Seismic imaging of the shallow crust beneath the Krafla central volcano, NE Iceland
Seismic imaging of the shallow crust beneath the Krafla central volcano, NE Iceland
We studied the seismic velocity structure beneath the Krafla central volcano, NE Iceland, by performing 3-D tomographic inversions of 1453 earthquakes recorded by a temporary local seismic network between 2009 and 2012. The seismicity is concentrated primarily around the Leirhnjúkur geothermal field near the center of the Krafla caldera. To obtain robust velocity models, we incorporated active seismic data from previous surveys. The Krafla central volcano has a relatively complex velocity structure with higher P wave velocities (Vp) underneath regions of higher topographic relief and two distinct low-Vp anomalies beneath the Leirhnjúkur geothermal field. The latter match well with two attenuating bodies inferred from S wave shadows during the Krafla rifting episode of 1974–1985. Within the Leirhnjúkur geothermalreservoir, we resolved a shallow (?0.5 to 0.5 km below sea level; bsl) region with low-Vp/Vs values and a deeper (0.5–1.5 km bsl) high-Vp/Vs zone. We interpret the difference in the velocity ratios of the two zones to be caused by higher rock porosities and crack densities in the shallow region and lower porosities and crack densities in the deeper region. A strong low-Vp/Vs anomaly underlies these zones, where a superheated steam zone within felsic rock overlies rhyolitic melt.
tomography, volcano, geothermal fields, magma chamber
7156-7173
Schuler, Juerg
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Greenfield, Tim
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White, Robert S.
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Roecker, Steven W.
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Brandsdóttir, Bryndís
930cb505-ab9d-41e7-aaa1-1ebec6172010
Stock, Joann M.
ca15ed4a-7a9c-4f6d-a7a3-e0643487a90a
Tarasewicz, Jon
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Martens, Hilary R.
8f2b466e-20af-4b16-a63a-b86d79cd30ae
Pugh, David
33c2663d-b70d-4366-8f0a-8765713b25ad
30 October 2015
Schuler, Juerg
018ec194-88c9-4b97-af4f-3c4ef78514ac
Greenfield, Tim
08324ab8-4581-4a8c-a133-f12b23b8a79b
White, Robert S.
80949343-6d64-42e3-acb2-812307f1b274
Roecker, Steven W.
f14ad09d-2b39-4e07-9e83-b941fbeeb434
Brandsdóttir, Bryndís
930cb505-ab9d-41e7-aaa1-1ebec6172010
Stock, Joann M.
ca15ed4a-7a9c-4f6d-a7a3-e0643487a90a
Tarasewicz, Jon
3f64314a-72d0-4efc-82be-36f0cd253def
Martens, Hilary R.
8f2b466e-20af-4b16-a63a-b86d79cd30ae
Pugh, David
33c2663d-b70d-4366-8f0a-8765713b25ad
Schuler, Juerg, Greenfield, Tim, White, Robert S., Roecker, Steven W., Brandsdóttir, Bryndís, Stock, Joann M., Tarasewicz, Jon, Martens, Hilary R. and Pugh, David
(2015)
Seismic imaging of the shallow crust beneath the Krafla central volcano, NE Iceland.
Journal of Geophysical Research: Solid Earth, 120 (10), .
(doi:10.1002/2015JB012350).
Abstract
We studied the seismic velocity structure beneath the Krafla central volcano, NE Iceland, by performing 3-D tomographic inversions of 1453 earthquakes recorded by a temporary local seismic network between 2009 and 2012. The seismicity is concentrated primarily around the Leirhnjúkur geothermal field near the center of the Krafla caldera. To obtain robust velocity models, we incorporated active seismic data from previous surveys. The Krafla central volcano has a relatively complex velocity structure with higher P wave velocities (Vp) underneath regions of higher topographic relief and two distinct low-Vp anomalies beneath the Leirhnjúkur geothermal field. The latter match well with two attenuating bodies inferred from S wave shadows during the Krafla rifting episode of 1974–1985. Within the Leirhnjúkur geothermalreservoir, we resolved a shallow (?0.5 to 0.5 km below sea level; bsl) region with low-Vp/Vs values and a deeper (0.5–1.5 km bsl) high-Vp/Vs zone. We interpret the difference in the velocity ratios of the two zones to be caused by higher rock porosities and crack densities in the shallow region and lower porosities and crack densities in the deeper region. A strong low-Vp/Vs anomaly underlies these zones, where a superheated steam zone within felsic rock overlies rhyolitic melt.
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Schuler et al. - 2015 - Seismic imaging of the shallow crust beneath the Krafla central volcano, NE Iceland.pdf
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Accepted/In Press date: 1 October 2015
Published date: 30 October 2015
Keywords:
tomography, volcano, geothermal fields, magma chamber
Organisations:
Geology & Geophysics
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Local EPrints ID: 401276
URI: http://eprints.soton.ac.uk/id/eprint/401276
PURE UUID: d45b94ea-6d71-4da5-9270-01157c88ba73
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Date deposited: 07 Oct 2016 10:58
Last modified: 15 Mar 2024 02:44
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Contributors
Author:
Juerg Schuler
Author:
Tim Greenfield
Author:
Robert S. White
Author:
Steven W. Roecker
Author:
Bryndís Brandsdóttir
Author:
Joann M. Stock
Author:
Jon Tarasewicz
Author:
Hilary R. Martens
Author:
David Pugh
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