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Cenozoic deposits of western Kotel’nyi Island (New Siberian Islands) : key insights into the tectonic evolution of the Laptev Sea. / Ershova, Victoria; Drachev, Sergey; Prokopiev, Andrei; Khudoley, Andrei; Vasiliev, Dmitry; Aleksandrova, Galina.

In: International Geology Review, 04.08.2022.

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@article{09506c89536b4b63b1cd034c5f531860,
title = "Cenozoic deposits of western Kotel{\textquoteright}nyi Island (New Siberian Islands): key insights into the tectonic evolution of the Laptev Sea",
abstract = "The Arctic sedimentary basins are still poorly studied in comparison with other regions. The lack of deep wells across the eastern Russian Arctic has resulted in numerous contrasting geodynamic models for the geological evolution and age of sedimentary successions within this frontier region, where a modern mid-ocean ridge breaks through the continental crust in the Laptev Sea. The only onshore evidence of rifting processes is a number of small graben-like depressions exposed on the New Siberian Islands and along the Laptev Sea coast. We present U-Pb detrital zircon provenance and palynology study results of the Cenozoic sedimentary rocks filling graben-like depressions across western Kotel{\textquoteright}nyi Island. Palynological data indicate that these sedimentary rocks are Early Eocene to Pleistocene in age. Based on U-Pb detrital zircon dating, Early Eocene and Late Oligocene clastic sediments were sourced from underlying deformed Palaeozoic rocks as well as by reworking of Upper Mesozoic rocks outcropping elsewhere on Kotel{\textquoteright}nyi Island, which bear Siberian signature. Plio-Pleistocene clastic sediments were not derived from the erosion of deformed Palaeozoic rocks, suggesting the cessation of active uplift by this time and the development of a regional peneplain. Therefore, by extrapolating our onshore observations to the neighbouring offshore, we propose that graben structures imaged by seismic profiles along the eastern flank of the Laptev Rift System are likely to host Eocene and Oligocene sediments. Thus, it implies the Cenozoic extension led to formation of grabens on- and offshore in the eastern portion of Laptev Sea as early as Eocene. Further studies are necessary to evaluate the age of graben-related basins in the central and western part of the Laptev Sea.",
keywords = "Arctic, Cenozoic, Laptev Sea, New Siberian Islands, rifts",
author = "Victoria Ershova and Sergey Drachev and Andrei Prokopiev and Andrei Khudoley and Dmitry Vasiliev and Galina Aleksandrova",
note = "Publisher Copyright: {\textcopyright} 2022 Informa UK Limited, trading as Taylor & Francis Group.",
year = "2022",
month = aug,
day = "4",
doi = "10.1080/00206814.2022.2103846",
language = "English",
journal = "International Geology Review",
issn = "0020-6814",
publisher = "Taylor & Francis",

}

RIS

TY - JOUR

T1 - Cenozoic deposits of western Kotel’nyi Island (New Siberian Islands)

T2 - key insights into the tectonic evolution of the Laptev Sea

AU - Ershova, Victoria

AU - Drachev, Sergey

AU - Prokopiev, Andrei

AU - Khudoley, Andrei

AU - Vasiliev, Dmitry

AU - Aleksandrova, Galina

N1 - Publisher Copyright: © 2022 Informa UK Limited, trading as Taylor & Francis Group.

PY - 2022/8/4

Y1 - 2022/8/4

N2 - The Arctic sedimentary basins are still poorly studied in comparison with other regions. The lack of deep wells across the eastern Russian Arctic has resulted in numerous contrasting geodynamic models for the geological evolution and age of sedimentary successions within this frontier region, where a modern mid-ocean ridge breaks through the continental crust in the Laptev Sea. The only onshore evidence of rifting processes is a number of small graben-like depressions exposed on the New Siberian Islands and along the Laptev Sea coast. We present U-Pb detrital zircon provenance and palynology study results of the Cenozoic sedimentary rocks filling graben-like depressions across western Kotel’nyi Island. Palynological data indicate that these sedimentary rocks are Early Eocene to Pleistocene in age. Based on U-Pb detrital zircon dating, Early Eocene and Late Oligocene clastic sediments were sourced from underlying deformed Palaeozoic rocks as well as by reworking of Upper Mesozoic rocks outcropping elsewhere on Kotel’nyi Island, which bear Siberian signature. Plio-Pleistocene clastic sediments were not derived from the erosion of deformed Palaeozoic rocks, suggesting the cessation of active uplift by this time and the development of a regional peneplain. Therefore, by extrapolating our onshore observations to the neighbouring offshore, we propose that graben structures imaged by seismic profiles along the eastern flank of the Laptev Rift System are likely to host Eocene and Oligocene sediments. Thus, it implies the Cenozoic extension led to formation of grabens on- and offshore in the eastern portion of Laptev Sea as early as Eocene. Further studies are necessary to evaluate the age of graben-related basins in the central and western part of the Laptev Sea.

AB - The Arctic sedimentary basins are still poorly studied in comparison with other regions. The lack of deep wells across the eastern Russian Arctic has resulted in numerous contrasting geodynamic models for the geological evolution and age of sedimentary successions within this frontier region, where a modern mid-ocean ridge breaks through the continental crust in the Laptev Sea. The only onshore evidence of rifting processes is a number of small graben-like depressions exposed on the New Siberian Islands and along the Laptev Sea coast. We present U-Pb detrital zircon provenance and palynology study results of the Cenozoic sedimentary rocks filling graben-like depressions across western Kotel’nyi Island. Palynological data indicate that these sedimentary rocks are Early Eocene to Pleistocene in age. Based on U-Pb detrital zircon dating, Early Eocene and Late Oligocene clastic sediments were sourced from underlying deformed Palaeozoic rocks as well as by reworking of Upper Mesozoic rocks outcropping elsewhere on Kotel’nyi Island, which bear Siberian signature. Plio-Pleistocene clastic sediments were not derived from the erosion of deformed Palaeozoic rocks, suggesting the cessation of active uplift by this time and the development of a regional peneplain. Therefore, by extrapolating our onshore observations to the neighbouring offshore, we propose that graben structures imaged by seismic profiles along the eastern flank of the Laptev Rift System are likely to host Eocene and Oligocene sediments. Thus, it implies the Cenozoic extension led to formation of grabens on- and offshore in the eastern portion of Laptev Sea as early as Eocene. Further studies are necessary to evaluate the age of graben-related basins in the central and western part of the Laptev Sea.

KW - Arctic

KW - Cenozoic

KW - Laptev Sea

KW - New Siberian Islands

KW - rifts

UR - http://www.scopus.com/inward/record.url?scp=85135513160&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/43cd46a9-4c4c-3963-800e-c5bc6545ecaf/

U2 - 10.1080/00206814.2022.2103846

DO - 10.1080/00206814.2022.2103846

M3 - Article

AN - SCOPUS:85135513160

JO - International Geology Review

JF - International Geology Review

SN - 0020-6814

ER -

ID: 99585645