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Deep-time Arctic climate archives: high-resolution coring of Svalbard's sedimentary record – SVALCLIME, a workshop report.
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- Author(s): Senger, Kim1 (AUTHOR) ; Kulhanek, Denise2 (AUTHOR); Jones, Morgan T.3 (AUTHOR); Smyrak-Sikora, Aleksandra1 (AUTHOR); Planke, Sverre3,4 (AUTHOR); Zuchuat, Valentin5 (AUTHOR); Foster, William J.6 (AUTHOR); Grundvåg, Sten-Andreas7 (AUTHOR); Lorenz, Henning8 (AUTHOR); Ruhl, Micha9 (AUTHOR); Sliwinska, Kasia K.10 (AUTHOR); Vickers, Madeleine L.3 (AUTHOR); Xu, Weimu11 (AUTHOR)
- Source:
Scientific Drilling. Oct2023, Vol. 32, p113-135. 23p.
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- Subject Terms:
- Abstract:
We held the MagellanPlus workshop SVALCLIME "Deep-time Arctic climate archives: high-resolution coring of Svalbard's sedimentary record", from 18 to 21 October 2022 in Longyearbyen, to discuss scientific drilling of the unique high-resolution climate archives of Neoproterozoic to Paleogene age present in the sedimentary record of Svalbard. Svalbard is globally unique in that it facilitates scientific coring across multiple stratigraphic intervals within a relatively small area. The polar location of Svalbard for some of the Mesozoic and the entire Cenozoic makes sites in Svalbard highly complementary to the more easily accessible mid-latitude sites, allowing for investigation of the polar amplification effect over geological time. The workshop focused on how understanding the geological history of Svalbard can improve our ability to predict future environmental changes, especially at higher latitudes. This topic is highly relevant for the ICDP 2020–2030 Science Plan Theme 4 "Environmental Change" and Theme 1 "Geodynamic Processes". We concluded that systematic coring of selected Paleozoic, Mesozoic, and Paleogene age sediments in the Arctic should provide important new constraints on deep-time climate change events and the evolution of Earth's hydrosphere–atmosphere–biosphere system. We developed a scientific plan to address three main objectives through scientific onshore drilling on Svalbard: Investigate the coevolution of life and repeated icehouse–greenhouse climate transitions, likely forced by orbital variations, by coring Neoproterozoic and Paleozoic glacial and interglacial intervals in the Cryogenian ("Snowball/Slushball Earth") and late Carboniferous to early Permian time periods. Assess the impact of Mesozoic Large Igneous Province emplacement on rapid climate change and mass extinctions, including the end-Permian mass extinction, the end-Triassic mass extinction, the Jenkyns Event (Toarcian Oceanic Anoxic Event), the Jurassic Volgian Carbon Isotopic Excursion and the Cretaceous Weissert Event and Oceanic Anoxic Event 1a. Examine the early Eocene hothouse and subsequent transition to a coolhouse world in the Oligocene by coring Paleogene sediments, including records of the Paleocene–Eocene Thermal Maximum, the Eocene Thermal Maximum 2, and the Eocene–Oligocene transition. The SVALCLIME science team created plans for a 3-year drilling programme using two platforms: (1) a lightweight coring system for holes of ∼ 100 m length (4–6 sites) and (2) a larger platform that can drill deep holes of up to ∼ 2 km (1–2 sites). In situ wireline log data and fluid samples will be collected in the holes, and core description and sampling will take place at The University Centre in Svalbard (UNIS) in Longyearbyen. The results from the proposed scientific drilling will be integrated with existing industry and scientific boreholes to establish an almost continuous succession of geological environmental data spanning the Phanerozoic. The results will significantly advance our understanding of how the interplay of internal and external Earth processes are linked with global climate change dynamics, the evolution of life, and mass extinctions. [ABSTRACT FROM AUTHOR]
- Abstract:
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