Michelle Parks, Freysteinn Sigmundsson, Vincent Drouin, Ásta R. Hjartardóttir, Halldór Geirsson, Andrew Hooper, Kristín S. Vogfjörd, Benedikt G. Ófeigsson, Sigrún Hreinsdóttir, Esther H. Jensen, Páll Einarsson, Sara Barsotti, Hildur M. Fridriksdóttir
{"title":"2022年冰岛Fagradalsfjall火山喷发前和期间的形变、地震活动和监测反应","authors":"Michelle Parks, Freysteinn Sigmundsson, Vincent Drouin, Ásta R. Hjartardóttir, Halldór Geirsson, Andrew Hooper, Kristín S. Vogfjörd, Benedikt G. Ófeigsson, Sigrún Hreinsdóttir, Esther H. Jensen, Páll Einarsson, Sara Barsotti, Hildur M. Fridriksdóttir","doi":"10.1007/s00445-023-01671-y","DOIUrl":null,"url":null,"abstract":"Abstract Following two periods of dike intrusion in 2021 at Fagradalsfjall, Iceland, one of which led to an eruption, a third dike intrusion commenced on 30 July 2022. A sudden increase in seismicity occurred within the diking area, with approximately 1700 automatically detected earthquakes > M1 within 24 h. Strong earthquakes were felt over several days within a wider area (largest M W 5.3). The timeline and spatial distribution of seismicity suggested it resulted from diking, together with triggered seismicity in nearby areas releasing stored tectonic stress. Geodetic observations revealed displacements consistent with a dike intrusion, and geodetic modeling on 2 August revealed a best-fit model with a shallow top depth of the dike (~1 km), and high magma inflow rate (~49 m 3 /s). Also considering a decline in seismicity, a warning was issued that the likelihood of a new eruption in the coming days was high. An effusive eruption started the next day (3 August) on a ~375-m-long fissure, with an initial extrusion rate of 32 m 3 /s. The projected surface location of the dike (from the optimal model) was within 49–110 m of the eruptive fissure. We present a timeline of the activity and monitoring response in the days both preceding and following the eruption onset. We compare the details of the activity that occurred prior to this diking and eruption to the previous events at Fagradalsfjall to improve understanding of unrest preceding eruptions.","PeriodicalId":55297,"journal":{"name":"Bulletin of Volcanology","volume":"71 1","pages":"0"},"PeriodicalIF":3.6000,"publicationDate":"2023-09-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Deformation, seismicity, and monitoring response preceding and during the 2022 Fagradalsfjall eruption, Iceland\",\"authors\":\"Michelle Parks, Freysteinn Sigmundsson, Vincent Drouin, Ásta R. Hjartardóttir, Halldór Geirsson, Andrew Hooper, Kristín S. Vogfjörd, Benedikt G. Ófeigsson, Sigrún Hreinsdóttir, Esther H. Jensen, Páll Einarsson, Sara Barsotti, Hildur M. Fridriksdóttir\",\"doi\":\"10.1007/s00445-023-01671-y\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Abstract Following two periods of dike intrusion in 2021 at Fagradalsfjall, Iceland, one of which led to an eruption, a third dike intrusion commenced on 30 July 2022. A sudden increase in seismicity occurred within the diking area, with approximately 1700 automatically detected earthquakes > M1 within 24 h. Strong earthquakes were felt over several days within a wider area (largest M W 5.3). The timeline and spatial distribution of seismicity suggested it resulted from diking, together with triggered seismicity in nearby areas releasing stored tectonic stress. Geodetic observations revealed displacements consistent with a dike intrusion, and geodetic modeling on 2 August revealed a best-fit model with a shallow top depth of the dike (~1 km), and high magma inflow rate (~49 m 3 /s). Also considering a decline in seismicity, a warning was issued that the likelihood of a new eruption in the coming days was high. An effusive eruption started the next day (3 August) on a ~375-m-long fissure, with an initial extrusion rate of 32 m 3 /s. The projected surface location of the dike (from the optimal model) was within 49–110 m of the eruptive fissure. We present a timeline of the activity and monitoring response in the days both preceding and following the eruption onset. 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Deformation, seismicity, and monitoring response preceding and during the 2022 Fagradalsfjall eruption, Iceland
Abstract Following two periods of dike intrusion in 2021 at Fagradalsfjall, Iceland, one of which led to an eruption, a third dike intrusion commenced on 30 July 2022. A sudden increase in seismicity occurred within the diking area, with approximately 1700 automatically detected earthquakes > M1 within 24 h. Strong earthquakes were felt over several days within a wider area (largest M W 5.3). The timeline and spatial distribution of seismicity suggested it resulted from diking, together with triggered seismicity in nearby areas releasing stored tectonic stress. Geodetic observations revealed displacements consistent with a dike intrusion, and geodetic modeling on 2 August revealed a best-fit model with a shallow top depth of the dike (~1 km), and high magma inflow rate (~49 m 3 /s). Also considering a decline in seismicity, a warning was issued that the likelihood of a new eruption in the coming days was high. An effusive eruption started the next day (3 August) on a ~375-m-long fissure, with an initial extrusion rate of 32 m 3 /s. The projected surface location of the dike (from the optimal model) was within 49–110 m of the eruptive fissure. We present a timeline of the activity and monitoring response in the days both preceding and following the eruption onset. We compare the details of the activity that occurred prior to this diking and eruption to the previous events at Fagradalsfjall to improve understanding of unrest preceding eruptions.
期刊介绍:
Bulletin of Volcanology was founded in 1922, as Bulletin Volcanologique, and is the official journal of the International Association of Volcanology and Chemistry of the Earth’s Interior (IAVCEI). The Bulletin of Volcanology publishes papers on volcanoes, their products, their eruptive behavior, and their hazards. Papers aimed at understanding the deeper structure of volcanoes, and the evolution of magmatic systems using geochemical, petrological, and geophysical techniques are also published. Material is published in four sections: Review Articles; Research Articles; Short Scientific Communications; and a Forum that provides for discussion of controversial issues and for comment and reply on previously published Articles and Communications.
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