Imaging the magmatic system beneath the Krafla geothermal field, Iceland: A new 3-D electrical resistivity model from inversion of magnetotelluric data
SUMMARY Krafla is an active volcanic field and a high-temperature geothermal system in northeast Iceland. As part of a program to produce more energy from higher temperature wells, the IDDP-1 well was drilled in 2009 to reach supercritical fluid conditions below the Krafla geothermal field. However,...
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Oxford University Press (OUP)
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Online Access: | http://dx.doi.org/10.1093/gji/ggz427 http://academic.oup.com/gji/advance-article-pdf/doi/10.1093/gji/ggz427/30150969/ggz427.pdf http://academic.oup.com/gji/article-pdf/220/1/541/30748613/ggz427.pdf |
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croxfordunivpr:10.1093/gji/ggz427 2024-09-30T14:37:21+00:00 Imaging the magmatic system beneath the Krafla geothermal field, Iceland: A new 3-D electrical resistivity model from inversion of magnetotelluric data Lee, Benjamin Unsworth, Martyn Árnason, Knútur Cordell, Darcy Natural Sciences and Engineering Research Council of Canada 2019 http://dx.doi.org/10.1093/gji/ggz427 http://academic.oup.com/gji/advance-article-pdf/doi/10.1093/gji/ggz427/30150969/ggz427.pdf http://academic.oup.com/gji/article-pdf/220/1/541/30748613/ggz427.pdf en eng Oxford University Press (OUP) https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_model Geophysical Journal International volume 220, issue 1, page 541-567 ISSN 0956-540X 1365-246X journal-article 2019 croxfordunivpr https://doi.org/10.1093/gji/ggz427 2024-09-03T04:13:09Z SUMMARY Krafla is an active volcanic field and a high-temperature geothermal system in northeast Iceland. As part of a program to produce more energy from higher temperature wells, the IDDP-1 well was drilled in 2009 to reach supercritical fluid conditions below the Krafla geothermal field. However, drilling ended prematurely when the well unexpectedly encountered rhyolite magma at a depth of 2.1 km. In this paper we re-examine the magnetotelluric (MT) data that were used to model the electrical resistivity structure at Krafla. We present a new 3-D resistivity model that differs from previous inversions due to (1) using the full impedance tensor data and (2) a finely discretized mesh with horizontal cell dimensions of 100 m by 100 m. We obtained similar resistivity models from using two different prior models: a uniform half-space, and a previously published 1-D resistivity model. Our model contains a near-surface resistive layer of unaltered basalt and a low resistivity layer of hydrothermal alteration (C1). A resistive region (R1) at 1 to 2 km depth corresponds to chlorite-epidote alteration minerals that are stable at temperatures of about 220 to 500 °C. A low resistivity feature (C2) coincides with the Hveragil fault system, a zone of increased permeability allowing interaction of aquifer fluids with magmatic fluids and gases. Our model contains a large, low resistivity zone (C3) below the northern half of the Krafla volcanic field that domes upward to a depth of about 1.6 km b.s.l. C3 is partially coincident with reported low S-wave velocity zones which could be due to partial melt or aqueous fluids. The low resistivity could also be attributed to dehydration and decomposition of chlorite and epidote that occurs above 500 °C. As opposed to previously published resistivity models, our resistivity model shows that IDDP-1 encountered rhyolite magma near the upper edge of C3, where it intersects C2. In order to assess the sensitivity of the MT data to melt at the bottom of IDDP-1, we added hypothetical magma ... Article in Journal/Newspaper Iceland Oxford University Press Hveragil ENVELOPE(-16.558,-16.558,64.672,64.672) Krafla ENVELOPE(-16.747,-16.747,65.713,65.713) Geophysical Journal International 220 1 541 567 |
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Open Polar |
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Oxford University Press |
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croxfordunivpr |
language |
English |
description |
