Tephra horizons identified in the western North Atlantic and Nordic Seas during the Last Glacial Period: Extending the marine tephra framework

Geochemically distinct volcanic ash (tephra) deposits are increasingly acknowledged as a key geochronological tool to synchronize independent paleoclimate archives. Recent advances in the detection of invisible (crypto) tephra have led to the ongoing establishment, development and integration of reg...

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Bibliographic Details
Published in:Quaternary Science Reviews
Main Authors: Rutledal, Sunniva, Berben, Sarah M.p., Dokken, Trond M., Van Der Bilt, Willem G.m., Cederstrøm, Jan Magne, Jansen, Eystein
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier BV 2020
Subjects:
Tephrochronology
Cryptotephra
Tephrostratigraphy
Tephra isochrons
FMAZ II
NAAZ II
Geochemistry
Paleoceanography
Marine sediment cores
Quaternary
North Atlantic Ocean
Irminger Sea
Iceland
Labrador Sea
Nordic Seas
North Atlantic
Sea ice
Online Access:https://archimer.ifremer.fr/doc/00614/72659/71665.pdf
https://archimer.ifremer.fr/doc/00614/72659/71666.pdf
https://archimer.ifremer.fr/doc/00614/72659/71667.xml
https://doi.org/10.1016/j.quascirev.2020.106247
https://archimer.ifremer.fr/doc/00614/72659/
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Summary:Geochemically distinct volcanic ash (tephra) deposits are increasingly acknowledged as a key geochronological tool to synchronize independent paleoclimate archives. Recent advances in the detection of invisible (crypto) tephra have led to the ongoing establishment, development and integration of regional tephra lattices. These frameworks offer an overview of the spatial extent of geochemically characterized tephra from dated eruptions – a valuable tool for precise correlation of paleorecords within these areas. Here, we harness cryptotephra analysis to investigate the occurrence of two well-known tephra markers from the Last Glacial Period (i.e. FMAZ II-1 (26.7 ka b2k) and NAAZ II (II-RHY-1) (55.3 ka b2k)), in marine sediment cores from the Nordic, Irminger and Labrador Seas. In addition, we assess the imprint of bioturbation on two of these tephra deposits using Computed Tomography (CT) imagery. We have successfully identified FMAZ II-1 in the Nordic and Irminger Seas. The tephra deposit is a visible deposit in the Nordic Seas, whereas it appears as a single high concentration peak within the fine-grained shard size fraction (i.e. 25-80 μm) in the Irminger Sea. Both horizons are primary airfall deposits, and this study is the first to identify a FMAZ II-1 deposit of isochronous nature in the Irminger Sea region. In addition, we have identified a new tephra horizon in the Irminger Sea, which is stratigraphically associated with FMAZ II-1, and geochemically similar to the known 2-JPC-192-1 population. We discuss its potential to serve as a new reference tie-point for correlations in the region. Lastly, we have successfully identified NAAZ II (II-RHY-1) of isochronous nature in both the Irminger and Labrador Sea. The layers are interpreted to be deposited by either direct airfall or by sea-ice drifting past the sites. Compared to the existing frameworks, which previously mainly focused on sites east of Iceland, our findings expand the knowledge and utility of the FMAZ II-1 and NAAZ II (II-RHY-1) horizons.

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