The 8.2‐ka BP event in north‐eastern North America: first combined oxygen and hydrogen isotopic data from peat in Newfoundland

ABSTRACT Finding direct evidence for atmospheric circulation change in terrestrial records of Holocene climate variability remains a fundamental challenge. Here we present the first combined stable oxygen and hydrogen isotopic palaeorecord from a peatland core in Newfoundland, Canada. Sphagnum cellu...

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Bibliographic Details
Published in:Journal of Quaternary Science
Main Authors: Daley, T. J., Barber, K. E., Hughes, P. D. M., Loader, N. J., Leuenberger, M., Street‐Perrott, F. A.
Other Authors: NERC RAPID, NERC PRECIP
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2016
Subjects:
Canada
Newfoundland
North Atlantic
Online Access:http://dx.doi.org/10.1002/jqs.2870
https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1002%2Fjqs.2870
https://onlinelibrary.wiley.com/doi/pdf/10.1002/jqs.2870
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Summary:ABSTRACT Finding direct evidence for atmospheric circulation change in terrestrial records of Holocene climate variability remains a fundamental challenge. Here we present the first combined stable oxygen and hydrogen isotopic palaeorecord from a peatland core in Newfoundland, Canada. Sphagnum cellulose samples were isolated from a core from Nordan's Pond Bog, Newfoundland, and analysed for δD values. Combined with existing δ 18 O data, the resulting δD/δ 18 O bi‐plot correlates directly with existing measurements of the modern (late 20th century) isotopic composition of precipitation from GNIP stations in Nova Scotia and Labrador, implying a close relationship between the estimated isotopic composition of source water used by the mosses and that of the source precipitation. We use the relative variations between the two isotope records to test the hypothesis that atmospheric circulation changed in the millennium following the 8.2‐ka BP climate event. The data reveal a secondary complex isotopic response ∼200 years (8250–8050 a BP) after a primary oxygen isotopic event that is widespread in the north Atlantic region. This secondary event is characterized by a divergence in oxygen and hydrogen isotope records that can most plausibly be explained by the augmentation of precipitation moisture from a more distant and more continental vapour source.

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