GLORIA — GEOMAR Library Ocean Research Information Access

1

Electronic Resource

Fe−Mn nodule field indicated by GLORIA, north of the Puerto Rico Trench (1992)

Scanlon, Kathryn M. ; Masson, Douglas G.

Springer

Geo-marine letters 12 (1992), S. 208-213

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ISSN: 1432-1157

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract A 2,500-km2 area of sea floor on the south-eastern flank of the Greater Antilles Outer Ridge north of the Puerto Rico Trench displays anomalously high acoustic backscattering properties on GLORIA longrange sidescan-sonar data. Previously collected dredges, bottom photographs, and sediment cores indicate the presence of Fe−Mn nodules within the area of high backscatter. We were able to map the extent of the inferred nodule field on the basis of acoustic property contrast between the nodule-covered sediment and the surrounding nodule-free sediment.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02091840

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2

Electronic Resource

Comment on the mapping of iron-manganese nodule fields using reconnaissance sonars such as GLORIA (1993)

Masson, Douglas G. ; Scanlon, Kathryn M.

Springer

Geo-marine letters 13 (1993), S. 244-247

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ISSN: 1432-1157

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01207754

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3

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Seismic evidence for shallow gas-escape features associated with a retreating gas hydrate zone offshore west Svalbard (2012)

Sarkar, Sudipta ; Berndt, Christian ; Minshull, Timothy A. ; [et al.]

AGU (American Geophysical Union)

In: Journal of Geophysical Research: Solid Earth, 117 (B9). B09102.

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Publication Date: 2018-04-27

Description: Active gas venting occurs on the uppermost continental slope off west Svalbard, close to and upslope from the present-day intersection of the base of methane hydrate stability (BMHS) with the seabed in about 400 m water depth in the inter-fan region between the Kongsfjorden and Isfjorden cross-shelf troughs. From an integrated analysis of high-resolution, two-dimensional, pre-stack migrated seismic reflection profiles and multibeam bathymetric data, we map out a bottom simulating reflector (BSR) in the inter-fan region and analyze the subsurface gas migration and accumulation. Gas seeps mostly occur in the zone from which the BMHS at the seabed has retreated over the recent past (1975–2008) as a consequence of a bottom water temperature rise of 1°C. The overall margin-parallel alignment of the gas seeps is not related to fault-controlled gas migration, as seismic evidence of faults is absent. There is no evidence for a BSR close to the gas flare region in the upper slope but numerous gas pockets exist directly below the predicted BMHS. While the contour following trend of the gas seeps could be a consequence of retreat of the landward limit of the BMHS and gas hydrate dissociation, the scattered distribution of seeps within the probable hydrate dissociation corridor and the occurrence of a cluster of seeps outside the predicted BMHS limit and near the shelf break indicate the role of lithological heterogeneity in focusing gas migration.

Type: Article , PeerReviewed

Format: text

DOI: 10.1029/2011JB009126

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The Sahara Slide: initiation and processes from headwall to deposit of a giant submarine slide (2010)

Georgiopoulou, Aggeliki ; Masson, Douglas C. ; Wynn, Russell B. ; [et al.]

AGU (American Geophysical Union)

In: Geochemistry, Geophysics, Geosystems, 11 (7). Q07014.

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Publication Date: 2017-11-07

Description: The Sahara Slide is a giant submarine landslide on the northwest African continental margin. The landslide is located on the open continental slope offshore arid Western Sahara, with a headwall at a water depth of ∼2000 m. High primary productivity in surface waters drives accumulation of thick fine-grained pelagic/hemipelagic sediment sequences in the slide source area. Rare but large-scale slope failures, such as the Sahara Slide that remobilized approximately 600 km3 of sediment, are characteristic of this sedimentological setting. Seismic profiles collected from the slide scar reveal a stepped profile with two 100 m high headwalls, suggesting that the slide occurred retrogressively as a slab-type failure. Sediment cores recovered from the slide deposit provide new insights into the process by which the slide eroded and entrained a volcaniclastic sand layer. When this layer was entrained at the base of the slide it became fluidized and resulted in low apparent friction, facilitating the exceptionally long runout of ∼900 km. The slide location appears to be controlled by the buried headwall of an older slope failure, and we suggest that the cause of the slide relates to differential sedimentation rates and compaction across these scarps, leading to local increases of pore pressure. Sediment cores yield a date of 50–60 ka for the main slide event, a period of global sea level rise which may have contributed to pore pressure buildup. The link with sea level rising is consistent with other submarine landslides on this margin, drawing attention to this potential hazard during global warming.

Type: Article , PeerReviewed

Format: text

DOI: 10.1029/2010GC003066

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New insights into the morphology, fill, and remarkable longevity (〉0.2 m.y.) of modern deep-water erosional scours along the northeast Atlantic margin (2011)

Macdonald, Heather A. ; Wynn, Russell B. ; Huvenne, Veerle A.I. ; Peakall, Jeff ; Masson, Douglas G. ; Weaver, Philip P.E. ; McPhail, Stephen D.

Geological Society of America (GSA)

In: Geosphere 7: 845-867.

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Publication Date: 2011-08-01

Description: A series of large-scale erosional scours are described from four modern deep-water canyon and/or channel systems along the northeast Atlantic continental margin. Regional-scale geophysical data indicate that most scours occur in zones of rapid flow expansion, such as canyon and/or channel termini and margins. High-resolution images of the scours cover [~]25 km2 at 2 x 2 m pixel size, and were obtained at depths of 4200-4900 m using Autosub6000, an autonomous underwater vehicle equipped with an EM2000 multibeam bathymetry system. Sedimentological and microfossil-based chronological data of scour fills and interscour areas were obtained via accurately located piston cores that targeted specific sites within imaged areas. These core data reveal a number of key findings. (1) Deep-water scours can be very long lived (〉0.2 m.y.) and may undergo discrete phases of isolation, amalgamation, and infilling. (2) Deep-water scours can develop via a composite of cutting and filling events with periodicities of between tens of thousands and hundreds of thousands of years. (3) Immediately adjacent scours may have strikingly different sedimentological histories and do not necessarily evolve contemporaneously. (4) Scour infills are typically out of phase with sedimentation in intrascour areas, having thin sands internally and thick sands externally, or thick muds internally and thin muds externally. (5) Erosional hiatuses within scour fills may represent hundreds of thousands of years of time, and yet leave little visible record. Four distinct morphologies of scour are identified that range from 40 to 3170 m wide and 8 to 48 m deep: spoon shaped, heel shaped, crescent shaped, and oval shaped. Isolated scours are shown to coalesce laterally into broad regions of amalgamated scour that may be several kilometers across. The combined morphosedimentological data set is used to examine some of the putative formative mechanisms for scour genesis.

Electronic ISSN: 1553-040X

Topics: Geosciences

Published by Geological Society of America (GSA)

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