2020
DOI: 10.3389/feart.2020.00219
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Sedimentary Architecture of Storm-Influenced Tidal Flat Deposits of the Upper Mulichinco Formation, Neuquén Basin, Argentina

Abstract: This study reports on the Lower Cretaceous upper Mulichinco Formation in the Neuquén Basin, west-central Argentina. The studied succession comprises shallow marine strata, deposited in a mixed wave and tidal flat environment where ebb-tidal currents dominated. We describe mixed storm-and tide-influenced deposits within progradationally stacked high-frequency sequences and discuss process interaction, sediment dispersal, and preservation potential. These storm and tidal deposits mix spatially on bed, bedset, an… Show more

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Cited by 10 publications
(11 citation statements)
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“…6a, 6b; 7) than on the more open EMSS, indicating that the funnelling of the basin had a stronger impact on the simulated flow speed and the bed shear stress values than on the tidal amplitude. The corollary of these flow speed and bed shear stress spatial variations would be reflected in the rock record, characterised by different sediment grain sizes (Yalin & Karahan, 1979;van Rijn, 1993;Ward et al, 2015; and different sedimentary architecture (Hori et al, 2002;Costas et al, 2011, Sleveland et al, 2020 despite the similar tidal amplitudes.…”
Section: Fig 6 -Simulation Results For the 600 M Pbc A)mentioning
confidence: 99%
“…6a, 6b; 7) than on the more open EMSS, indicating that the funnelling of the basin had a stronger impact on the simulated flow speed and the bed shear stress values than on the tidal amplitude. The corollary of these flow speed and bed shear stress spatial variations would be reflected in the rock record, characterised by different sediment grain sizes (Yalin & Karahan, 1979;van Rijn, 1993;Ward et al, 2015; and different sedimentary architecture (Hori et al, 2002;Costas et al, 2011, Sleveland et al, 2020 despite the similar tidal amplitudes.…”
Section: Fig 6 -Simulation Results For the 600 M Pbc A)mentioning
confidence: 99%
“…Third, due to the fact that wave size above shallowly submerged tidal flats is mainly a function of water depth, wave energy at any point on the tidal flat will change rapidly over each tidal cycle (namely tidal modulation of wave energy). Such depositional processes are attributed with forming two unique sedimentary deposits: wave bundles (Yang et al 2008a) and tidally modulated storm deposits (Vaucher et al 2017;Yang and Chang 2018;Sleveland et al 2020) as a result of the interaction of waves and reversing tidal currents over a single tidal cycle. Tidally modulated storm deposits (Vaucher et al 2017) and wave bundles also form in TMS.…”
Section: ) Bedforms / Sedimentary Structuresmentioning
confidence: 99%
“…Tidal shorefaces interpreted from the rock record (Table 1) have been identified either by recognizing the interbedding of clear tidal and wave/storm signatures in the deposits (Basilici et al 2012;Wei et al 2016;Bádenas et al 2018;Kalifi et al 2020;Sleveland et al 2020) and/or by documenting tidal modulation of wave processes (Smosna and Bruner 2016;Vaucher et al 2017Vaucher et al , 2018aVaucher et al , 2020MacNaughton et al 2019;Angus et al 2020). Tidal signatures used in these studies include tidal bundles, herringbone structures, lenticular, wavy, and flaser bedding, and mud drapes (Fig.…”
Section: Rock Record Expressions Of Tidal Shorefacesmentioning
confidence: 99%
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