GLORIA — GEOMAR Library Ocean Research Information Access

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Igneous seismic geomorphology of buried lava fields and coastal escarpments on the Vøring volcanic rifted margin (2017)

Planke, Sverre ; Millett, John M. ; Maharjan, Dwarika ; [et al.]

Society of Exploration Geophysicists

In: Interpretation, 5 (3). SK161-SK177.

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Publication Date: 2020-02-06

Description: Voluminous igneous complexes are commonly present in sedimentary basins on volcanic rifted margins, and they represent a challenge for petroleum explorationists. A 2500 km2 industry-standard 3D seismic cube has recently been acquired on the Vøring Marginal High offshore mid-Norway to image subbasalt sedimentary rocks. This cube also provides a unique opportunity for imaging top- and intrabasalt structures. Detailed seismic geomorphological interpretation of the top-basalt horizon, locally calibrated with high-resolution P-Cable wide-azimuth data, reveals new insight into the late-stage development of the volcanic flow fields and the kilometer-high coastal Vøring Escarpment. Subaerial lava flows with compressional ridges and inflated lava lobes cover the marginal high, with a comparable structure and size to modern subaerial lava fields. Pitted surfaces, likely formed by lava emplaced in a wet environment, are present in the western part of the study area near the continent-ocean boundary. The prominent Vøring Escarpment formed when eastward-flowing lava reached the coastline. The escarpment morphology is influenced by preexisting structural highs, and these highs are locally bypassed by the lava. Volcanogenic debris flows are well-imaged on the escarpment horizon, along with large-scale large slump blocks. Similar features exist in active volcanic environments, e.g., on the south coast of Hawaii. Numerous postvolcanic extensional faults and incised channels cut into the marginal high and the escarpment, and we found that the area was geologically active after the volcanism ceased. In summary, igneous seismic geomorphology and seismic volcanostratigraphy are two very powerful methods to understand the volcanic deposits and development of rifted margins. Our study demonstrates great promise for further understanding the igneous development of offshore basins as more high-quality 3D seismic data become available.

Type: Article , PeerReviewed

Format: text

DOI: 10.1190/INT-2016-0164.1

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Rifting under steam – how rift magmatism triggers methane venting from sedimentary basins (2016)

Berndt, Christian ; Hensen, Christian ; Mortera-Gutierrez, C. ; [et al.]

GSA (Geological Society of America)

In: Geology, 44 (9). pp. 767-770.

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Publication Date: 2019-10-24

Description: During opening of a new ocean magma intrudes into the surrounding sedimentary basins. Heat provided by the intrusions matures the host rock creating metamorphic aureoles potentially releasing large amounts of hydrocarbons. These hydrocarbons may migrate to the seafloor in hydrothermal vent complexes in sufficient volumes to trigger global warming, e.g. during the Paleocene Eocene Thermal Maximum (PETM). Mound structures at the top of buried hydrothermal vent complexes observed in seismic data off Norway were previously interpreted as mud volcanoes and the amount of released hydrocarbon was estimated based on this interpretation. Here, we present new geophysical and geochemical data from the Gulf of California suggesting that such mound structures could in fact be edifices constructed by the growth of black-smoker type chimneys rather than mud volcanoes. We have evidence for two buried and one active hydrothermal vent system outside the rift axis. The vent releases several hundred degrees Celsius hot fluids containing abundant methane, mid-ocean-ridge-basalt (MORB)-type helium, and precipitating solids up to 300 m high into the water column. Our observations challenge the idea that methane is emitted slowly from rift-related vents. The association of large amounts of methane with hydrothermal fluids that enter the water column at high pressure and temperature provides an efficient mechanism to transport hydrocarbons into the water column and atmosphere, lending support to the hypothesis that rapid climate change such as during the PETM can be triggered by magmatic intrusions into organic-rich sedimentary basins.

Type: Article , PeerReviewed

Format: text

DOI: 10.1130/G38049.1

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Gas-controlled seafloor doming (2015)

Koch, Stephanie ; Berndt, Christian ; Bialas, Jörg ; [et al.]

GSA (Geological Society of America)

In: Geology, 43 (7). pp. 571-574.

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Publication Date: 2019-10-24

Description: The upward migration of gas through marine sediments typically manifests itself as gas chimneys or pipes in seismic images and can lead to the formation of cold seeps. Gas seepage is often linked to morphological features like seabed domes, pockmarks, and carbonate build-ups. In this context, sediment doming is discussed to be a precursor of pockmark formation. Here, we present parametric echosounder, sidescan sonar, and two-dimensional seismic data from Opouawe Bank, offshore New Zealand, providing field evidence for sediment doming. Geomechanical quantification of the stresses required for doming show that the calculated gas column heights are geologically feasible and consistent with the observed geophysical data. The progression from channeled gas flow to gas trapping results in overpressure build-up in the shallow sediment. Our results suggest that by breaching of domed seafloor sediments a new seep site can develop, but contrary to ongoing discussion this does not necessarily lead to the formation of pockmarks.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.1130/G36596.1

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Marine CSEM data constrained by seismic and synthetic studies for gas hydrates exploration (2016)

Attias, Eric ; Weitemeyer, Karen ; Minshull, Tim ; [et al.]

Society of Exploration Geophysicists

In: SEG Technical Program Expanded Abstracts, 35 . pp. 901-906.

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Publication Date: 2017-06-08

Type: Article , NonPeerReviewed

DOI: 10.1190/segam2016-13407364.1

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Wavefront tomography with diffraction-only 3D P-cable data (2018)

Glöckner, Martina ; Gajewski, Dirk ; Kläschen, Dirk ; [et al.]

Society of Exploration Geophysicists

In: SEG Technical Program Expanded Abstracts, 2018 . pp. 5133-5136.

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Publication Date: 2018-10-17

Description: P-cable data often do not allow model building by conventional methods because of an insufficient offset to target ratio. Diffractions, however, provide a tool for model building, even for Zero-Offset data. Here, we introduce a diffraction-based velocity analysis that provides seismic velocity information without the need of acquiring ocean bottom seismometer data. The diffraction based processing uses a multiparameter stacking operator which naturally enhances diffractions and at the same time generate kinematic wavefield attributes. These attributes together with the stack serve as input for a wavefront tomography and generate a depth velocity model in an automated fashion. An additional advantage of diffraction tomography is the scatter potential which yields a large area of illumination in the tomography compared to a pure reflection processing. The illuminated area is two to three times larger and more velocity information can be calculated from the same amount of data.

Type: Article , NonPeerReviewed

Format: text

DOI: 10.1190/segam2018-2996743.1

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