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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Africa
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North Africa
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Morocco (1)
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Western Sahara (1)
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Atlantic Ocean
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North Atlantic
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English Channel (1)
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Northeast Atlantic (1)
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Europe
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Western Europe
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France
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Brittany (1)
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Seine River (1)
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fossils
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Invertebrata
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Arthropoda
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Mandibulata
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Crustacea
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Malacostraca
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Amphipoda (1)
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Primary terms
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Africa
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North Africa
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Morocco (1)
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Western Sahara (1)
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Atlantic Ocean
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North Atlantic
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English Channel (1)
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Northeast Atlantic (1)
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continental slope (1)
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Europe
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Western Europe
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France
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Brittany (1)
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Seine River (1)
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geophysical methods (2)
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Invertebrata
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Arthropoda
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Mandibulata
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Crustacea
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Malacostraca
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Amphipoda (1)
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ocean floors (2)
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sedimentation (1)
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sediments
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clastic sediments
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loess (1)
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sediments
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sediments
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clastic sediments
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loess (1)
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soils
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paleosols (1)
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Space-time evolution of a large field of pockmarks in the Bay of Concarneau (NW Brittany)
Slope morphologies offshore Dakhla (SW Moroccan margin)
A multiproxy palaeoenvironmental reconstruction of Loch Sunart (NW Scotland) since the Last Glacial Maximum
Abstract Loch Sunart is located on the NW coast of Scotland and contains a sedimentary sequence that records Lateglacial to Holocene climatic variations. A 12 m core MD04-2833 was acquired in the main basin of the loch sampling this sequence. We present the palaeoenvironmental data and palaeoclimatical scenario based on a multiproxy approach using pollen concentrations, sortable silt variation, lithic fraction and marine benthic foraminifera assemblages. These analyses allow the identification of major climate fluctuations such as cooling events. Global temperature decreases are discriminated from local water temperature decreases due to ice-melting processes by the presence of Elphidium subarcticum and the assemblage of Cassidulina obtusa and Haynesina germanica . Two meltwater pulses (MWP) are distinguished, which correspond to the MWP-Ia (15.5–13 cal ka BP) and MWP-Ib (12.2–10.1 cal ka BP). After the maximum water stratification occurred at 7.5 cal ka BP, full marine conditions were established around 6 cal ka BP, which correspond to the highest relative sea-level reached in the loch.
Abstract Loch Sunart is a glacially over-deepened sea loch (fjord) on the west coast of Scotland, UK. The loch is divided into three sub-basins, separated by relatively shallow and narrow sills. A programme of data collection including high-resolution bathymetric sonar and sub-bottom seismic surveys were conducted in the loch as part of an investigation into the sedimentological and climatic change signatures preserved in western sea lochs since the Last Glacial Maximum. Very-high-resolution sub-bottom profiles were obtained using the SEISTEC boomer system. The seismic profiles revealed an igneous and metamorphic basement covered by a 10–70 m thick sediment sequence. Five different acoustic facies were recognized and interpreted in terms of glacial activity, ice retreat and subsequent Holocene sedimentation. These facies have been correlated to sediments sampled in a radiocarbon-dated 12 m long giant piston core (MD04-2833) acquired from the main basin of Loch Sunart. Pollen analyses conducted along the length of the core, together with 14 C dating, indicate a complex series of palaeoclimate changes in the loch. In particular, five distinct cooling events have been recognized c . 9.8, 8.2, 5.8, 1.2 cal ka BP and 771–1211 cal a BP (possibly the Little Ice Age), corresponding to phases of Holocene rapid climate change.
Shallow bottom-simulating reflectors on the Angola margin, in relation with gas and gas hydrate in the sediments
Abstract Acoustic facies interpretation, high-resolution velocity analysis and amplitude versus offset modelling have been performed on high resolution seismic data acquired on the West African margin offshore Angola, in water depths of about 2000 m. The area has a complex structural, thermal and fluid-flow setting, in which sediments are affected by salt diapirism and faulting associated with sediment compaction. A discontinuous bottom-simulating reflector (BSR) at a depth of about 200 m below sea floor could mark the base of the gas hydrate occurrence zone, which does not always coincide with the top of the free gas zone. Within the gas hydrate stability zone, a shallow bottom-simulating reflector is observed at a depth of about 75 m below seafloor. This shallow bottom simulating reflector, that is termed ‘sheep back reflector’ (SR), correspond to a small amount of gas being trapped in the sediments. It could mark the top of the gas hydrate occurrence zone, where gas hydrate dissociation may occur. A reversed polarity reflector (R1) is also observed about 25 m below the sea floor. This reflector could correspond to a limit between normally compacted and underconsolidated sediments, possibly related to a permeability change in the sediments. Thus, the occurrence of excess pore pressure generated during gas hydrate dissociation could explain some subsurface sediment mobilization processes.