Laurentide Ice Sheet extent over the last 130 thousand years traced by the Pb isotope signature of weathering inputs to the Labrador Sea
Laurentide Ice Sheet extent over the last 130 thousand years traced by the Pb isotope signature of weathering inputs to the Labrador Sea
Understanding the history of continental ice-sheet growth on North America, and in particular that of the Laurentide Ice Sheet (LIS), is important for palaeoclimate and sea-level reconstructions. Information on ice-sheet extent pre-dating the Last Glacial Maximum (LGM) is heavily reliant, though, on the outputs of numerical models underpinned by scant geological data. Important aspects of LIS history that remain unresolved include the timing of its collapse during Termination 2, the first time that it expanded significantly during the Last Glacial Cycle, and whether its volume was significantly reduced during marine isotope stage (MIS) 3. To address these issues and more, we present authigenic iron-manganese (Fe–Mn) oxyhydroxide-derived high-resolution records of Pb isotope data and associated rare earth element profiles for samples spanning the past ∼130 kyr from northwest North Atlantic Labrador Sea, IODP Site U1302/3. We use these new data to track chemical weathering intensity and solute flux to the Labrador Sea associated with LIS extent on the adjacent highly radiogenic (high Pb isotope composition) North American Superior Province (SP) craton since the Penultimate Glacial Maximum (PGM). Our new records show that relatively high (radiogenic) values characterise warm marine isotope stages (MIS) 5, 3 and 1 and the lowest (most unradiogenic) values occurred during cold stages MIS 6, 4 and 2. The radiogenic Pb isotope excursion associated with Termination 2 is short-lived relative to the one documented for Termination 1, suggesting that LIS retreat during the PGM was relatively fast compared to the LGM and that its collapse during the last interglacial occurred ∼125 ka. Highly radiogenic inputs to the Labrador Sea during MIS 5d-a, ∼116–71 ka, most likely reflect a spin-up in Labrador Current vigour, incipient glaciation and renewed glacial erosion of high grounds of the eastern SP craton by localised wet-based ice-caps. A large decrease in Pb isotope values towards unradiogenic LGM-like compositions between ∼75–65 ka across the MIS 5/4 transition likely reflects a slow-down in Labrador Current vigour, an increase in subaerial deposition of aeolian dust and a significant advance of the LIS across Hudson Bay caused a strong reduction or even abandonment of Pb sourcing from the SP. The relatively radiogenic Pb isotope composition of bottom-waters bathing our study site during MIS 3, 57–29 ka, is unlikely to support a recently proposed major reduction in LIS extent for this time. Instead, we argue these values are better explained by southern Greenland Ice Sheet retreat, increased chemical weathering of the Ketelidian Mobile Belt and subsequent Pb runoff from Greenland.
Chemical weathering, Continental runoff, Fe–Mn oxyhydroxides, Labrador Current, Last Glacial Cycle, North Atlantic, Paleoceanography, Quaternary, Rare earth elements
Parker, Rebecca L.
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Foster, Gavin L.
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Gutjahr, Marcus
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Wilson, Paul A.
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Littler, Kate L.
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Cooper, Matthew J.
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Michalik, Agnes
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Milton, James A.
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Crocket, Kirsty C.
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Bailey, Ian
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1 July 2022
Parker, Rebecca L.
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Foster, Gavin L.
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Gutjahr, Marcus
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Wilson, Paul A.
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Littler, Kate L.
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Cooper, Matthew J.
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Michalik, Agnes
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Milton, James A.
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Crocket, Kirsty C.
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Bailey, Ian
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Parker, Rebecca L., Foster, Gavin L., Gutjahr, Marcus, Wilson, Paul A., Littler, Kate L., Cooper, Matthew J., Michalik, Agnes, Milton, James A., Crocket, Kirsty C. and Bailey, Ian
(2022)
Laurentide Ice Sheet extent over the last 130 thousand years traced by the Pb isotope signature of weathering inputs to the Labrador Sea.
Quaternary Science Reviews, 287 (107564), [107564].
(doi:10.1016/j.quascirev.2022.107564).
