Anisotropy of magnetic susceptibility as an indicator for palaeocurrent analysis in folded turbidites (Outer Western Carpathians, Poland)

Stachowska, Aleksandra; Łoziński, Maciej; Śmigielski, Michał; Wysocka, Anna; Jankowski, Leszek; Ziółkowski, Piotr

doi:10.1111/sed.12770

Cited by 12 publications

(5 citation statements)

References 59 publications

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“…[43]. The direction of the paleo-current inferred from the surrounding strata indicates a NE-SW-directed material transport [44]. This direction coincides with the orientation of the observed deformation, but the arrangement of grains indicates that the deformation overprinted the primary sedimentary microstructure.…”

Section: Microstructure Interpretation: a Case Studymentioning

confidence: 58%

Decoding Rocks: An Assessment of Geomaterial Microstructure Using X-ray Microtomography, Image Analysis and Multivariate Statistics

et al. 2021

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An understanding of the microstructure of geomaterials such as rocks is fundamental in the evaluation of their functional properties, as well as the decryption of their geological history. We present a semi-automated statistical protocol for a complex 3D characterization of the microstructure of granular materials, including the clustering of grains and a description of their chemical composition, size, shape, and spatial properties with 44 unique parameters. The approach consists of an X-ray microtomographic image processing procedure, followed by measurements using image analysis and statistical multivariate analysis of its results utilizing freeware and widely available software. The statistical approach proposed was tested out on a sandstone sample with hidden and localized deformational microstructures. The grains were clustered into distinctive groups covering different compositional and geometrical features of the sample’s granular framework. The grains are pervasively and evenly distributed within the analysed sample. The spatial arrangement of grains in particular clusters is well organized and shows a directional trend referring to both microstructures. The methodological approach can be applied to any other rock type and enables the tracking of microstructural trends in grains arrangement.

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Section: Microstructure Interpretation: a Case Studymentioning

confidence: 58%

Decoding Rocks: An Assessment of Geomaterial Microstructure Using X-ray Microtomography, Image Analysis and Multivariate Statistics

et al. 2021

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“…The filtration was based on the median and 25% and 75% quartiles. Samples above the level described by the formula Q3 + 1.5 × IQR, where Q3 is the 75% quartile, and IQR is the interquartile range between the 25% and 75% quartiles, were removed due to anomalously high values of the parameters (Hodge and Austin, 2004; Stachowska et al, 2020; Teodorski et al, 2021). The IQR outliers method is not dependent on abnormally high boundary values, unlike the standard deviation method.…”

Section: Methodsmentioning

confidence: 99%

The Pleistocene ice-sheet dynamics in north-central Poland based on magnetic fabrics of tills and landform analysis

Teodorski

2024

Quat. res.

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This research was carried out in north-central Poland, which was occupied by the ice sheet of the Saalian (Marine Isotope Stage [MIS] 6) and Upper Stadial of the Weichselian (MIS 2) glaciation. The application of the anisotropy of magnetic susceptibility (AMS) method supported by a digital elevation model (DEM) analysis of the orientation of glacial landforms allowed for the reconstruction of ice-sheet extent and ice movement directions of these two Pleistocene glaciations. The research used an innovative method of collecting AMS till samples from the glacial plateau areas. Based on the research, it was found that during the general recession of the ice sheet of the Saalian glaciation, a previously undescribed glacial transgression occurred, characterized by a different direction of ice-sheet movement. On the basis of detailed geomorphological studies of the area of terminal moraines, previously described in fragments, the maximum extent of the ice sheet during the Weichselian glaciation was clarified. The recession of the ice sheet of the Weichselian glaciation from the area of north-central Poland took place in four regressive or transgressive–regressive stages with variable directions of ice-sheet movement. The results obtained indicate the great potential of the AMS method in paleoenvironmental studies of glaciated areas.

