2020
DOI: 10.1016/j.margeo.2020.106160
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The influence of a slope break on turbidite deposits: An experimental investigation

Abstract: Bypassing turbidity currents travel downslope while depositing only a minor part of their suspended sediment load. Along the way, they may encounter a slope break (i.e. an abrupt decrease in slope angle) that initiates the deposition of sediment. Depending on their proximal initiation point, these turbiditic deposits in slope-break systems can form potential reservoirs for hydrocarbons. The present experimental study establishes the resulting turbidite deposits as a function of the geometry in a slope-break sy… Show more

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Cited by 37 publications
(57 citation statements)
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“…It is, therefore, common practice in geoscience to use scaled (“analog”) laboratory experiments with materials and geometries analogous to the geological materials and processes ( Kavanagh et al., 2018 ). Sedimentologists often study deposition and erosion processes in a laboratory flume (e.g., Baar et al., 2018 ; Pohl et al., 2020 ). Volcanologists use analog experiments to study all the various components of the magmatic system, from the magma reservoir ( Galland et al., 2014 ) and plumbing system ( Taisne et al., 2011 ) to eruptions and their products ( Del Bello et al., 2017 ; Iverson et al., 2010 ; Lev et al., 2019 ; Lube et al., 2015 ).…”
Section: Current Measurement Techniques Used To Study Geological Flowmentioning
confidence: 99%
See 2 more Smart Citations
“…It is, therefore, common practice in geoscience to use scaled (“analog”) laboratory experiments with materials and geometries analogous to the geological materials and processes ( Kavanagh et al., 2018 ). Sedimentologists often study deposition and erosion processes in a laboratory flume (e.g., Baar et al., 2018 ; Pohl et al., 2020 ). Volcanologists use analog experiments to study all the various components of the magmatic system, from the magma reservoir ( Galland et al., 2014 ) and plumbing system ( Taisne et al., 2011 ) to eruptions and their products ( Del Bello et al., 2017 ; Iverson et al., 2010 ; Lev et al., 2019 ; Lube et al., 2015 ).…”
Section: Current Measurement Techniques Used To Study Geological Flowmentioning
confidence: 99%
“…Although useful, such tools provide only a local measurement at a specific point and not a full picture of the entire flow.
Figure 1 Examples of Analog Experiments Simulating Geological Multiphase Flows, Showing Experimental Setups and Resulting Images and Measurements (A) Experimental setup of a flume experiment ( Pohl et al., 2020 ), where a mixture of sediments and fresh water is released into a water tank. Velocity is measured using an ultrasonic velocity probe (UVP) positioned above the flow.
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Section: Current Measurement Techniques Used To Study Geological Flowmentioning
confidence: 99%
See 1 more Smart Citation
“…Experimental turbidity currents reported by Eggenhuisen et al (2019) in the same flume showed that the same sediment as used in these experiments was bypassed by turbidity currents with a maximum velocity of 1.2 m/s with a slope flume floor of 8°. Pohl et al (2020) evidenced that flows were still bypassing with a slope of 6° slope. This is twice as fast as the maximum velocities measured in the beginning of the experiments in this study.…”
Section: Breach Stabilitymentioning
confidence: 97%
“…Specifically, here the relation between breaching failure evolution, the velocity of the generated turbidity current, and the occurrence of deposition and erosion in front of the failure was analysed. The slope of the floor in front of the failure was varied because this slope is commonly considered a primary control on turbidity current characteristics (Kneller, 2003;Stevenson et al, 2015;Pohl et al, 2020). Flow thickness, volumetric discharge, and rate of deposition were analysed in order to answer the question: How does the strength of the turbidity current relate to an evolving breaching failure?…”
Section: Introductionmentioning
confidence: 99%