Correlation of marine (super 14) C ages from the Nordic Seas with the GISP2 isotope record; implications for (super 14) C calibration beyond 25 ka BP.

We present two new high-resolution sediment records from the southwestern Iceland and Norwegian Seas that were dated by numerous (super 14) C ages up to 54 (super 14) C ka BP. Based on various lines of evidence, the local (super 14) C reservoir effect was restricted to 400-1600 yr. The planktic stab...

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Main Authors: Voelker, Antje L, Sarnthein, Michael, Grootes, Pieter M, Erlenkeuser, Helmut, Laj, Carlo, Mazaud, Alain, Nadeau, Marie Josee, Schleicher, Markus
Format: Article in Journal/Newspaper
Language:English
Published: Radiocarbon 1998
Subjects:
Heinrich events;Norwegian Sea;paleoatmosphere;meltwater;Arctic Ocean;O 18 O 16;Earth;GISP2;magnetic field;cores;Atlantic Ocean;calibration;oxygen;marine environment;marine sediments;Foraminifera;Protista;isotope ratios;microfossils;Pleistocene;sediments;Cenozoic;Quaternary;C 14;carbon;dates;isotopes;radioactive isotopes;Invertebrata;stable isotopes;absolute age
Arctic
Arctic Ocean
Norwegian Sea
Foraminifera*
ice core
Iceland
Nordic Seas
Online Access:https://journals.uair.arizona.edu/index.php/radiocarbon/article/view/2038
id ftunivarizonaojs:oai:journals.uair.arizona.edu:article/2038
record_format openpolar
spelling ftunivarizonaojs:oai:journals.uair.arizona.edu:article/2038 2023-05-15T15:16:39+02:00 Correlation of marine (super 14) C ages from the Nordic Seas with the GISP2 isotope record; implications for (super 14) C calibration beyond 25 ka BP. Voelker, Antje L Sarnthein, Michael Grootes, Pieter M Erlenkeuser, Helmut Laj, Carlo Mazaud, Alain Nadeau, Marie Josee Schleicher, Markus 1998-01-01 application/pdf https://journals.uair.arizona.edu/index.php/radiocarbon/article/view/2038 eng eng Radiocarbon https://journals.uair.arizona.edu/index.php/radiocarbon/article/view/2038/2041 https://journals.uair.arizona.edu/index.php/radiocarbon/article/view/2038 Radiocarbon; Vol 40, No 1 (1998); 517-534 0033-8222 Heinrich events;Norwegian Sea;paleoatmosphere;meltwater;Arctic Ocean;O 18 O 16;Earth;GISP2;magnetic field;cores;Atlantic Ocean;calibration;oxygen;marine environment;marine sediments;Foraminifera;Protista;isotope ratios;microfossils;Pleistocene;sediments;Cenozoic;Quaternary;C 14;carbon;dates;isotopes;radioactive isotopes;Invertebrata;stable isotopes;absolute age info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed Article 1998 ftunivarizonaojs 2020-11-14T16:07:56Z We present two new high-resolution sediment records from the southwestern Iceland and Norwegian Seas that were dated by numerous (super 14) C ages up to 54 (super 14) C ka BP. Based on various lines of evidence, the local (super 14) C reservoir effect was restricted to 400-1600 yr. The planktic stable isotope records reveal several meltwater spikes that were sampled with an average time resolution of 50 yr in PS2644 and 130 yr in core 23071 during isotope stage 3. Most of the delta (super 18) O spikes correlate peak-by-peak to the stadials and cold rebounds of the Dansgaard-Oeschger cycles in the annual-layer counted GISP2 ice core, with the major spikes reflecting the Heinrich events 1-6. This correlation indicates large fluctuations in the calibration of (super 14) C ages between 20 and 54 (super 14) C ka BP. Generally the results confirm the (super 14) C age shifts as predicted by the geomagnetic model of Laj, Mazaud and Duplessy (1996). However, the amplitude and speed of the abrupt decrease and subsequent major increase of our (super 14) C shifts after 45 (super 14) C ka BP clearly exceed the geomagnetic prediction near 40-43 and 32-34 calendar (cal) ka BP. At these times, the geomagnetic field intensity minima linked to the Laschamp and the Mono Lake excursions and confirmed by a local geomagnetic record, probably led to a sudden increase in cosmogenic (super 14) C and (super 10) Be production, giving rise to excess (super 14) C in the atmosphere of up to 1200 per mil. Article in Journal/Newspaper Arctic Arctic Ocean Foraminifera* ice core Iceland Nordic Seas Norwegian Sea Journals at the University of Arizona Arctic Arctic Ocean Norwegian Sea
institution Open Polar
collection Journals at the University of Arizona
op_collection_id ftunivarizonaojs
language English
topic Heinrich events;Norwegian Sea;paleoatmosphere;meltwater;Arctic Ocean;O 18 O 16;Earth;GISP2;magnetic field;cores;Atlantic Ocean;calibration;oxygen;marine environment;marine sediments;Foraminifera;Protista;isotope ratios;microfossils;Pleistocene;sediments;Cenozoic;Quaternary;C 14;carbon;dates;isotopes;radioactive isotopes;Invertebrata;stable isotopes;absolute age
