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Abstract

AAPG Bulletin, V. 106, No. 4 (April 2022), P. 803-827.

Copyright © 2022. The American Association of Petroleum Geologists. All rights reserved.

DOI: 10.1306/10042120019

Enhancing the reliability of the magnetostratigraphic age assignment of azimuthally nonoriented drill cores by the integrated application of palaeomagnetic analysis, field tests, Previous HitanisotropyNext Hit of magnetic susceptibility, and the evolution of the endemic fauna as documented on the upper Miocene limnic deposits of the Turiec Basin (Western Carpathians)

Emő Márton,1 Radovan Pipík,2 Dušan Starek,3 Erika Kovács,4 Marina Vidhya,5 Anna Świerczewska,6 Antoni K. Tokarski,7 Rastislav Vojtko,8 and Silvia Schlögl9

1Palaeomagnetic Laboratory, Mining and Geological Survey of Hungary, Budapest, Hungary; [email protected]
2Earth Science Institute, Slovak Academy of Sciences, Banská Bystrica, Slovakia; [email protected]
3Earth Science Institute, Slovak Academy of Sciences, Bratislava, Slovakia; [email protected]
4Earth Science Institute, Slovak Academy of Sciences, Banská Bystrica, Slovakia; [email protected]
5Earth Science Institute, Slovak Academy of Sciences, Banská Bystrica, Slovakia; [email protected]
6Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Kraków, Poland; [email protected]
7Institute of Geological Sciences, Research Centre in Kraków, Polish Academy of Sciences, Kraków, Poland; [email protected]
8Department of Geology and Palaeontology, Faculty of Natural Sciences, Comenius University, Bratislava, Slovakia; [email protected]
9Department of Geology and Palaeontology, Faculty of Natural Sciences, Comenius University, Bratislava, Slovakia; [email protected]

ABSTRACT

This study aimed at the magnetostratigraphic age assignment of a 100-m-long drill core penetrating the Miocene lake sediments of the intramontane Turiec Basin of the Inner Western Carpathians and obtaining paleomagnetic constraints for the orientation of the basin during its development. Concerning the azimuthally nonoriented drill core, we documented first the consistency of the paleomagnetic signals, residing mostly in greigite, within “pilot” core segments, thus satisfying the minimum requirement for primary/early diagenetic magnetization. Next, all core segments were oriented with respect to each other by the means of silt intercalations in the mudstone and/or Previous HitanisotropyTop of magnetic susceptibility foliation planes. The result was a remarkable clustering of the paleomagnetic vectors. Finally, we proved the suitability of the drill core for magnetostratigraphic purpose with positive inclination only, conglomerate, and regional tilt tests. The latter included the azimuthally fully restored paleomagnetic locality mean direction for the core (fitting the bedding azimuth of the drill core to the one measured close to the drill site) and several geographically distributed localities in the Turiec Basin. Because the drill core was magnetized during a fairly long normal polarity interval, the age of deposition was estimated as 7.7–8.1 Ma, corresponding to chron C4n.2n, taking into consideration also the position of the drill core to a dated volcanic horizon and the gradual intralacustrine evolution of the endemic ostracode fauna. Concerning the orientation of the basin during deposition of the studied sediments, we concluded that they were deposited after the large-scale counterclockwise Miocene rotation of the Western Carpathians.

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