Replication Data for: 3-D Seismic Investigation of a Gas Hydrate and Fluid Flow System on an Active Mid-Ocean Ridge; Svyatogor Ridge, Fram Strait
3D seismic P-Cable Data set processed 2014 from Svyatogor Ridge, Fram Strait. Abstract: Tectonic settings play a large role in the development of fluid flow pathways for gas migrating through sedimentary strata. Gas hydrate systems worldwide are located on either the slopes of passive continental ma...
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ftdataverseno:doi:10.18710/LOWPDQ 2023-10-29T02:36:23+01:00 Replication Data for: 3-D Seismic Investigation of a Gas Hydrate and Fluid Flow System on an Active Mid-Ocean Ridge; Svyatogor Ridge, Fram Strait Waghorn, Kate Alyse Waghorn, Kate Alyse 2018-05-23 https://doi.org/10.18710/LOWPDQ English eng DataverseNO https://doi.org/10.18710/LOWPDQ Earth and Environmental Sciences Seismic Gas Hydrate Fram Strait Knipovich Ridge 2018 ftdataverseno https://doi.org/10.18710/LOWPDQ 2023-10-04T22:54:56Z 3D seismic P-Cable Data set processed 2014 from Svyatogor Ridge, Fram Strait. Abstract: Tectonic settings play a large role in the development of fluid flow pathways for gas migrating through sedimentary strata. Gas hydrate systems worldwide are located on either the slopes of passive continental margins, often in large contourite deposits, or in accretionary wedges on subduction margins. The Svyatogor Ridge, however, located at the northwestern flank of the Knipovich Ridge and south of the Molloy Transform Fault (Fram Strait), is a gas hydrate system which is located on an actively spreading margin. Svyatogor Ridge has evidence of shallow gas accumulations; a strong BSR indicating a gas hydrate and underlying free gas system, and fluid flow pathways to the seafloor culminating in pockmarks. Using a high‐resolution P‐Cable 3‐D seismic survey, we investigate how tectonic and sedimentary regimes have influenced the formation of this well‐developed gas hydrate system. Large‐scale basement faults identified in the seismic data are interpreted as detachment faults, which have exhumed relatively young ultramafic rocks. These detachment faults act as conduits for fluid flow, and are responsible for the formation of folds in the overlying sediments that are breached by faults. We propose a model for fluid flow within this system whereby as sedimentary faults breach upward through the sedimentary strata, fluid is able to migrate further upward. We find that the tectonic regime on Svyatogor Ridge is the dominant driver of fluid migration and episodic release at the seafloor. Other/Unknown Material Fram Strait DataverseNO |
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language |
English |
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Earth and Environmental Sciences Seismic Gas Hydrate Fram Strait Knipovich Ridge |
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Earth and Environmental Sciences Seismic Gas Hydrate Fram Strait Knipovich Ridge Waghorn, Kate Alyse Replication Data for: 3-D Seismic Investigation of a Gas Hydrate and Fluid Flow System on an Active Mid-Ocean Ridge; Svyatogor Ridge, Fram Strait |
topic_facet |
Earth and Environmental Sciences Seismic Gas Hydrate Fram Strait Knipovich Ridge |
description |
3D seismic P-Cable Data set processed 2014 from Svyatogor Ridge, Fram Strait. Abstract: Tectonic settings play a large role in the development of fluid flow pathways for gas migrating through sedimentary strata. Gas hydrate systems worldwide are located on either the slopes of passive continental margins, often in large contourite deposits, or in accretionary wedges on subduction margins. The Svyatogor Ridge, however, located at the northwestern flank of the Knipovich Ridge and south of the Molloy Transform Fault (Fram Strait), is a gas hydrate system which is located on an actively spreading margin. Svyatogor Ridge has evidence of shallow gas accumulations; a strong BSR indicating a gas hydrate and underlying free gas system, and fluid flow pathways to the seafloor culminating in pockmarks. Using a high‐resolution P‐Cable 3‐D seismic survey, we investigate how tectonic and sedimentary regimes have influenced the formation of this well‐developed gas hydrate system. Large‐scale basement faults identified in the seismic data are interpreted as detachment faults, which have exhumed relatively young ultramafic rocks. These detachment faults act as conduits for fluid flow, and are responsible for the formation of folds in the overlying sediments that are breached by faults. We propose a model for fluid flow within this system whereby as sedimentary faults breach upward through the sedimentary strata, fluid is able to migrate further upward. We find that the tectonic regime on Svyatogor Ridge is the dominant driver of fluid migration and episodic release at the seafloor. |
author2 |
Waghorn, Kate Alyse |
author |
Waghorn, Kate Alyse |
author_facet |
Waghorn, Kate Alyse |
author_sort |
Waghorn, Kate Alyse |
title |
Replication Data for: 3-D Seismic Investigation of a Gas Hydrate and Fluid Flow System on an Active Mid-Ocean Ridge; Svyatogor Ridge, Fram Strait |
title_short |
Replication Data for: 3-D Seismic Investigation of a Gas Hydrate and Fluid Flow System on an Active Mid-Ocean Ridge; Svyatogor Ridge, Fram Strait |
title_full |
Replication Data for: 3-D Seismic Investigation of a Gas Hydrate and Fluid Flow System on an Active Mid-Ocean Ridge; Svyatogor Ridge, Fram Strait |
title_fullStr |
Replication Data for: 3-D Seismic Investigation of a Gas Hydrate and Fluid Flow System on an Active Mid-Ocean Ridge; Svyatogor Ridge, Fram Strait |
title_full_unstemmed |
Replication Data for: 3-D Seismic Investigation of a Gas Hydrate and Fluid Flow System on an Active Mid-Ocean Ridge; Svyatogor Ridge, Fram Strait |
title_sort |
replication data for: 3-d seismic investigation of a gas hydrate and fluid flow system on an active mid-ocean ridge; svyatogor ridge, fram strait |
publisher |
DataverseNO |
publishDate |
2018 |
url |
https://doi.org/10.18710/LOWPDQ |
genre |
Fram Strait |
genre_facet |
Fram Strait |
op_relation |
https://doi.org/10.18710/LOWPDQ |
op_doi |
https://doi.org/10.18710/LOWPDQ |
_version_ |
1781060297910386688 |