spellingShingle Heinrich events;Norwegian Sea;paleoatmosphere;meltwater;Arctic Ocean;O 18 O 16;Earth;GISP2;magnetic field;cores;Atlantic Ocean;calibration;oxygen;marine environment;marine sediments;Foraminifera;Protista;isotope ratios;microfossils;Pleistocene;sediments;Cenozoic;Quaternary;C 14;carbon;dates;isotopes;radioactive isotopes;Invertebrata;stable isotopes;absolute age
Voelker, Antje L
Sarnthein, Michael
Grootes, Pieter M
Erlenkeuser, Helmut
Laj, Carlo
Mazaud, Alain
Nadeau, Marie Josee
Schleicher, Markus
Correlation of marine (super 14) C ages from the Nordic Seas with the GISP2 isotope record; implications for (super 14) C calibration beyond 25 ka BP.
topic_facet Heinrich events;Norwegian Sea;paleoatmosphere;meltwater;Arctic Ocean;O 18 O 16;Earth;GISP2;magnetic field;cores;Atlantic Ocean;calibration;oxygen;marine environment;marine sediments;Foraminifera;Protista;isotope ratios;microfossils;Pleistocene;sediments;Cenozoic;Quaternary;C 14;carbon;dates;isotopes;radioactive isotopes;Invertebrata;stable isotopes;absolute age
description We present two new high-resolution sediment records from the southwestern Iceland and Norwegian Seas that were dated by numerous (super 14) C ages up to 54 (super 14) C ka BP. Based on various lines of evidence, the local (super 14) C reservoir effect was restricted to 400-1600 yr. The planktic stable isotope records reveal several meltwater spikes that were sampled with an average time resolution of 50 yr in PS2644 and 130 yr in core 23071 during isotope stage 3. Most of the delta (super 18) O spikes correlate peak-by-peak to the stadials and cold rebounds of the Dansgaard-Oeschger cycles in the annual-layer counted GISP2 ice core, with the major spikes reflecting the Heinrich events 1-6. This correlation indicates large fluctuations in the calibration of (super 14) C ages between 20 and 54 (super 14) C ka BP. Generally the results confirm the (super 14) C age shifts as predicted by the geomagnetic model of Laj, Mazaud and Duplessy (1996). However, the amplitude and speed of the abrupt decrease and subsequent major increase of our (super 14) C shifts after 45 (super 14) C ka BP clearly exceed the geomagnetic prediction near 40-43 and 32-34 calendar (cal) ka BP. At these times, the geomagnetic field intensity minima linked to the Laschamp and the Mono Lake excursions and confirmed by a local geomagnetic record, probably led to a sudden increase in cosmogenic (super 14) C and (super 10) Be production, giving rise to excess (super 14) C in the atmosphere of up to 1200 per mil.
format Article in Journal/Newspaper
author Voelker, Antje L
Sarnthein, Michael
Grootes, Pieter M
Erlenkeuser, Helmut
Laj, Carlo
Mazaud, Alain
Nadeau, Marie Josee
Schleicher, Markus
author_facet Voelker, Antje L
Sarnthein, Michael
Grootes, Pieter M
Erlenkeuser, Helmut
Laj, Carlo
Mazaud, Alain
Nadeau, Marie Josee
Schleicher, Markus
author_sort Voelker, Antje L
title Correlation of marine (super 14) C ages from the Nordic Seas with the GISP2 isotope record; implications for (super 14) C calibration beyond 25 ka BP.
title_short Correlation of marine (super 14) C ages from the Nordic Seas with the GISP2 isotope record; implications for (super 14) C calibration beyond 25 ka BP.
title_full Correlation of marine (super 14) C ages from the Nordic Seas with the GISP2 isotope record; implications for (super 14) C calibration beyond 25 ka BP.
title_fullStr Correlation of marine (super 14) C ages from the Nordic Seas with the GISP2 isotope record; implications for (super 14) C calibration beyond 25 ka BP.
title_full_unstemmed Correlation of marine (super 14) C ages from the Nordic Seas with the GISP2 isotope record; implications for (super 14) C calibration beyond 25 ka BP.
title_sort correlation of marine (super 14) c ages from the nordic seas with the gisp2 isotope record; implications for (super 14) c calibration beyond 25 ka bp.
publisher Radiocarbon
publishDate 1998
url https://journals.uair.arizona.edu/index.php/radiocarbon/article/view/2038
geographic Arctic
Arctic Ocean
Norwegian Sea
geographic_facet Arctic
Arctic Ocean
Norwegian Sea
genre Arctic
Arctic Ocean
Foraminifera*
ice core
Iceland
Nordic Seas
Norwegian Sea
genre_facet Arctic
Arctic Ocean
Foraminifera*
ice core
Iceland
Nordic Seas
Norwegian Sea
op_source Radiocarbon; Vol 40, No 1 (1998); 517-534
0033-8222
op_relation https://journals.uair.arizona.edu/index.php/radiocarbon/article/view/2038/2041
https://journals.uair.arizona.edu/index.php/radiocarbon/article/view/2038
_version_ 1766346948644700160

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