Vertical grain-size variability within a turbidite levee: Autocyclicity or allocyclicity? A case study from the Rhône neofan, Gulf of Lions, Western Mediterranean

Dennielou, Bernard; Huchon, Agnès; Beaudouin, Célia; Berné, Serge

doi:10.1016/j.margeo.2006.09.019

Cited by 40 publications

(49 citation statements)

References 42 publications

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“…Coarse-grained and silt-sand deposits have already been reported in the study area (Méar and Gensous, 1993;Beaudouin et al, 2004;Bonnel et al, 2005;Dennielou et al, 2006) and interpreted as originating from the PRC and its prolongation as a turbiditic channel. Dispersal of spillover flows from the turbiditic neochannel is believed to be the main pathway until it ended around 15 000 14 C yr BP (low stand and initial stages of post-glacial) (Bonnel et al, 2005;Dennielou et al, 2006).…”

Section: Source Of Turbidite Bedsmentioning

confidence: 58%

“…Open circles indicate sediment cores. from the neochannel have stopped (Beaudouin et al, 2004;Bonnel et al, 2005;Dennielou et al, 2006). 12 kHz (EM12) and 30 kHz (EM300) multi-beam backscatter data, from previous studies (Droz, 1983;Bonnel et al, 2005) revealed two lobe-shaped adjacent areas at the outlet of the Sète canyon network and at the outlet of the La Fonera Canyon (LFC), with respectively heterogeneous low backscatter and lineated moderate backscatter (Droz et al, 2001;Bonnel et al, 2005) (Fig.…”

Section: Morpho-sedimentary Settingmentioning

confidence: 93%

“…Near the neochannel it is attributed to the Neofan Transparent Unit of Bonnel et al (2005). More details on this facies are found in Dennielou et al (2006). Facies 4 corresponds to silt-sand turbidites corresponding to Td term base cut out and top cut out Bouma sequences.…”

Section: Sediment Classification Facies and Sequencesmentioning

confidence: 98%

“…3). The source of sediment is believed to be the Rhône River (Beaudouin et al, 2004;Bonnel et al, 2005;Dennielou et al, 2006) but heavy minerals indicate an exclusive Languedoc-Pyrenees source mainly carried by the abundance of epidote and andalusite. Although important mixing from Languedocian and Pyrenean rivers cannot be discarded, the sieving at 50 µm has preferentially extracted a minor coarse fraction from this dominantly silty sample, and may have oversampled andalusite (Languedoc-Pyrenees source), that has a positive correlation with the grain-size and that is documented as rare or absent from the fine fractions (Duplaix, 1972), and under-sampled the aegirine-augite (Alps source), that has a negative correlation with the samples grain-size.…”

Section: Ascending Hierarchical Classification (Ahc) and Contributionmentioning

confidence: 99%

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Post-glacial persistence of turbiditic activity within the Rhône deep-sea turbidite system (Gulf of Lions, Western Mediterranean): Linking the outer shelf and the basin sedimentary records

et al. 2009

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Emplacement of post-glacial turbidites is commonly controlled by rapid changes in sea level or by seismicity. On the continental rise of the Gulf of Lions (Western Mediterranean), an aseismic area, we identified turbiditic beds deposited during the rising stage and highstand of sea level. Swath bathymetry, sediment cores, in situ Cone Penetrating Tests (CPTU), heavy mineral associations and radiocarbon dating determined the source, composition, distribution and age of the turbiditic beds. Turbidites are composed of homogeneous to positively graded silts to medium sand with quartz (up to 90%), shell debris and shelfal benthic faunas. Their distribution on the sea floor is very patchy and controlled by abundant inherited erosional bedforms. Their source is found in relict regressive sands at the outershelf. Their deposition occurred just after the onset of the post-glacial sea level rise and the concomitant sediment starvation of the Rhône deep sea turbiditic system until recently. Whilst canyons are fed with sand by strong seasonal hydro-sedimentary dynamics on the outershelf, the emplacement of post-glacial turbidites is not controlled by sea level changes but probably by the periodic flushing of the canyons. Our study revealed that this low energy aseismic margin undergoes significant transport of sand, down to the base of slope, during the sea-level rise and the Holocene highstand.