SUMMARY Krafla is an active volcanic field and a high-temperature geothermal system in northeast Iceland. As part of a program to produce more energy from higher temperature wells, the IDDP-1 well was drilled in 2009 to reach supercritical fluid conditions below the Krafla geothermal field. However, drilling ended prematurely when the well unexpectedly encountered rhyolite magma at a depth of 2.1 km. In this paper we re-examine the magnetotelluric (MT) data that were used to model the electrical resistivity structure at Krafla. We present a new 3-D resistivity model that differs from previous inversions due to (1) using the full impedance tensor data and (2) a finely discretized mesh with horizontal cell dimensions of 100 m by 100 m. We obtained similar resistivity models from using two different prior models: a uniform half-space, and a previously published 1-D resistivity model. Our model contains a near-surface resistive layer of unaltered basalt and a low resistivity layer of hydrothermal alteration (C1). A resistive region (R1) at 1 to 2 km depth corresponds to chlorite-epidote alteration minerals that are stable at temperatures of about 220 to 500 °C. A low resistivity feature (C2) coincides with the Hveragil fault system, a zone of increased permeability allowing interaction of aquifer fluids with magmatic fluids and gases. Our model contains a large, low resistivity zone (C3) below the northern half of the Krafla volcanic field that domes upward to a depth of about 1.6 km b.s.l. C3 is partially coincident with reported low S-wave velocity zones which could be due to partial melt or aqueous fluids. The low resistivity could also be attributed to dehydration and decomposition of chlorite and epidote that occurs above 500 °C. As opposed to previously published resistivity models, our resistivity model shows that IDDP-1 encountered rhyolite magma near the upper edge of C3, where it intersects C2. In order to assess the sensitivity of the MT data to melt at the bottom of IDDP-1, we added hypothetical magma ... |
author2 |
Natural Sciences and Engineering Research Council of Canada |
format |
Article in Journal/Newspaper |
author |
Lee, Benjamin Unsworth, Martyn Árnason, Knútur Cordell, Darcy |
spellingShingle |
Lee, Benjamin Unsworth, Martyn Árnason, Knútur Cordell, Darcy Imaging the magmatic system beneath the Krafla geothermal field, Iceland: A new 3-D electrical resistivity model from inversion of magnetotelluric data |
author_facet |
Lee, Benjamin Unsworth, Martyn Árnason, Knútur Cordell, Darcy |
author_sort |
Lee, Benjamin |
title |
Imaging the magmatic system beneath the Krafla geothermal field, Iceland: A new 3-D electrical resistivity model from inversion of magnetotelluric data |
title_short |
Imaging the magmatic system beneath the Krafla geothermal field, Iceland: A new 3-D electrical resistivity model from inversion of magnetotelluric data |
title_full |
Imaging the magmatic system beneath the Krafla geothermal field, Iceland: A new 3-D electrical resistivity model from inversion of magnetotelluric data |
title_fullStr |
Imaging the magmatic system beneath the Krafla geothermal field, Iceland: A new 3-D electrical resistivity model from inversion of magnetotelluric data |
title_full_unstemmed |
Imaging the magmatic system beneath the Krafla geothermal field, Iceland: A new 3-D electrical resistivity model from inversion of magnetotelluric data |
title_sort |
imaging the magmatic system beneath the krafla geothermal field, iceland: a new 3-d electrical resistivity model from inversion of magnetotelluric data |
publisher |
Oxford University Press (OUP) |
publishDate |
2019 |
url |
http://dx.doi.org/10.1093/gji/ggz427 http://academic.oup.com/gji/advance-article-pdf/doi/10.1093/gji/ggz427/30150969/ggz427.pdf http://academic.oup.com/gji/article-pdf/220/1/541/30748613/ggz427.pdf |
long_lat |
ENVELOPE(-16.558,-16.558,64.672,64.672) ENVELOPE(-16.747,-16.747,65.713,65.713) |
geographic |
Hveragil Krafla |
geographic_facet |
Hveragil Krafla |
genre |
Iceland |
genre_facet |
Iceland |
op_source |
Geophysical Journal International volume 220, issue 1, page 541-567 ISSN 0956-540X 1365-246X |
op_rights |
https://academic.oup.com/journals/pages/open_access/funder_policies/chorus/standard_publication_model |
op_doi |
https://doi.org/10.1093/gji/ggz427 |
container_title |
Geophysical Journal International |
container_volume |
220 |
container_issue |
1 |
container_start_page |
541 |
op_container_end_page |
567 |
_version_ |
1811640219220312064 |