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  • 04.03. Geodesy  (1)
  • 2014 Iquique earthquake; Binary Object; Binary Object (File Size); File content; Geodetic Earthquake Observatory on the SEAfloor; GeoSEA; GEOSEA; JPIO; local earthquakes; Marcus G. Langseth; MGL1610; MGL1610_OBA3; MGL1610_OBC6; MGL1610_OBC7; MGL1610_OBC8; MGL1610_OBN1; MGL1610_OBN2; MGL1610_OBN3; MGL1610_OBN6; MGL1610_OBN7; MGL1610_OBS1; North Chile; OB01; OB010; OB012; OB013; OB014; OB015; OB02; OB03; OB05; OB06; OB07; OB09; OB10; OB12; OB13; OB14; OB15; OBA3; OBC6; OBC7; OBC8; OBN1; OBN2; OBN3; OBN6; OBN7; OBS; OBS1; Ocean bottom seismometer; OVP TORO; OVP-TORO; OVP-TORO_01; OVP-TORO_02; OVP-TORO_03; OVP-TORO_05; OVP-TORO_06; OVP-TORO_07; OVP-TORO_09; OVP-TORO_10; OVP-TORO_12; OVP-TORO_13; OVP-TORO_14; OVP-TORO_15; Pacific; SECO; SEISAN seismology software; seismicity; SO244/1; SO244/1_10-1; SO244/1_1-1; SO244/1_14-1; SO244/1_23-1; SO244/1_28-1; SO244/1_4-1; SO244/1_43-1; SO244/1_45-1; SO244/1_47-1; SO244/1_49-1; SO244/1_6-1; SO244/1_8-1; SO244/2; SO244/2_9-1_OBA3; SO244/2_9-1_OBC6; SO244/2_9-1_OBC7; SO244/2_9-1_OBC8; SO244/2_9-1_OBN1; SO244/2_9-1_OBN2; SO244/2_9-1_OBN3; SO244/2_9-1_OBN6; SO244/2_9-1_OBN7; SO244/2_9-1_OBS1; Sonne_2; South Pacific Ocean; subduction zone; The Fine Structure of a Seismogenic Zone Revealed by Aftershocks of the 2014 Iquique Mw 8.1 Earthquake  (1)
Collection
Keywords
Publisher
Years
  • 1
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    Unknown
    Long-term OBS deployment in the period 12/2014 - 10/2016 offshore northern Chile with SEISAN waveform files and traveltime picks (2021)
    PANGAEA
    Details
    Publication Date: 2024-04-20
    Description: This dataset includes earthquake locations from a 23 months long Ocean Bottom Seismometer (OBS) experiment conducted in response to the 2014 Mw 8.1 Iquique earthquake at the northern Chilean subduction zone. The experiment is separated into two subsequent OBS networks from December 2014 until October 2016. The accompanying zip-file SEISAN_WAV.zip includes raw waveform data for all earthquakes, the file Nordic.nor (ASCII Table) that includes all phase onset picks of all earthquakes. All data in the zipped archives can be used with the SEISAN seismology software.
    Keywords: 2014 Iquique earthquake; Binary Object; Binary Object (File Size); File content; Geodetic Earthquake Observatory on the SEAfloor; GeoSEA; GEOSEA; JPIO; local earthquakes; Marcus G. Langseth; MGL1610; MGL1610_OBA3; MGL1610_OBC6; MGL1610_OBC7; MGL1610_OBC8; MGL1610_OBN1; MGL1610_OBN2; MGL1610_OBN3; MGL1610_OBN6; MGL1610_OBN7; MGL1610_OBS1; North Chile; OB01; OB010; OB012; OB013; OB014; OB015; OB02; OB03; OB05; OB06; OB07; OB09; OB10; OB12; OB13; OB14; OB15; OBA3; OBC6; OBC7; OBC8; OBN1; OBN2; OBN3; OBN6; OBN7; OBS; OBS1; Ocean bottom seismometer; OVP TORO; OVP-TORO; OVP-TORO_01; OVP-TORO_02; OVP-TORO_03; OVP-TORO_05; OVP-TORO_06; OVP-TORO_07; OVP-TORO_09; OVP-TORO_10; OVP-TORO_12; OVP-TORO_13; OVP-TORO_14; OVP-TORO_15; Pacific; SECO; SEISAN seismology software; seismicity; SO244/1; SO244/1_10-1; SO244/1_1-1; SO244/1_14-1; SO244/1_23-1; SO244/1_28-1; SO244/1_4-1; SO244/1_43-1; SO244/1_45-1; SO244/1_47-1; SO244/1_49-1; SO244/1_6-1; SO244/1_8-1; SO244/2; SO244/2_9-1_OBA3; SO244/2_9-1_OBC6; SO244/2_9-1_OBC7; SO244/2_9-1_OBC8; SO244/2_9-1_OBN1; SO244/2_9-1_OBN2; SO244/2_9-1_OBN3; SO244/2_9-1_OBN6; SO244/2_9-1_OBN7; SO244/2_9-1_OBS1; Sonne_2; South Pacific Ocean; subduction zone; The Fine Structure of a Seismogenic Zone Revealed by Aftershocks of the 2014 Iquique Mw 8.1 Earthquake
    Type: Dataset
    Format: text/tab-separated-values, 4 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 2
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    Gravitational collapse of Mount Etna's southeastern flank (2019)
    Details
    Publication Date: 2019-02-25
    Description: The southeastern flank of Etna volcano slides into the Ionian Sea at rates of centimeters per year. The prevailing understanding is that pressurization of the magmatic system, and not gravitational forces, controls flank movement, although this has also been proposed. So far, it has not been possible to separate between these processes, because no data on offshore deformation were available until we conducted the first long-term seafloor displacement monitoring campaign from April 2016 until July 2017. Unprecedented seafloor geodetic data reveal a 〉4-cm slip along the offshore extension of a fault related to flank kinematics during one 8-day-long event in May 2017, while displacement on land peaked at ~4 cm at the coast. As deformation increases away from the magmatic system, the bulk of Mount Etna's present continuous deformation must be driven by gravity while being further destabilized by magma dynamics. We cannot exclude flank movement to evolve into catastrophic collapse, implying that Etna's flank movement poses a much greater hazard than previously thought. The hazard of flank collapse might be underestimated at other coastal and ocean island volcanoes, where the dynamics of submerged flanks are unknown.
    Description: Published
    Description: eaat9700
    Description: 2V. Struttura e sistema di alimentazione dei vulcani
    Description: JCR Journal
    Keywords: seafloor geodesy ; ground deformation ; volcano-tectonics ; fault ; 04.03. Geodesy ; 04.07. Tectonophysics ; 04.08. Volcanology
    Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Type: article
    Location Call Number Expected Availability
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    PAPER (OA)
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