GLORIA — GEOMAR Library Ocean Research Information Access

1

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Scale invariant characteristics of the Storegga Slide and implications for large-scale submarine mass movements (2008)

Micallef, Aaron

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In: Marine geology, Amsterdam [u.a.] : Elsevier Science, 1964, 247(2008), 1/2, Seite 46-60, 1872-6151

In: volume:247

In: year:2008

In: number:1/2

In: pages:46-60

Description / Table of Contents: This study documents the fractal characteristics of submarine mass movement statistics and morphology within the Storegga Slide. Geomorphometric mapping is used to identify one hundred and fifteen mass movements from within the Storegga Slide scar and to extract morphological information about their headwalls. Analyses of this morphological information reveal the occurrence of spatial scale invariance within the Storegga Slide. Non-cumulative frequency-area distribution of mass movements within the Storegga Slide satisfies an inverse power law with an exponent of 1.52. The headwalls exhibit geometric similarity at a wide range of scales and the lengths of headwalls scale with mass movement areas. Composite headwalls are self-similar. One of the explanations of the observed spatial scale invariance is that the Storegga Slide is a geomorphological system that may exhibit self-organized criticality. In such a system, the input of sediment is in the form of hemipelagic sedimentation and glacial sediment deposition, and the output is represented by mass movements that are spatially scale invariant. In comparison to subaerial mass movements, the aggregate behavior of the Storegga Slide mass movements is more comparable to that of the theoretical ‘sandpile’ model. The origin of spatial scale invariance may also be linked to the retrogressive nature of the Storegga Slide. The geometric similarity in headwall morphology implies that the slope failure processes are active on a range of scales, and that modeling of slope failures and geohazard assessment can extrapolate the properties of small landslides to those of larger landslides, within the limits of power law behavior. The results also have implications for the morphological classification of submarine mass movements, because headwall shape can be used as a proxy for the type of mass movement, which can otherwise only be detected with very high resolution acoustic data that are not commonly available.

Type of Medium: Online Resource

ISSN: 1872-6151

DOI: 10.1016/j.margeo.2007.08.003

Language: English

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2

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Tsunami modeling of a submarine landslide in the Fram Strait (2009)

Berndt, Christian

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In: Geochemistry, geophysics, geosystems, Hoboken, NJ : Wiley, 2000, 10(2009), 4, 1525-2027

In: volume:10

In: year:2009

In: number:4

In: extent:9

Description / Table of Contents: The present geological setting west of Svalbard closely parallels the situation off mid-Norway after the last glaciation, when crustal unloading by melting of ice induced very large earthquakes. Today, on the modern Svalbard margin, increasing bottom water temperatures are destabilizing marine gas hydrates, which are held in continental margin sediments consisting of interlayered contourite deposits and glacigenic debris flows. Both unloading earthquakes and hydrate failure have been identified as key factors causing several megalandslides off Norway during early Holocene deglaciation. The most prominent event was the Storegga Slide 8200 years B.P. which caused a tsunami up to 23 m high on the Faroe and Shetland islands. Here we show by numerical tsunami modeling that a smaller submarine landslide west of Svalbard, 100 m high and 130 km wide, would cause a tsunami capable of reaching northwest Europe and threatening coastal areas. A tsunami warning system based on tiltmeters would give a warning time of 1-4 h.

Type of Medium: Online Resource

Pages: 9 , graph. Darst

ISSN: 1525-2027

DOI: 10.1029/2008GC002292

Language: English

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3

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The SW African volcanic rifted margin and the initiation of the Walvis Ridge, South Atlantic (2009)

Elliott, Gavin M.

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In: Marine geophysical research, Dordrecht [u.a.] : Springer Science + Business Media B.V., 1970, 30(2009), 3, Seite 207-214, 1573-0581

In: volume:30

In: year:2009

In: number:3

In: pages:207-214

Description / Table of Contents: The continental margin of SW Africa is typical of a volcanic rifted margin associated with a hotspot trail characterized by a large volcanic ridge, the Walvis Ridge, defining the hotspot migration, and extensive extrusive volcanism that produced seaward-dipping reflectors (SDR). Previously unpublished seismic data show two significant anomalies of the SW African Margin when compared to other typical volcanic rifted margins: (1) Hyaloclastitic outer highs are rare, and (2) the SDR in the North dip towards the Walvis Ridge. We explain these anomalies by a major transform segment close to the centre of volcanism combined with pulsed volcanism. The Walvis Ridge represents an east-west striking extrusive centre which produced a SDR sequence. Following break-up the northern boundary of the Walvis Ridge became a left lateral transform fault. Our data support the idea that a transform fault system interacting with a ridge jump were responsible for the accretion of the São Paulo Plateau to the American plate.

