallouts on the marine primary productivity (MPP) remain largely unknown. Here we present the results of seawater nutrient release experiments with volcanic ash samples from Mount Etna that have been collected during different eruptive episodes between 2001 and 2007. Our results show that volcanic ash from Mount Etna releases significant amounts of fixed-N (35-855 …

Biogeochemical cycleEarth scienceVolcanismsystemsurface-waterOceanographyAtmospheric sciencesironMediterranean seanitrateDust stormvolcanic ashsaharan dustoceanic fertilizationEnvironmental ChemistryOceanic fertilization Volcanic ash Mount Etna Mediterranean Sea Phosphate Nitrate Ironmediterranean seaphosphorusphosphateWater Science and Technologygeographygeography.geographical_feature_categoryExplosive eruptionatmospheric depositioneruptive behaviorGeneral ChemistryfalloutVolcanophytoplanktonSeawatermount etnalevantine basinGeologyVolcanic ash
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Alteration effects of volcanic ash in seawater: Anomalous Y/Ho ratios in coastal waters of the Central Mediterranean sea

2007

This paper presents the results of a study based on data collected during the oceanographic cruise ANSIC 2001 carried out in the Ionian Sea during the explosive activity of Mount Etna in the summer of 2001. Anomalous low values of Y/Ho ratios in seawater suggest extensive scavenging processes on the surfaces of smectitic alteration products, with Y and Ho fractionation controlled by the differences in their electronic configurations and behaviour during solution/surface complexation equilibria. These processes can also be traced through the presence of significant tetrad effects recorded in the chondrite-normalised Rare Earth Elements and Yttrium (YREEs) patterns of suspended particulate ma…

Geochemistrychemistry.chemical_elementYttriumFractionationParticulatesSettore GEO/08 - Geochimica E Vulcanologiachemistry.chemical_compoundMontmorilloniteMediterranean seachemistryGeochemistry and PetrologySeawaterScavengingY/HoGeologyY/Ho ratio REE Geochemical behaviour volcanic ash.Volcanic ash
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One-Dimensional Transient Analysis of Rainfall Infiltration in Unsaturated Volcanic Ash

2015

The paper presents a one-dimensional hydro-mechanical analysis of rainfall infiltration in a loose volcanic ash and the utilisation of a factor of safety for the implementation of an early-warning system. Three different rainy seasons with different rainfall patterns were analysed . The analysis aims to understand the influence of the antecedent rainfall on the wetting front, the pore-water pressures and the factor of safety. The analysis was carried out in the context of a Master project of the first author at the Laboratory for Soil Mechanics of EPFL.

HydrologyUnsaturatedContext (language use)Wetting frontTransient analysisRainfall infiltrationrainfall-induced landslideunsaturated volcanic ashFactor of safetyground water seepageVolcanic AshGeologySoil mechanicsinfinity slope analysisVolcanic ashGroundwater seepage
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Reply to the “Comment by Delmelle et al. (2013) on ‘Scavenging of sulfur, halogens and trace metals by volcanic ash: The 2010 Eyjafjallajökull erupti…

2014

Abstract With this short communication we address the principal issues raised by Delmelle et al. (2014) in relation to the work of Bagnato et al. (2013) concerning the 2010 eruption of Eyjafjallajokull, Iceland. The principal conclusions of the work of Bagnato et al. (2013) include the observation that protracted gas-aerosol interaction in the plume promotes selective leaching of cation species from ash, with alkalis and Ca (and, among trace elements, Zn and Cu) being more rapidly re-mobilized (and transferred to soluble surface salts) relative to more inert elements (Mg, Ti). They also observed that adsorption onto ash surfaces is a major atmospheric sink of volcanic acidic gases, with 282…

