Dynamic intermediate ocean circulation in the North Atlantic during Heinrich Stadial 1:A radiocarbon and neodymium isotope perspective

The last deglaciation was characterized by a series of millennial-scale climate events that have been linked to deep ocean variability. While often implied in interpretations, few direct constraints exist on circulation changes at mid-depths. Here we provide new constraints on the variability of deg...

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Bibliographic Details
Published in:Paleoceanography
Main Authors: Wilson, David J., Crocket, Kirsty C., Van De Flierdt, Tina, Robinson, Laura F., Adkins, Jess F.
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
Atlantic meridional overturning circulation
deep sea corals
deglaciation
Heinrich stadial
neodymium isotopes
radiocarbon
Greenland
Iceland
North Atlantic
Online Access:https://hdl.handle.net/1983/2bc49c3f-a204-42fe-b691-08a9edd7015e
https://research-information.bris.ac.uk/en/publications/2bc49c3f-a204-42fe-b691-08a9edd7015e
https://doi.org/10.1002/2014PA002674
http://www.scopus.com/inward/record.url?scp=84923176865&partnerID=8YFLogxK
Description
Summary:The last deglaciation was characterized by a series of millennial-scale climate events that have been linked to deep ocean variability. While often implied in interpretations, few direct constraints exist on circulation changes at mid-depths. Here we provide new constraints on the variability of deglacial mid-depth circulation using combined radiocarbon and neodymium isotopes in 24 North Atlantic deep-sea corals. Their aragonite skeletons have been dated by uranium-series, providing absolute ages and the resolution to record centennial-scale changes, while transects spanning the lifetime of a single coral allow subcentennial tracer reconstruction. Our results reveal that rapid fluctuations of water mass sourcing and radiocarbon affected the mid-depth water column (1.7-2.5?km) on timescales of less than 100?years during the latter half of Heinrich Stadial 1. The neodymium isotopic variability (-14.5 to -11.0) ranges from the composition of the modern northern-sourced waters towards more radiogenic compositions, suggesting the presence of a greater southern-sourced component at some times. However, in detail, simple two-component mixing between well-ventilated northern-sourced and radiocarbon-depleted southern-sourced water masses cannot explain all our data. Instead, corals from ~15.0?ka and ~15.8?ka may record variability between southern-sourced intermediate waters and radiocarbon-depleted northern-sourced waters, unless there was a major shift in the neodymium isotopic composition of the northern end-member. In order to explain the rapid shift towards the most depleted radiocarbon values at ~15.4?ka, we suggest a different mixing scenario involving either radiocarbon-depleted deep water from the Greenland-Iceland-Norwegian Seas or a southern-sourced deep water mass. Since these mid-depth changes preceded the Bolling-Allerod warming and were apparently unaccompanied by changes in the deep Atlantic, they may indicate an important role for the intermediate ocean in the early deglacial climate evolution. Key ...

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