Type of Medium: Online Resource

Pages: graph. Darst

ISSN: 1573-0581

URL: http://www.springerlink.com/content/nh035222332h7150/?p=0fac141249364dbda86034b4ce146d2b&pi=4

DOI: 10.1007/s11001-009-9077-x

Language: English

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4

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P-cable high-resolution seismic (2009)

Planke, Sverre

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In: Oceanography, Rockville, MD : The Oceanography Society, 1988, 22(2009), 1, Seite 85, 2377-617X

In: volume:22

In: year:2009

In: number:1

In: pages:85

Type of Medium: Online Resource

Pages: graph. Darst

ISSN: 2377-617X

URL: http://www.tos.org/oceanography/issues/issue_archive/issue_pdfs/22_1/22-1_planke.pdf

Language: English

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Ocean bottom seismometer sgy-files of refraction seismic profiles from Professor Logachev cruise TTR16/3 (2008)

Tesmi, Jose ; Minshull, Tim A ; Westbrook, Graham K ; [et al.]

PANGAEA

In: Supplement to: Tesmi, Jose; Minshull, Tim A; Westbrook, Graham K; Nouzé, Hervé; Ker, Stephan; Gailler, Audrey; Exley, Russell; Berndt, Christian (2008): A geophysical study of a pockmark in the Nyegga region, Norwegian Sea. Proceedings of the 6th International Conference on Gas Hydrates (ICGH 2008), Vancouver, British Columbia, Canada, July 6-10, 2008, hdl:2429/1199

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Publication Date: 2024-02-16

Description: Over the last decade pockmarks have proven to be important seabed features that provide information about fluid flow on continental margins. Their formation and dynamics are still poorly constrained due to the lack of proper three dimensional imaging of their internal structure. Numerous fluid escape features provide evidence for an active fluid-flow system on the Norwegian margin, specifically in the Nyegga region. In June-July 2006 a high-resolution seismic experiment using Ocean Bottom Seismometers (OBS) was carried out to investigate the detailed 3D structure of a pockmark named G11 in the region. An array of 14 OBS was deployed across the pockmark with 1 m location accuracy. Shots fired from surface towed mini GI guns were also recorded on a near surface hydrophone streamer. Several reflectors of high amplitude and reverse polarity are observed on the profiles indicating the presence of gas. Gas hydrates were recovered with gravity cores from less than a meter below the seafloor during the cruise. Indications of gas at shallow depths in the hydrate stability field show that methane is able to escape through the water-saturated sediments in the chimney without being entirely converted into gas hydrate. An initial 2D raytraced forward model of some of the P wave data along a line running NE-SW across the G11 pockmark shows, a gradual increase in velocity between the seafloor and a gas charged zone lying at ~300 m depth below the seabed. The traveltime fit is improved if the pockmark is underlain by velocities higher than in the surrounding layer corresponding to a pipe which ascends from the gas zone, to where it terminates in the pockmark as seen in the reflection profiles. This could be due to the presence of hydrates or carbonates within the sediments.

Keywords: HERMES; Hotspot Ecosystem Research on the Margins of European Seas; Nyegga; OBS; Ocean bottom seismometer; Professor Logachev; TTR-16_CN03_01; TTR-16_CN03_02; TTR-16_CN03_05; TTR-16_CN03_06; TTR-16_CN03_11; TTR-16_CN03_13; TTR-16_CN03_16; TTR-16_CN03_17; TTR-16_G11_01; TTR-16_G11_04; TTR-16_G11_05; TTR-16_G11_10; TTR-16_G11_13; TTR-16_G11_14; TTR-16/3

Type: Dataset

Format: application/zip, 2 datasets

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Ocean bottom seismometer sgy-files of refraction seismic profile TTR16_CN03 from Professor Logachev cruise TTR16/3 (2008)

Tesmi, Jose ; Minshull, Tim A ; Westbrook, Graham K ; [et al.]

PANGAEA

In: National Oceanography Centre, Southampton

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Publication Date: 2024-02-16

Keywords: Date/Time of event; Event label; HERMES; Hotspot Ecosystem Research on the Margins of European Seas; Latitude of event; Longitude of event; Nyegga; OBS; Ocean bottom seismometer; Professor Logachev; Seismic line; TTR-16_CN03_01; TTR-16_CN03_02; TTR-16_CN03_05; TTR-16_CN03_06; TTR-16_CN03_11; TTR-16_CN03_13; TTR-16_CN03_16; TTR-16_CN03_17; TTR-16/3; Uniform resource locator/link to sgy data file

Type: Dataset

Format: text/tab-separated-values, 1144 data points

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Ocean bottom seismometer sgy-files of refraction seismic profile TTR16_G11 from Professor Logachev cruise TTR16/3 (2008)

Tesmi, Jose ; Minshull, Tim A ; Westbrook, Graham K ; [et al.]