Abstract
Understanding the history of continental ice-sheet growth on North America, and in particular that of the Laurentide Ice Sheet (LIS), is important for palaeoclimate and sea-level reconstructions. Information on ice-sheet extent pre-dating the Last Glacial Maximum (LGM) is heavily reliant, though, on the outputs of numerical models underpinned by scant geological data. Important aspects of LIS history that remain unresolved include the timing of its collapse during Termination 2, the first time that it expanded significantly during the Last Glacial Cycle, and whether its volume was significantly reduced during marine isotope stage (MIS) 3. To address these issues and more, we present authigenic iron-manganese (Fe–Mn) oxyhydroxide-derived high-resolution records of Pb isotope data and associated rare earth element profiles for samples spanning the past ∼130 kyr from northwest North Atlantic Labrador Sea, IODP Site U1302/3. We use these new data to track chemical weathering intensity and solute flux to the Labrador Sea associated with LIS extent on the adjacent highly radiogenic (high Pb isotope composition) North American Superior Province (SP) craton since the Penultimate Glacial Maximum (PGM). Our new records show that relatively high (radiogenic) values characterise warm marine isotope stages (MIS) 5, 3 and 1 and the lowest (most unradiogenic) values occurred during cold stages MIS 6, 4 and 2. The radiogenic Pb isotope excursion associated with Termination 2 is short-lived relative to the one documented for Termination 1, suggesting that LIS retreat during the PGM was relatively fast compared to the LGM and that its collapse during the last interglacial occurred ∼125 ka. Highly radiogenic inputs to the Labrador Sea during MIS 5d-a, ∼116–71 ka, most likely reflect a spin-up in Labrador Current vigour, incipient glaciation and renewed glacial erosion of high grounds of the eastern SP craton by localised wet-based ice-caps. A large decrease in Pb isotope values towards unradiogenic LGM-like compositions between ∼75–65 ka across the MIS 5/4 transition likely reflects a slow-down in Labrador Current vigour, an increase in subaerial deposition of aeolian dust and a significant advance of the LIS across Hudson Bay caused a strong reduction or even abandonment of Pb sourcing from the SP. The relatively radiogenic Pb isotope composition of bottom-waters bathing our study site during MIS 3, 57–29 ka, is unlikely to support a recently proposed major reduction in LIS extent for this time. Instead, we argue these values are better explained by southern Greenland Ice Sheet retreat, increased chemical weathering of the Ketelidian Mobile Belt and subsequent Pb runoff from Greenland.
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Accepted/In Press date: 10 May 2022
e-pub ahead of print date: 25 May 2022
Published date: 1 July 2022
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Funding Information:
This research uses samples provided by the IODP , which is sponsored by the U.S. National Science Foundation and participating countries under management of Joint Oceanographic Institutions, Inc. We thank the shipboard party of IODP Expedition 303 and A. Wuelbers, W. Hale and H. Kuhlmann for their help at the Bremen Core Repository and Megan Spencer for laboratory support in Southampton. R.L.P. acknowledges funding from a University of Exeter International Excellence Scholarship. P.A.W. acknowledges support from Natural Environment Research Council (grant number NE/K014137/1) and the Royal Society (Wolfson Merit Award). We thank Antje Voelker for editorial handling and Nathalie Fagel and Alberto Reyes for constructive feedback at the review stage that helped significantly to improve the final version of this manuscript. We are also grateful to Nathalie Fagel for providing us with access to her compilations of circum-North Atlantic terrane Pb isotope data.
Publisher Copyright:
© 2022 The Authors
Keywords:
Chemical weathering, Continental runoff, Fe–Mn oxyhydroxides, Labrador Current, Last Glacial Cycle, North Atlantic, Paleoceanography, Quaternary, Rare earth elements
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Local EPrints ID: 457733
URI: http://eprints.soton.ac.uk/id/eprint/457733
ISSN: 0277-3791
PURE UUID: 1949f4f3-914c-45e0-9c58-65137e65a66a
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Date deposited: 16 Jun 2022 00:28
Last modified: 17 Mar 2024 03:24
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Author:
Rebecca L. Parker
Author:
Marcus Gutjahr
Author:
Kate L. Littler
Author:
Kirsty C. Crocket
Author:
Ian Bailey
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