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Timing and pace of ice-sheet withdrawal across the marine-terrestrial transition west of Ireland during the last glaciation

Ó Cofaigh, C.; Callrd, S.L.; Roberts, D.H.; Chiverrell, R.C.; Ballantyne, C.K.; Evans, D.J.A.; Saher, M.; Van Landeghem, K.J.J.; Smedley, R.; Benetti, S.; Burke, M.; Clark, C.D.; Duller, G.A.T.; Fabel, D.; Livingstone, S.J.; McCarron, S.; Medialdea, A.; Moreton, S.G.; Sacchetti, F.

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S.L. Callrd

R.C. Chiverrell

C.K. Ballantyne

M. Saher

K.J.J. Van Landeghem

R. Smedley

S. Benetti

M. Burke

C.D. Clark

G.A.T. Duller

D. Fabel

S.J. Livingstone

S. McCarron

A. Medialdea

S.G. Moreton

F. Sacchetti


Understanding the pace and drivers of marine-based ice-sheet retreat relies upon the integration of numerical ice-sheet models with observations from contemporary polar ice sheets and well-constrained palaeo-glaciological reconstructions. This paper provides a reconstruction of the retreat of the last British–Irish Ice Sheet (BIIS) from the Atlantic shelf west of Ireland during and following the Last Glacial Maximum (LGM). It uses marine-geophysical data and sediment cores dated by radiocarbon, combined with terrestrial cosmogenic nuclide and optically stimulated luminescence dating of onshore ice-marginal landforms, to reconstruct the timing and rate of ice-sheet retreat from the continental shelf and across the adjoining coastline of Ireland, thus including the switch from a marine- to a terrestrially-based ice-sheet margin. Seafloor bathymetric data in the form of moraines and grounding-zone wedges on the continental shelf record an extensive ice sheet west of Ireland during the LGM which advanced to the outer shelf. This interpretation is supported by the presence of dated subglacial tills and overridden glacimarine sediments from across the Porcupine Bank, a westwards extension of the Irish continental shelf. The ice sheet was grounded on the outer shelf at ~26.8 ka cal bp with initial retreat underway by 25.9 ka cal bp. Retreat was not a continuous process but was punctuated by marginal oscillations until ~24.3 ka cal bp. The ice sheet thereafter retreated to the mid-shelf where it formed a large grounding-zone complex at ~23.7 ka cal bp. This retreat occurred in a glacimarine environment. The Aran Islands on the inner continental shelf were ice-free by ~19.5 ka bp and the ice sheet had become largely terrestrially based by 17.3 ka bp. This suggests that the Aran Islands acted to stabilize and slow overall ice-sheet retreat once the BIIS margin had reached the inner shelf. Our results constrain the timing of initial retreat of the BIIS from the outer shelf west of Ireland to the period of minimum global eustatic sea level. Initial retreat was driven, at least in part, by glacio-isostatically induced, high relative sea level. Net rates of ice-sheet retreat across the shelf were slow (62–19 m a−1) and reduced (8 m a−1) as the ice sheet vacated the inner shelf and moved onshore. A picture therefore emerges of an extensive BIIS on the Atlantic shelf west of Ireland, in which early, oscillatory retreat was followed by slow episodic retreat which decelerated further as the ice margin became terrestrially based. More broadly, this demonstrates the importance of localized controls, in particular bed topography, on modulating the retreat of marine-based sectors of ice sheets.


Ó Cofaigh, C., Callrd, S., Roberts, D., Chiverrell, R., Ballantyne, C., Evans, D., …Sacchetti, F. (2021). Timing and pace of ice-sheet withdrawal across the marine-terrestrial transition west of Ireland during the last glaciation. Journal of Quaternary Science, 36(5), 805-832.

Journal Article Type Article
Acceptance Date Feb 12, 2021
Online Publication Date Apr 7, 2021
Publication Date Jun 21, 2021
Deposit Date Mar 15, 2021
Publicly Available Date Aug 6, 2021
Journal Journal of Quaternary Science
Print ISSN 0267-8179
Electronic ISSN 1099-1417
Publisher Wiley
Peer Reviewed Peer Reviewed
Volume 36
Issue 5
Pages 805-832


Published Journal Article (9.9 Mb)

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Copyright Statement
© 2021 The Authors. Journal of Quaternary Science Published by John Wiley & Sons Ltd.<br /> <br /> This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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