LEACHING OF ASHgeographygeography.geographical_feature_categoryChemistryMineralogychemistry.chemical_elementexplosive volcanismSulfurSettore GEO/08 - Geochimica E VulcanologiaPlumeexplosive volcanism; VOLCANIC ASH; EyjafjallajökullAdsorptionEyjafjallajökullVolcanoVOLCANIC ACID GASGeochemistry and PetrologyINTERACTION ASH-PLUMEHalogenddc:5502010 EYJAFJALLAJOKULL ERUPTIONSelective leachingVOLCANIC ASHScavengingVolcanic ashGeochimica et Cosmochimica Acta
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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
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Tephra-stack of combined sediment record ELSA

2016

Tephra layers of individual volcanic eruptions are traced in several cores from Eifel maar lakes, drilled between 1998 and 2014 by the Eifel Laminated Sediment Archive (ELSA). All sediment cores are dated by 14C and tuned to the Greenland interstadial succession. Tephra layers were characterized by the petrographic composition of basement rock fragments, glass shards and characteristic volcanic minerals. 10 marker tephra, including the well-established Laacher See Tephra and Dümpelmaar Tephra can be identified in the cores spanning the last glacial cycle. Older cores down to the beginning of the Elsterian, show numerous tephra sourced from Strombolian and phreatomagmatic eruptions, includin…

Tephra or volcanic ashAgeEarth System ResearchTephra marker
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The geochemical cycle of Tellurium in volcanic environments

This research is focused on the geochemistry of Tellurium (Te) in active volcanic environments. To this end concentrations of Te have been measured on different matrices (plume, ashes, soils, atmospheric depositions and plants). Samples were collected from different volcanoes around the world: volcanic aerosols from Etna and Vulcano (Italy), Turrialba (Costa Rica), Myakejima, Asama and Aso (Japan), Mutnovsky and Gorely (Kamchatka, Russia), Copahue (Argentina), Nyamuragira and Nyiragongo (D.R. Congo); atmospheric depositions from Etna and Vulcano (Italy), Nyiragongo (D.R. Congo); ash from Etna (Italy), Copahue (Argentina), San Miguel (El Salvador). Among with plume and rain samples, several …

Volcanic AerosolSoils.Tellurium; Volcanic environments; Volcanic Aerosol; Atmospheric deposition; Volcanic ash; Plants; Soils.Atmospheric depositionPlantTelluriumVolcanic ashVolcanic environmentSettore GEO/08 - Geochimica E Vulcanologia
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Astronomical dating of two Pliocene alkaline volcanic ash layers in the Capo Rossello area (southern Sicily, Italy): implications for the beginning o…

2009

Key-words. - Sicily Channel rift, Biostratigraphy, Astronomical calibration, Pliocene, Volcanic ash layers. Abstract. - Two volcaniclastic ash layers (AL1 and AL2) are intercalated throughout the middle Pliocene sedimentary sequences of Punta Piccola and Capo Rossello exposed along the south coast of Sicily (Italy). Astronomical calibration of the Punta Piccola section provided an age of 2.676 Ma for the deposition of the AL1 layer. The high-resolution bio-cyclostratigraphy of the Capo Rossello section, in combination with detailed correlations with previously astrono- mically calibrated coeval sequences, provided an age of 2.225 Ma for the deposition of the AL2 layer. Mineralogical, petrog…

geographygeography.geographical_feature_categoryRiftPlioceneSettore GEO/02 - Geologia Stratigrafica E SedimentologicaPleistoceneGeochemistryBiostratigraphyPyroclastic rockGeologySicily Channel riftSettore GEO/01 - Paleontologia E PaleoecologiaBiostratigraphyAstronomical calibrationSettore GEO/08 - Geochimica E VulcanologiaVolcanoSicily Channel rift Biostratigraphy Astronomical calibration Pliocene Volcanic ash layersMagmatismVolcanic ash layersSedimentary rockSeismologyGeologyVolcanic ashBulletin de la Société Géologique de France
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Aeolian Remobilisation of the 2011-Cordón Caulle Tephra-Fallout Deposit: Example of an Important Process in the Life Cycle of Volcanic Ash

2020

lithometeor classification; tephra fallout; transport and deposition processes; volcanic ash life cycle; wind remobilisation
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