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Geología, hidrología, meteorología(9)
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Characteristics of thunder and electromagnetic pulses from volcanic lightning at Bogoslof volcano, Alaska
ArticleAbstract: We combine global detections of volcanic lightning with acoustic and hydroacoustic data to investigaPalabras claves:explosive volcanism, infrasound, volcanic lightning, Volcano MonitoringAutores:Anderson J.F., Dziak R.P., Fee D., Haney M.M., Iezzi A.M., John J. Lyons, Johnson J.B., Kramer R.L., Lapierre J.L., Stock M., Van Eaton A.Fuentes:scopusCo-eruptive tremor from Bogoslof volcano: seismic wavefield composition at regional distances
ArticleAbstract: We analyze seismic tremor recorded during eruptive activity over the course of the 2016–2017 eruptioPalabras claves:explosive volcanism, Volcanic tremor, Volcano MonitoringAutores:Fee D., Haney M.M., John J. Lyons, Matoza R.S., McKee K.F., Mikesell T.D., Searcy C., Tepp G., Wech A.G.Fuentes:scopusDid ice-charging generate volcanic lightning during the 2016–2017 eruption of Bogoslof volcano, Alaska?
ArticleAbstract: The 2016–2017 shallow submarine eruption of Bogoslof volcano in Alaska injected plumes of ash and sePalabras claves:Magma-water interaction, Phreatomagmatic, Surtseyan, Volcanic ash, volcanic lightningAutores:Fee D., Haney M.M., Holzworth R.H., John J. Lyons, Mastin L.G., Said R., Schneider D.J., Smith C.M., Van Eaton A.Fuentes:scopusConstraints on eruption processes and event masses for the 2016–2017 eruption of Bogoslof volcano, Alaska, through evaluation of IASI satellite SO<inf>2</inf> masses and complementary datasets
ArticleAbstract: Bogoslof volcano, Alaska, experienced at least 70 explosive eruptions between 12 December 2016 and 3Palabras claves:Bogoslof volcano, Explosive eruptions, IASI satellite, sulfur dioxide, Volcanic emissionsAutores:Clarisse L., Fee D., Graham N., Haney M.M., John J. Lyons, Loewen M., Lopez T., Schneider D.J., Schwaiger H.F., Searcy C., Van Eaton A., Wallace K.L., Wech A.G.Fuentes:scopusEvolving infrasound detections from Bogoslof volcano, Alaska: insights from atmospheric propagation modeling
ArticleAbstract: Bogoslof volcano, a back-arc volcano in Alaska’s Aleutian arc, began an eruptive sequence in mid-DecPalabras claves:AVO-G2S, Bogoslof volcano, Hydrovolcanism, Infrasound propagation modelingAutores:Fee D., Haney M.M., Iezzi A.M., John J. Lyons, Schwaiger H.F.Fuentes:scopusHigh-speed lava flow infrasound from Kīlauea’s fissure 8 and its utility in monitoring effusion rate
ArticleAbstract: The 2018 eruption of Kīlauea Volcano produced large and destructive lava flows from the fissure 8 (APalabras claves:Eruption monitoring, infrasound, Kīlauea volcano, Lava effusion rate, Supercritical flowAutores:Dietterich H.R., Fee D., John J. Lyons, Patrick M.R.Fuentes:scopusInfrasound generated by the 2016–2017 shallow submarine eruption of Bogoslof volcano, Alaska
ArticleAbstract: The 2016–2017 shallow submarine eruption of Bogoslof volcano produced numerous infrasound signals ovPalabras claves:Bogoslof volcano, Explosive eruption, Hydrovolcanism, Regional infrasound, Submarine eruptionAutores:Fee D., Haney M.M., Iezzi A.M., John J. Lyons, Schwaiger H.F., Wech A.G.Fuentes:scopusInfrasound observations and constraints on the 2018 eruption of Kīlauea Volcano, Hawaii
ArticleAbstract: The 2018 eruption of Kīlauea Volcano was a dynamic event involving explosions, collapses, and fountaPalabras claves:Caldera collapse, explosion, Fountaining, infrasound, Kīlauea volcano, Littoral explosionsAutores:Fee D., John J. Lyons, Thelen W., Waite G.P.Fuentes:scopusSeismo-acoustic evidence for vent drying during shallow submarine eruptions at Bogoslof volcano, Alaska
ArticleAbstract: Characterizing the state of the volcanic vent is key for interpreting observational datasets and accPalabras claves:Bogoslof volcano, infrasound, seismo-acoustic, SubmarineAutores:Diefenbach A.K., Fee D., Haney M.M., John J. Lyons, Lopez T., Schneider D.J., Van Eaton A., Waythomas C.F., Wech A.G.Fuentes:scopusVolcano infrasound: progress and future directions
ArticleAbstract: Over the past two decades (2000–2020), volcano infrasound (acoustic waves with frequencies less thanPalabras claves:Acoustics, DIVERSITY, Equity, inclusion, Machine learning, Source and propagation modeling, Volcano infrasound, Volcano MonitoringAutores:Anderson J.F., Bishop J.W., Fee D., Gestrich J.E., Hugo D. Ortiz, Iezzi A.M., Johnson J.B., Maher S.P., Matoza R.S., McKee K.F., Toney L., Watson L.M., Witsil A.J.C.Fuentes:googlescopus