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“…Parameters ε 12 and ε 23 are used to evaluate the statistical significance of L and F , where ε 12 is the confidence angle of K max in the plane joining K max and K int , and ε 23 is the confidence angle of K int in the plane joining K int and K min , following the approach of Lagroix & Banerjee (2004). For simplicity, this study considers the larger of the two confidence angles calculated for both the K max and K int axes, with their confidence angles denoted as ε 12 and ε 23 , respectively (Stachowska et al ., 2020). These confidence angles are used to arbitrarily classify L (ε 12 ) and F (ε 23 ) as follows: ε < 45° (defined) and ε > 45° (absent; Lagroix & Banerjee, 2004; Stachowska et al ., 2020).…”

Section: Methodsmentioning

confidence: 99%

“…For simplicity, this study considers the larger of the two confidence angles calculated for both the K max and K int axes, with their confidence angles denoted as ε 12 and ε 23 , respectively (Stachowska et al ., 2020). These confidence angles are used to arbitrarily classify L (ε 12 ) and F (ε 23 ) as follows: ε < 45° (defined) and ε > 45° (absent; Lagroix & Banerjee, 2004; Stachowska et al ., 2020). All of the above parameters and experimental results were corrected, counted and calculated using the Anisoft‐4.2 and Safyr software packages (AGICO; Constable & Tauxe, 1990).…”

Section: Methodsmentioning

confidence: 99%

Middle Ordovician bottom current deposits in the western margin of the North China craton: Evidence from sedimentary and magnetic fabrics

et al. 2022

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In many modern deep‐water slope environments, deposits formed by bottom currents (contourites) are rather common. However, reports on ancient contourites in deep‐water environments are scarce and most of them remain contentious. Based on the study of high‐resolution sedimentological, sedimentary geological and magnetic fabric characteristics, this study presents the key evidence of bottom current activity in the Middle Ordovician Kelimoli Formation from the western margin of the North China craton, and reconstructs the deep‐sea circulation pattern and the direction of deep‐water bottom currents in the middle and low latitudes during the Middle Ordovician. Six typical carbonate microfacies are identified in the Kelimoli Formation, which can be grouped into three sedimentary facies types related to the main interpreted depositional processes (bottom current, undifferentiated bottom current and hemipelagic settling, and hemipelagic settling). The evidence of bottom current deposits are five‐fold. Firstly, it is possible to observe a variety of traction current structures, which mainly represent bed‐load‐dominated transport of sediments. Secondly, there are multi‐scale inverse grading and bi‐grading, as well as inversely‐graded and normally‐graded sedimentary sequences, which reflect the periodic change of bottom current activity. Thirdly, gradual or sharp contact boundaries and small internal erosional surfaces indicate omission surfaces caused by the oscillating variation of bottom current velocity. Fourthly, the continuous rhythmic change of sedimentary fabrics on the microscopic scale reflects sustained, waxing and waning current intensities. Fifthly, the anisotropy of magnetic susceptibility reveals the microscopic fabric characteristics of imbricated magnetic grains, which represent the continuous action of directional current, and the restored palaeocurrent direction indicates that the current is mainly parallel to the slope strike. After the palaeo‐north correction of the North China craton clockwise rotation of 120° to 150° since the Ordovician, anisotropy of magnetic susceptibility shows that the direction of bottom current in the study area is towards the north‐east/east. Therefore, it is speculated that there was a clockwise deep‐water circulation in the middle and low latitudes of the southern hemisphere during the Ordovician. This study not only provides sedimentological evidence for the Ordovician bottom current activity, but also contributes to a better understanding of the Ordovician palaeoceanographical environment, especially the Middle Ordovician deep‐sea circulation pattern.

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Anisotropy of magnetic susceptibility as an indicator for palaeocurrent analysis in folded turbidites (Outer Western Carpathians, Poland)

Cited by 12 publications

References 59 publications

Decoding Rocks: An Assessment of Geomaterial Microstructure Using X-ray Microtomography, Image Analysis and Multivariate Statistics

Decoding Rocks: An Assessment of Geomaterial Microstructure Using X-ray Microtomography, Image Analysis and Multivariate Statistics

The Pleistocene ice-sheet dynamics in north-central Poland based on magnetic fabrics of tills and landform analysis

Middle Ordovician bottom current deposits in the western margin of the North China craton: Evidence from sedimentary and magnetic fabrics

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