Velocity and anisotropy structure of the Icelandic crust - An ambient seismic noise analysis

Measuring the travel times of seismic waves is one of the most important tools for uncovering Earth’s structure and dynamics. In recent years, the discovery that surface wave dispersion could be estimated from ambient noise has introduced new possibilities into the field of seismic imaging, such as...

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Bibliographic Details
Main Author: Volk, Omry
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: University of Cambridge 2020
Subjects:
Seismology
Ambient Noise
Iceland
Tectonics
Askja
Online Access:https://www.repository.cam.ac.uk/handle/1810/322158
https://doi.org/10.17863/CAM.69617
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spelling ftunivcam:oai:www.repository.cam.ac.uk:1810/322158 2024-01-21T10:07:15+01:00 Velocity and anisotropy structure of the Icelandic crust - An ambient seismic noise analysis Volk, Omry 2020-11-21 application/pdf https://www.repository.cam.ac.uk/handle/1810/322158 https://doi.org/10.17863/CAM.69617 eng eng University of Cambridge Fitzwilliam https://www.repository.cam.ac.uk/handle/1810/322158 doi:10.17863/CAM.69617 All Rights Reserved https://www.rioxx.net/licenses/all-rights-reserved/ Seismology Ambient Noise Iceland Tectonics Thesis Doctoral Doctor of Philosophy (PhD) PhD 2020 ftunivcam https://doi.org/10.17863/CAM.69617 2023-12-28T23:20:49Z Measuring the travel times of seismic waves is one of the most important tools for uncovering Earth’s structure and dynamics. In recent years, the discovery that surface wave dispersion could be estimated from ambient noise has introduced new possibilities into the field of seismic imaging, such as performing passive source tomography in regions where it was not previously possible with a dense azimuthal ray path coverage. In this work, I leverage the new possibilities introduced by this method to investigate the crust in Iceland in a number of ways, including tomographic imaging as well as azimuthal and radial anisotropy analyses in both the lower and upper crust. Understanding accretion and deformation processes at mid-ocean ridges is crucial because they control the resulting oceanic crustal structure, which covers two-thirds of the Earth’s surface. Iceland, which is uplifted by a convective mantle plume and has an active spreading ridge system exposed above sea level, offers a unique opportunity for studying this phenomenon. I first use a dataset of Love and Rayleigh wave dispersion measurements with dense azimuthal coverage to constrain seismic anisotropy in the Icelandic crust. I show that seismic anisotropy in the lower crust is controlled by crystal preferred orientation, providing a direct observation of lower crustal flow. Furthermore, since shear is needed to align the crystals, our result reveals that crustal flow cannot be a simple translation of mass and requires internal deformation. This finding has important implications for how thick, hot oceanic crust, as found in volcanic rifted margins and near plume-ridge interactions, can accrete and deform. Despite the growing use of ambient noise in measuring crustal properties, extensive comparisons between ambient noise results and those obtained from local earthquakes remain elusive. To address this, I measure Love and Rayleigh group velocity using ambient noise recorded around Askja, a large active volcano in central Iceland, explore its velocity ... Doctoral or Postdoctoral Thesis Iceland Apollo - University of Cambridge Repository Askja ENVELOPE(-16.802,-16.802,65.042,65.042)
institution Open Polar
collection Apollo - University of Cambridge Repository
op_collection_id ftunivcam
language English
topic Seismology
Ambient Noise
Iceland
Tectonics
spellingShingle Seismology
Ambient Noise
Iceland
Tectonics
Volk, Omry
Velocity and anisotropy structure of the Icelandic crust - An ambient seismic noise analysis
topic_facet Seismology
Ambient Noise
Iceland
Tectonics
description Measuring the travel times of seismic waves is one of the most important tools for uncovering Earth’s structure and dynamics. In recent years, the discovery that surface wave dispersion could be estimated from ambient noise has introduced new possibilities into the field of seismic imaging, such as performing passive source tomography in regions where it was not previously possible with a dense azimuthal ray path coverage. In this work, I leverage the new possibilities introduced by this method to investigate the crust in Iceland in a number of ways, including tomographic imaging as well as azimuthal and radial anisotropy analyses in both the lower and upper crust. Understanding accretion and deformation processes at mid-ocean ridges is crucial because they control the resulting oceanic crustal structure, which covers two-thirds of the Earth’s surface. Iceland, which is uplifted by a convective mantle plume and has an active spreading ridge system exposed above sea level, offers a unique opportunity for studying this phenomenon. I first use a dataset of Love and Rayleigh wave dispersion measurements with dense azimuthal coverage to constrain seismic anisotropy in the Icelandic crust. I show that seismic anisotropy in the lower crust is controlled by crystal preferred orientation, providing a direct observation of lower crustal flow. Furthermore, since shear is needed to align the crystals, our result reveals that crustal flow cannot be a simple translation of mass and requires internal deformation. This finding has important implications for how thick, hot oceanic crust, as found in volcanic rifted margins and near plume-ridge interactions, can accrete and deform. Despite the growing use of ambient noise in measuring crustal properties, extensive comparisons between ambient noise results and those obtained from local earthquakes remain elusive. To address this, I measure Love and Rayleigh group velocity using ambient noise recorded around Askja, a large active volcano in central Iceland, explore its velocity ...
format Doctoral or Postdoctoral Thesis
author Volk, Omry
author_facet Volk, Omry
author_sort Volk, Omry
title Velocity and anisotropy structure of the Icelandic crust - An ambient seismic noise analysis
title_short Velocity and anisotropy structure of the Icelandic crust - An ambient seismic noise analysis
title_full Velocity and anisotropy structure of the Icelandic crust - An ambient seismic noise analysis
title_fullStr Velocity and anisotropy structure of the Icelandic crust - An ambient seismic noise analysis
title_full_unstemmed Velocity and anisotropy structure of the Icelandic crust - An ambient seismic noise analysis
title_sort velocity and anisotropy structure of the icelandic crust - an ambient seismic noise analysis
publisher University of Cambridge
publishDate 2020
url https://www.repository.cam.ac.uk/handle/1810/322158
https://doi.org/10.17863/CAM.69617
long_lat ENVELOPE(-16.802,-16.802,65.042,65.042)
geographic Askja
geographic_facet Askja
genre Iceland
genre_facet Iceland
op_relation https://www.repository.cam.ac.uk/handle/1810/322158
doi:10.17863/CAM.69617
op_rights All Rights Reserved
https://www.rioxx.net/licenses/all-rights-reserved/
op_doi https://doi.org/10.17863/CAM.69617
_version_ 1788697785072091136

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