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Section: Source Of Turbidite Bedsmentioning

confidence: 58%

Section: Morpho-sedimentary Settingmentioning

confidence: 93%

Section: Sediment Classification Facies and Sequencesmentioning

confidence: 98%

Section: Ascending Hierarchical Classification (Ahc) and Contributionmentioning

confidence: 99%

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Post-glacial persistence of turbiditic activity within the Rhône deep-sea turbidite system (Gulf of Lions, Western Mediterranean): Linking the outer shelf and the basin sedimentary records

et al. 2009

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“…However, the sands are only deposited by flows that are suspending sand grains higher than the active levee crest, whereas muds are suspended above the levee crest during nearly every flow. Therefore, sandstone bed thickness is indicative of a single flow event, whereas the mud event bed boundaries are likely indistinguishable (Dennielou et al, 2006), producing higher characteristic mudstone bed thickness. The higher mudstone-thinning rate is due to the high degree of thin bedded sandstone beds lumping into a single mud bed, inability for complete sandstone correlation, and indistinguishable mudstone bed boundaries within the original panel creating a rapid mudstone bed thickness change and increased thinning rate.…”

Section: Lateral Event Bed Continuity Between Depositional Environmenmentioning

confidence: 99%

Quantification of the Bed-scale Architecture of Submarine Depositional Environments and Application to Lobe Deposits of the Point Loma Formation, California

Fryer¹

2018

Preprint

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Submarine-fan deposits form the largest sediment accumulations on Earth and host significant reservoirs for hydrocarbons. While many studies of ancient fan deposits qualitatively describe lateral architectural variability (e.g., axis-to-fringe, proximal-to-distal), these relationships are rarely quantified. In order to enable comparison of key relationships that control the lateral architecture of submarine depositional environments, we digitized published bed-scale outcrop correlation panels from five different environments (channel, levee, lobe, channel-lobe-transition-zone, basin plain). Measured architectural parameters (bed thickness, bed thinning rates, lateral correlation distance, net-to-gross) provide a quantitative framework to compare lithology architectures between environments. The results show that sandstone and/or mudstone bed thickness alone or net-to-gross do not reliably differentiate between environments. Lobe sub-environments display the most variability in all parameters, which could be partially caused by subjectivity of qualitative interpretations of environment and demonstrates the need for more quantitative studies of bed-scale heterogeneity. These results can be used to constrain forward stratigraphic models and reservoir models of submarine depositional environments.

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The critical role of stratification in submarine channels: Implications for channelization and long runout of flows

Dorrell

Darby

Peakall

et al. 2014

J. Geophys. Res. Oceans

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Channelized submarine gravity currents travel remarkable distances, transporting sediment to the distal reaches of submarine fans. However, the mechanisms by which flows can be sustained over these distances remain enigmatic. In this paper we consider two shallow water models the first assumes the flow is unstratified whilst the second uses empirical models to describe vertical stratification, which effects depth averaged mass and momentum transfer. The importance of stratification is elucidated through comparison of modeled flow dynamics. It is found that the vertically stratified model shows the best fit to field data from a channelized field-scale gravity current in the Black Sea. Moreover, the stratified flow is confined by the channel to a much greater degree than the flow in the unstratified model. However, both models fail to accurately represent flow dynamics in the distal end of the system, suggesting current empirical stratification models require improvement to accurately describe field-scale gravity currents. It also highlights the limitations of weakly stratified small-scale experiments in describing field-scale processes. The results suggest that in real-world systems stratification is likely to enable maintenance of velocity and discharge within the channel, thus facilitating sediment suspension over distances of hundreds of kilometers on low seafloor gradients. This explains how flows can travel remarkable distances and transport their sediment to the distal parts of submarine fans.

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Vertical grain-size variability within a turbidite levee: Autocyclicity or allocyclicity? A case study from the Rhône neofan, Gulf of Lions, Western Mediterranean

Cited by 40 publications

References 42 publications

Post-glacial persistence of turbiditic activity within the Rhône deep-sea turbidite system (Gulf of Lions, Western Mediterranean): Linking the outer shelf and the basin sedimentary records

Post-glacial persistence of turbiditic activity within the Rhône deep-sea turbidite system (Gulf of Lions, Western Mediterranean): Linking the outer shelf and the basin sedimentary records

Quantification of the Bed-scale Architecture of Submarine Depositional Environments and Application to Lobe Deposits of the Point Loma Formation, California

The critical role of stratification in submarine channels: Implications for channelization and long runout of flows

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