PANGAEA

In: National Oceanography Centre, Southampton

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Publication Date: 2024-02-16

Keywords: Date/Time of event; Event label; HERMES; Hotspot Ecosystem Research on the Margins of European Seas; Latitude of event; Longitude of event; Nyegga; OBS; Ocean bottom seismometer; Professor Logachev; Seismic line; TTR-16_G11_01; TTR-16_G11_04; TTR-16_G11_05; TTR-16_G11_10; TTR-16_G11_13; TTR-16_G11_14; TTR-16/3; Uniform resource locator/link to sgy data file

Type: Dataset

Format: text/tab-separated-values, 810 data points

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Geological controls on focused fluid flow associated with seafloor seeps in the Lower Congo Basin (2007)

Gay, A. ; Lopez, M. ; Berndt, Christian ; [et al.]

Elsevier

In: Marine Geology, 244 . pp. 68-92.

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Publication Date: 2017-08-04

Description: A synthesis of backscatter imagery coupled with a large 3D seismic dataset in the Lower Congo Basin (LCB) reveals a patchy distribution of features interpreted to be associated with fluid seepage from 300 m to 2500 m water depth. With the exception of one region of anomalous backscatter positive-relief mounds, all inferred seep sites occur in negative-relief pockmarks. The extensive 3D seismic dataset in the LCB offers a unique opportunity to study the plumbing system that is feeding surface cold seep systems, and in general, to reconstruct the relationship between tectonics and fluid flow in continental margins. The fluid seeps in the LCB are associated with morphologically, stratigraphically or tectonically controlled focused fluid flow. The integration of the geophysical datasets, backscatter imagery coupled to 3D seismic, clearly indicates that fluid seeps are not randomly distributed, but their seabed organization reflects 1) the location of the underlying structure (reservoir or trap) where the fluids are coming from, 2) the geometry and morphology of the reservoir/trap, and 3) the discontinuities in the sedimentary column along which fluids have migrated. In the LCB seafloor pockmarks are always associated with underlying tectonic structures (fault zones, salt diapirs, polygonal faults) or buried sedimentary bodies (turbiditic channels, erosional surfaces), whereas they never occur above sub-horizontal parallel-stratified fine-grained sediments. Even if triggering processes can not be clearly defined here, we propose a model of seafloor fluid seep organization, which represents a new tool for identifying the geometry of flow pathways and the underlying buried bodies where the fluids are originating from. This qualitative 3D model provides insight into the geohydrologic processes of continental margins.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.margeo.2007.06.003

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On the origin of large shelf embayments on glaciated margins—effects of lateral ice flux variations and glacio-dynamics west of Svalbard (2007)

Vanneste, M. ; Berndt, Christian ; Laberg, J. S. ; [et al.]

Elsevier

In: Quaternary Science Reviews, 26 . pp. 2046-2419.

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Publication Date: 2016-09-16

Description: Glaciated continental shelves are characterised by large amphitheatre-like embayments between prominent cross-shelftroughs. The integration of swath bathymetry and high-resolution seismic data (3D, 2D) collected across the western Svalbard continental margin indicates how such embayments form. Although their bathymetric expression resembles headwall scarps of submarine slopefailures, the shelfembayments are the result of the interplay between sediment dynamics and transport underneath fast-moving ice streams in the cross-shelftroughs and the slower-moving parts of the ice sheets on the adjacent shallower shelf banks during full glacial conditions. This is supported by (1) the absence of major landslide deposits at their toe, (2) continuous prograding shelf deposition and (3) absence of landslide-related faulting. Instead, the seismic data suggest a depositional origin of the shelfembayments that is characterised by continuous sediment input at lower rates off a slow-moving ice mass in the centre of the embayment which is fringed by the lateral ice-stream ridges. These findings put into perspective the importance of submarine slopefailure on glaciated margins.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.quascirev.2007.05.005

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Focused fluid flow on continental margins (2005)

Berndt, Christian

Royal Society of London

In: Philosophical Transactions of The Royal Society of London Series A-Mathematical Physical and Engineering Sciences, 363 . pp. 2855-2871.

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Publication Date: 2020-06-12

Description: Passive continental margins such as the Atlantic seaboard of Europe are important for society as they contain large energy resources, and they sustain ecosystems that are the basis for the commercial fish stock. The margin sediments are very dynamic environments. Fluids are expelled from compacting sediments, bottom water temperature changes cause gas hydrate systems to change their locations and occasionally large magmatic intrusions boil the pore water within the sedimentary basins, which is then expelled to the surface. The fluids that seep through the seabed at the tops of focused fluid flow systems have a crucial role for seabed ecology, and study of such fluid flow systems can also help in predicting the distribution of hydrocarbons in the subsurface and deciphering the climate record. Therefore, the study of focused fluid flow will become one of the most important fields in marine geology in the future.

Type: Article , PeerReviewed

Format: text

DOI: 10.1098/rsta.2005.1666

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