Patrice Imbert scite author profile

The eastern Demerara Plateau offshore French Guiana was surveyed in 2003 during the GUYAPLAC cruise (multibeam bathymetry and acoustic imagery, 6-channel seismic reflection and 3.5 kHz echosounding). The data show the "post-transform" Cenozoic that the series located on the outer part of the plateau (below c. 2000 m) contain at least twelve stacked mass transport deposits (MTDs) that have recorded a history of large-scale slope failure, as well as two main normal fault sets that provide possible pathways for upward fluid migration through the series, reaching at high as the uppermost MTDs. Seabed data show that the area above the failures is characterized by circular-to-elongate (slope-parallel) depressions interpreted as fluid seeps (pockmarks), some of them have been modified by along slope currents. We suggest that the development of the MTDs to results from the combinaiton of the presence of fluid overpressure at depth the geometry of the margin's deep structure, in particular the existence of a 'free borderlateral border' on the outermost plateau. Our results also emphasise the role of stratigraphic décollements within the Cenozoic series. Highlights ► Cenozoic succession of the Demerara Plateau contains a complex of at least 12 MTDs. ► Sedimentary undulations and circular to elongated depressions occur on the seafloor. ► Faults provide fluid migration pathways through the MTDs (biogenic or thermogenic). ► Detachments occur on stratigraphic horizons that outcrop along the continental slope. ► Fluid overpressures and the distal transform free border seem to control MTD dynamics.

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Past and present sedimentary activity in the Capbreton Canyon, southern Bay of Biscay

Gaudin

Mulder

Cirac

et al. 2006

Geo-Mar Lett

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Sea-level change and free gas occurrence influencing a submarine landslide and pockmark formation and distribution in deepwater Nigeria

Riboulot

Cattaneo

Sultan

et al. 2013

Earth and Planetary Science Letters

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A series of pockmarks observed at the seabed matches well the perimeter of a large submarine landslide, called NG1, located on the outer shelf and continental slope of the Eastern Gulf of Guinea. NG1 extends over 200 km2, is covered by a 120-m thick sedimentary layer which tapers downslope, and has an internal structure clearly identified in 3D seismic data consisting of three adjacent units on the upper continental slope. The pockmarks above NG1 have a diameter of several tens of meters and reveal distinct origins: (1) linked to >500 m deep fluid reservoirs, (2) rooted in NG1 internal discontinuities between NG1 units, and (3) well above NG1, superficially rooted in a regional conformity (D40), which marks the lowest sea level of the Marine Isotope Stage 6. The regional stratigraphic pattern of the study area is composed of muddy sedimentary sequences separated by correlative conformities and transgressive condensed units of coarser grain size. Mud-confined coarser-grained units constitute transient gas reservoirs favoring lateral gas migration and formation of pockmarks rooted in the condensed units. The buried NG1 landslide modifies the layered structure of the sedimentary column providing (1) overall, a barrier to fluid migration, and (2) localized pathways for fluid migration. The triggering factor for the formation of pockmarks above NG1 can be the variation of hydrostatic pressure driven by relative sea-level fall during Marine Isotopic Stages 6 and 2 and consequent gas exsolution and fluid flow. We anticipate our result to be a starting point for understanding the role of gas seeps on climate change worldwide. Furthermore, gas release intensifies during lowstands with relevant implication on global warming after ice ages. Highlights ►This is the first study linking the effect of a landslide on gas migration pathways. ►Pockmark formation is reconstructed with geophysical and geotechnical data. ►The landslide occurred during a sea-level fall period. ►The timing of pockmark formation is in part controlled by 100-kyr eustatic cycles. ►Once buried, the landslide controls the spatial organization of pockmarks.

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Patrice Imbert

Seismic features diagnostic of contourite drifts

Chikungunya Virus, Cameroon, 2006

Mass-transport deposits and fluid venting in a transform margin setting, the eastern Demerara Plateau (French Guiana)

Past and present sedimentary activity in the Capbreton Canyon, southern Bay of Biscay

Sea-level change and free gas occurrence influencing a submarine landslide and pockmark formation and distribution in deepwater Nigeria

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