Replication Data for: Geological controls on fluid flow and gas hydrate pingo development on the Barents Sea margin.
The data includes two high-resolution P-Cable 3D seismic datasets processed in 2016 from Storfjordrenna, Barents Sea, used in the article published by G-Cubed \"Geological controls on fluid flow and gas hydrate pingo development on the Barents Sea margin.\" by \"Waage et al. The proce...
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2019
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| Online Access: | https://search.dataone.org/view/sha256:36cbc9828075d78a31c18f11f7ec482bb97a6ee73ebc0672c258665b70d9b86f |
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dataone:sha256:36cbc9828075d78a31c18f11f7ec482bb97a6ee73ebc0672c258665b70d9b86f |
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openpolar |
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dataone:sha256:36cbc9828075d78a31c18f11f7ec482bb97a6ee73ebc0672c258665b70d9b86f 2024-06-03T18:46:42+00:00 Replication Data for: Geological controls on fluid flow and gas hydrate pingo development on the Barents Sea margin. Waage, Malin 2019-01-14T00:00:00Z https://search.dataone.org/view/sha256:36cbc9828075d78a31c18f11f7ec482bb97a6ee73ebc0672c258665b70d9b86f unknown Barents Sea Fluid flow Hornsund Fault Zone Earth and Environmental Sciences Gas hydrate pingos Seismic Dataset 2019 dataone:urn:node:DVNO 2024-06-03T18:17:16Z The data includes two high-resolution P-Cable 3D seismic datasets processed in 2016 from Storfjordrenna, Barents Sea, used in the article published by G-Cubed \"Geological controls on fluid flow and gas hydrate pingo development on the Barents Sea margin.\" by \"Waage et al. The processing flow is listed in the \"Readme\" document, as well as the format for importing the cubes into a interpretation software. Abstract: In 2014, the discovery of seafloor mounds leaking methane gas into the water column in the northwestern Barents Sea became the first to document the existence of non-permafrost related gas hydrate pingos (GHP) on the Eurasian Arctic shelf. The discovered site is given attention because the gas hydrates occur close to the upper limit of the gas hydrate stability, thus may be vulnerable to climatic forcing. In addition, this site lies on the regional Hornsund Fault Zone marking a transition between the oceanic and continental crust. The Hornsund Fault Zone is known to coincide with an extensive seafloor gas seepage area; however, until now lack of seismic data prevented connecting deep structural elements to shallow seepages. Here we use high-resolution P-Cable 3D seismic data to study the subsurface architecture of GHPs and underlying glacial and pre-glacial deposits. The data show gas hydrates, authigenic carbonates and free gas within the GHPs on top of gas chimneys piercing a thin section of low-permeability glacial-sediments. The chimneys connect to faults within the underlying tilted and folded fluid and gas hydrate bearing sedimentary rocks. Correlation of our data with regional 2D seismic surveys shows a spatial connection between the shallow subsurface fluid flow system and the deep-seated regional fault zone. We suggest that fault-controlled Paleocene hydrocarbon reservoirs inject methane into the low-permeability glacial deposits and near-seabed sediments, forming the GHPs. This conceptual model explains the existence of climate sensitive gas hydrate inventories and extensive seabed methane release observed along the Svalbard-Barents Sea margin. Dataset Arctic Barents Sea Hornsund permafrost Storfjordrenna Svalbard Unknown Arctic Barents Sea Hornsund ENVELOPE(15.865,15.865,76.979,76.979) Storfjordrenna ENVELOPE(17.000,17.000,76.000,76.000) Svalbard |
| institution |
Open Polar |
| collection |
Unknown |
| op_collection_id |
dataone:urn:node:DVNO |
| language |
unknown |
| topic |
Barents Sea Fluid flow Hornsund Fault Zone Earth and Environmental Sciences Gas hydrate pingos Seismic |
| spellingShingle |
Barents Sea Fluid flow Hornsund Fault Zone Earth and Environmental Sciences Gas hydrate pingos Seismic Waage, Malin Replication Data for: Geological controls on fluid flow and gas hydrate pingo development on the Barents Sea margin. |
| topic_facet |
Barents Sea Fluid flow Hornsund Fault Zone Earth and Environmental Sciences Gas hydrate pingos Seismic |
| description |
The data includes two high-resolution P-Cable 3D seismic datasets processed in 2016 from Storfjordrenna, Barents Sea, used in the article published by G-Cubed \"Geological controls on fluid flow and gas hydrate pingo development on the Barents Sea margin.\" by \"Waage et al. The processing flow is listed in the \"Readme\" document, as well as the format for importing the cubes into a interpretation software. Abstract: In 2014, the discovery of seafloor mounds leaking methane gas into the water column in the northwestern Barents Sea became the first to document the existence of non-permafrost related gas hydrate pingos (GHP) on the Eurasian Arctic shelf. The discovered site is given attention because the gas hydrates occur close to the upper limit of the gas hydrate stability, thus may be vulnerable to climatic forcing. In addition, this site lies on the regional Hornsund Fault Zone marking a transition between the oceanic and continental crust. The Hornsund Fault Zone is known to coincide with an extensive seafloor gas seepage area; however, until now lack of seismic data prevented connecting deep structural elements to shallow seepages. Here we use high-resolution P-Cable 3D seismic data to study the subsurface architecture of GHPs and underlying glacial and pre-glacial deposits. The data show gas hydrates, authigenic carbonates and free gas within the GHPs on top of gas chimneys piercing a thin section of low-permeability glacial-sediments. The chimneys connect to faults within the underlying tilted and folded fluid and gas hydrate bearing sedimentary rocks. Correlation of our data with regional 2D seismic surveys shows a spatial connection between the shallow subsurface fluid flow system and the deep-seated regional fault zone. We suggest that fault-controlled Paleocene hydrocarbon reservoirs inject methane into the low-permeability glacial deposits and near-seabed sediments, forming the GHPs. This conceptual model explains the existence of climate sensitive gas hydrate inventories and extensive seabed methane release observed along the Svalbard-Barents Sea margin. |
| format |
Dataset |
| author |
Waage, Malin |
| author_facet |
Waage, Malin |
| author_sort |
Waage, Malin |
| title |
Replication Data for: Geological controls on fluid flow and gas hydrate pingo development on the Barents Sea margin. |
| title_short |
Replication Data for: Geological controls on fluid flow and gas hydrate pingo development on the Barents Sea margin. |
| title_full |
Replication Data for: Geological controls on fluid flow and gas hydrate pingo development on the Barents Sea margin. |
| title_fullStr |
Replication Data for: Geological controls on fluid flow and gas hydrate pingo development on the Barents Sea margin. |
| title_full_unstemmed |
Replication Data for: Geological controls on fluid flow and gas hydrate pingo development on the Barents Sea margin. |
| title_sort |
replication data for: geological controls on fluid flow and gas hydrate pingo development on the barents sea margin. |
| publishDate |
2019 |
| url |
https://search.dataone.org/view/sha256:36cbc9828075d78a31c18f11f7ec482bb97a6ee73ebc0672c258665b70d9b86f |
| long_lat |
ENVELOPE(15.865,15.865,76.979,76.979) ENVELOPE(17.000,17.000,76.000,76.000) |
| geographic |
Arctic Barents Sea Hornsund Storfjordrenna Svalbard |
| geographic_facet |
Arctic Barents Sea Hornsund Storfjordrenna Svalbard |
| genre |
Arctic Barents Sea Hornsund permafrost Storfjordrenna Svalbard |
| genre_facet |
Arctic Barents Sea Hornsund permafrost Storfjordrenna Svalbard |
| _version_ |
1800869964563873792 |