2013
DOI: 10.7306/gq.1128
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Sole structures as a tool for depositional environment interpretation; a case study

Abstract: . (2014) Sole struc tures as a tool for depositional en vi ron ment in ter pre ta tion; a case study from the Oligocene Cergowa Sand stone, Dukla Unit (Outer Carpathians, Slovakia). Geo log i cal Quar terly, 58 (1): 41-50, doi: 10.7306/gq.1128 Sole struc tures, typ i cally de vel oped on basal bed ding sur faces of turbidite sand stones, are com monly used as palaeocurrent in di ca tors and in di ca tors of the cur rent abil ity to erode. De tailed anal y sis of types and fre quency of sole struc tures in the … Show more

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Cited by 2 publications
(2 citation statements)
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“…1, also proposes that, as different morphological elements in submarine depositional systems can exhibit unique sets of flow and deposit types, sole marks may also store information on type of morphological element and distance along submarine depositional systems (cf. Dirnerová and Janočko 2014). The present paper provides field data from the deep-marine Aberystwyth Grits Group (Silurian, West Wales, U.K.) that, for the first time, critically assess the relationships between sole-mark type and flow properties, deposit type, and type of depositional environment that underpin the model of Peakall et al (2020), and use these relationships to aid process models for SGFs.…”
Section: Sole Marks: the Basicsmentioning
confidence: 99%
“…1, also proposes that, as different morphological elements in submarine depositional systems can exhibit unique sets of flow and deposit types, sole marks may also store information on type of morphological element and distance along submarine depositional systems (cf. Dirnerová and Janočko 2014). The present paper provides field data from the deep-marine Aberystwyth Grits Group (Silurian, West Wales, U.K.) that, for the first time, critically assess the relationships between sole-mark type and flow properties, deposit type, and type of depositional environment that underpin the model of Peakall et al (2020), and use these relationships to aid process models for SGFs.…”
Section: Sole Marks: the Basicsmentioning
confidence: 99%
“…The thickness of slide complex is about 3 m. It is directly succeeded by the HEB, which fills the uneven upper surface of the underlying olistostrome and cuts large grooves in the slide material (cf. Dirnerová & Janočko, 2014; Peakall et al ., 2020; Baas et al ., 2021). The second olistostrome is located about 100 m above the end point of the Szczawa/2 section (Fig.…”
Section: Resultsmentioning
confidence: 99%