Grain-size characterization of Amazon Fan deposits and comparison to seismic facies units

Manley, P. L.; Pirmez, Carlos; Busch, W.H.; Cramp, A.

doi:10.2973/odp.proc.sr.155.209.1997

Cited by 47 publications

(51 citation statements)

References 22 publications

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“…Cronin et al, 2000;Kane et al, 2007). This has been interpreted either as a consequence of a temporal decrease in magnitude and /or frequency of the turbidity currents (Walker, 1985;Manley et al, 1997;Normark and Damuth, 1997;Beaubouef, 2004), or more simply as the result of the growth of the levee over time (e.g. (Hiscott et al, 1997).…”

Section: External Levee Facies and Vertical Variationsmentioning

confidence: 97%

“…Savoye et al 2009). They are a product of over-spill of turbidity currents from an adjacent channel and over time increase in relief above the channel floor, both due to levee aggradation and channel down-cutting; they also tend to prograde into the basin as the channel-lobe transition advances, so that levees commonly overlie lobes/frontal splays (or high amplitude reflection packets -HARPs -in seismic data (Manley et al, 1997)) (e.g. Buffington 1952;Piper & Normark 1983;Hiscott et al 1997;Normark & Damuth 1997;Piper & Deptuck 1997;Peakall et al 2000;Skene et al 2002;Deptuck et al 2003;Kane et al 2007;Meiburg & Kneller 2010;Kane & Hodgson 2011;Nakajima & Kneller 2012;Morris et al 2014).…”

Section: External Leveesmentioning

confidence: 99%

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Genesis and character of thin-bedded turbidites associated with submarine channels

Hansen

Callow

Kane

et al. 2015

Marine and Petroleum Geology

112

129

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Submarine channel related thin-bedded turbidites are deposited in environments such as external levees, internal levees, depositional terraces and at times of channel abandonment.Thin-bedded turbidites are defined as beds that are less than 10cm thick, but the described environments can at times contain beds up to 50cm thick which would be classified as medium or thick-bedded (Boggs, 2006). This paper addresses many examples of these environments from the modern seafloor, outcrop and the subsurface to suggest criteria that assist in the differentiation of levees and terraces from an architectural, sedimentological, M A N U S C R I P T A C C E P T E D ACCEPTED MANUSCRIPT 2 ichnological and hydrocarbon reservoir perspective. External levees confine channel belts and are elongate sedimentary deposits that are a product of over-spill of turbidity currents from the channel belt they confine. External levees often have predictable vertical, lateral and downstream changes but can commonly be modified by collapse of the inner external levee into the channel, collapse on the outer external levee, sediment waves, and interaction of external levees with topographic features such as other channels, other external levees, basin margins or previous slump/slide blocks, which can greatly modify the sand distribution within them.A combination of internal levees, depositional terraces and slide blocks of external levee sediment make up thin-bedded turbidites within channel belts. We differentiate between wedge shaped internal levees and topographically flat or subdued depositional terraces whose differing geometries and sand distribution reflect the fact that the flow processes involved in the formation of these deposits are different. The characteristic wedge shape of an internal levee requires sufficient space within the channel belt for the over-spilling current to decelerate and deposit the majority of its suspended sediment before reaching the bounding topography of the channel belt. In the case of depositional terraces the space available in the channel belt is insufficient for the current to deposit the majority of its sediment before reaching the bounding topography of the channel belt, creating confined sheet-like deposits.External levees, internal levees and depositional terraces have distinct sedimentological characteristics such as sand bed thickness trends and sedimentary structures that can be used to distinguish them. Together with sedimentological characteristics, in some systems these thin-bedded turbidite deposits contain distinctive trace fossil assemblages, where channel proximal deposits such as proximal external levees, internal levees and depositional terraces M A N U S C R I P T A C C E P T E D ACCEPTED MANUSCRIPT 3 can have much higher biodiversity than sand-rich channel axes and more mud-dominated outer external levees.The depositional sites for internal levees and depositional terraces within channel belts can be formed by various processes such as entrenchment, point bar accretion, meander bend cutoff, ...

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Section: External Levee Facies and Vertical Variationsmentioning

confidence: 97%

Section: External Leveesmentioning

confidence: 99%

Genesis and character of thin-bedded turbidites associated with submarine channels

Hansen

Callow

Kane

et al. 2015

Marine and Petroleum Geology

112

129

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“…The Danube fan is a large mud-rich fan, essentially composed of a succession of stacked channel-levee systems that are emplaced during successive sea-level lowstands (Wong et al, 1994;Popescu et al, 2001). Typically, channel-levee systems in mud-rich fans are lenticular sedimentary units with coarse-grained sediments at the channel axis, and finergrained, well-stratified alternations of sand and mud in the lateral levees (Manley et al, 1997;Normark et al, 1997). Only one channel-levee system in the Danube fan was active at a time.…”

Section: Regional Backgroundmentioning

confidence: 99%

Multiple bottom-simulating reflections in the Black Sea: Potential proxies of past climate conditions

et al. 2006

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A previously unknown pattern of multiple bottom-simulating reflections (BSRs) occurs on high-resolution reflection seismic data in the Danube deep-sea fan, associated with acoustic features indicating free gas. Our study provides evidence that this pattern is developed in relation with the architecture of distinct channel-levee systems of the Danube fan. Channel-levee systems hosting multiple BSRs act as relatively sealed gas-bearing systems whose top is situated above the base of the gas hydrate stability zone (BGHSZ). Inside these systems, free gas accumulates below the BGHSZ under a combined lithological, structural and stratigraphical control.The uppermost BSR marks the current equilibrium BGHSZ, for a gas composition of more than 99% methane. Model-derived depths of the BGHSZ for different gas compositions and pressure-temperature conditions show that multiple BSRs would correspond to the BGHSZ either for (1) layers of gas hydrates with high contents of heavy hydrocarbons or hydrogen sulphide, or (2) stable climatic episodes with temperatures between glacial values and the present-day conditions. As the gas hydrate compositions required by hypothesis (1) are in sharp contradiction with the general background of the gas composition in the study area, we suggest that multiple BSRs are most probably relics of former positions of the BGHSZ, corresponding to successive steps of climate warming. In this case, they can provide sea-bottom paleotemperature values for these episodes, and hence they are potential new proxies for deciphering past climate conditions.

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“…They act as conduits through which clastic sediment is transported into the deep sea, and they provide confining and sorting mechanisms that allow sand to reach the basin plain. Channel-levee systems also form important repositories for coarse-grained sediment deposited along channel-axes (Bouma et al, 1985;Manley, Pirmez, Busch, & Cramp, 1997) and for fine-grained sands and silts deposited on levees (Hiscott, Hall, & Pirmez 1997;Piper & Deptuck, 1997). For these reasons, the architecture and evolution of channel-levee systems are of interest to the petroleum industry.…”

Section: Introductionmentioning

confidence: 99%

Architecture and evolution of upper fan channel-belts on the Niger Delta slope and in the Arabian Sea

Deptuck

Steffens

Barton

et al. 2003

Marine and Petroleum Geology

354

372

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Grain-size characterization of Amazon Fan deposits and comparison to seismic facies units

Cited by 47 publications

References 22 publications

Genesis and character of thin-bedded turbidites associated with submarine channels

Genesis and character of thin-bedded turbidites associated with submarine channels

Multiple bottom-simulating reflections in the Black Sea: Potential proxies of past climate conditions

Architecture and evolution of upper fan channel-belts on the Niger Delta slope and in the Arabian Sea

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