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Advance and retreat of the marine-terminating Irish Sea Ice Stream into the Celtic Sea during the Last Glacial: Timing and maximum extent. / Scourse, James; Saher, Margot; Van Landeghem, Katrien et al.
In: Marine Geology, Vol. 412, 01.06.2019, p. 53-68.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Scourse, J, Saher, M, Van Landeghem, K, Lockhart, E, Purcell, C, Callard, SL, Roseby, Z, Allison, B, Pieńkowski, A, Ó Cofaigh, C, Praeg, D, Ward, S, Chiverrell, RC, Moreton, S, Fabel, D & Clark, C 2019, 'Advance and retreat of the marine-terminating Irish Sea Ice Stream into the Celtic Sea during the Last Glacial: Timing and maximum extent', Marine Geology, vol. 412, pp. 53-68. https://doi.org/10.1016/j.margeo.2019.03.003

APA

Scourse, J., Saher, M., Van Landeghem, K., Lockhart, E., Purcell, C., Callard, S. L., Roseby, Z., Allison, B., Pieńkowski, A., Ó Cofaigh, C., Praeg, D., Ward, S., Chiverrell, R. C., Moreton, S., Fabel, D., & Clark, C. (2019). Advance and retreat of the marine-terminating Irish Sea Ice Stream into the Celtic Sea during the Last Glacial: Timing and maximum extent. Marine Geology, 412, 53-68. https://doi.org/10.1016/j.margeo.2019.03.003

CBE

Scourse J, Saher M, Van Landeghem K, Lockhart E, Purcell C, Callard SL, Roseby Z, Allison B, Pieńkowski A, Ó Cofaigh C, et al. 2019. Advance and retreat of the marine-terminating Irish Sea Ice Stream into the Celtic Sea during the Last Glacial: Timing and maximum extent. Marine Geology. 412:53-68. https://doi.org/10.1016/j.margeo.2019.03.003

MLA

VancouverVancouver

Scourse J, Saher M, Van Landeghem K, Lockhart E, Purcell C, Callard SL et al. Advance and retreat of the marine-terminating Irish Sea Ice Stream into the Celtic Sea during the Last Glacial: Timing and maximum extent. Marine Geology. 2019 Jun 1;412:53-68. Epub 2019 Mar 16. doi: 10.1016/j.margeo.2019.03.003

Author

RIS

TY - JOUR

T1 - Advance and retreat of the marine-terminating Irish Sea Ice Stream into the Celtic Sea during the Last Glacial: Timing and maximum extent

AU - Scourse, James

AU - Saher, Margot

AU - Van Landeghem, Katrien

AU - Lockhart, Edward

AU - Purcell, Catriona

AU - Callard, Sarah Louise

AU - Roseby, Zoe

AU - Allison, Ben

AU - Pieńkowski, Anna

AU - Ó Cofaigh, Colm

AU - Praeg, Daniel

AU - Ward, Sophie

AU - Chiverrell, R.C.

AU - Moreton, Steven

AU - Fabel, Derek

AU - Clark, Chris

PY - 2019/6/1

Y1 - 2019/6/1

N2 - The dynamics of the British-Irish Ice Sheet (BIIS) during the Last Glacial were conditioned by marine-based ice streams, the largest of which by far was the Irish Sea Ice Stream (ISIS) which drained southwest across the Celtic shelf. The maximum extent and timing of the ISIS have been constrained by onshore evidence from the UK and Ireland, and by glacigenic sediments encountered in a small suite of vibrocores from the UK-Irish continental shelf, from which a single radiocarbon date is available. These data have long supported ice advance to at least the mid-shelf, while recent results suggest the ISIS may have extended 150 km farther seaward to the shelf edge. The glacigenic sequences have not been placed within a secure seismic-stratigraphic context and the relationship between glaciation and the linear sediment megaridges observed on the outer shelf of the Celtic Sea has remained uncertain. Here we report results of sedimentological, geochemical, geochronological and micropalaeontological analyses combined with a seismic-stratigraphic investigation of the glacigenic sequences of the Celtic Sea with the aims of establishing maximum extent, depositional context, timing and retreat chronology of ISIS. Eight lithofacies packages are identified, six of which correlate with seismic facies. Lithofacies LF1 and LF2 correlate to a seafloor seismic facies (SF1) that we interpret to record the postglacial and Holocene transgressive flooding of the shelf. Lithofacies LF10 (till), LF3, LF4 and LF8 (glacimarine) correlate to different seismic facies that we interpret to be of glacigenic origin based on sedimentological, geotechnical and micropalaeontological evidence, and their distribution, supported by geochemical evidence from lithofacies LF8 and LF10 indicate extension of ISIS as far as the Celtic Sea shelf break. New radiocarbon ages on calcareous micro- and macrofauna constrain this advance to be between 24 and 27 cal ka BP, consistent with pre-existing geochronological constraints. Glacimarine lithofacies LF8 is in places glacitectonically contorted and deformed, indicating ice readvance, but the nature and timing of this readvance is unclear. Retreat out of the Celtic Sea was initially rapid and may have been triggered by high relative sea-levels driven by significant glacio-isostatic depression, consistent with greater ice loads over Britain and Ireland than previously considered.

AB - The dynamics of the British-Irish Ice Sheet (BIIS) during the Last Glacial were conditioned by marine-based ice streams, the largest of which by far was the Irish Sea Ice Stream (ISIS) which drained southwest across the Celtic shelf. The maximum extent and timing of the ISIS have been constrained by onshore evidence from the UK and Ireland, and by glacigenic sediments encountered in a small suite of vibrocores from the UK-Irish continental shelf, from which a single radiocarbon date is available. These data have long supported ice advance to at least the mid-shelf, while recent results suggest the ISIS may have extended 150 km farther seaward to the shelf edge. The glacigenic sequences have not been placed within a secure seismic-stratigraphic context and the relationship between glaciation and the linear sediment megaridges observed on the outer shelf of the Celtic Sea has remained uncertain. Here we report results of sedimentological, geochemical, geochronological and micropalaeontological analyses combined with a seismic-stratigraphic investigation of the glacigenic sequences of the Celtic Sea with the aims of establishing maximum extent, depositional context, timing and retreat chronology of ISIS. Eight lithofacies packages are identified, six of which correlate with seismic facies. Lithofacies LF1 and LF2 correlate to a seafloor seismic facies (SF1) that we interpret to record the postglacial and Holocene transgressive flooding of the shelf. Lithofacies LF10 (till), LF3, LF4 and LF8 (glacimarine) correlate to different seismic facies that we interpret to be of glacigenic origin based on sedimentological, geotechnical and micropalaeontological evidence, and their distribution, supported by geochemical evidence from lithofacies LF8 and LF10 indicate extension of ISIS as far as the Celtic Sea shelf break. New radiocarbon ages on calcareous micro- and macrofauna constrain this advance to be between 24 and 27 cal ka BP, consistent with pre-existing geochronological constraints. Glacimarine lithofacies LF8 is in places glacitectonically contorted and deformed, indicating ice readvance, but the nature and timing of this readvance is unclear. Retreat out of the Celtic Sea was initially rapid and may have been triggered by high relative sea-levels driven by significant glacio-isostatic depression, consistent with greater ice loads over Britain and Ireland than previously considered.

KW - Shelf (morphology and stratigraphy)

KW - Glacial sediments

KW - Geophysics (seismic)

KW - Quaternary stratigraphy

KW - Micropaleontology (forams)

KW - Europe

U2 - 10.1016/j.margeo.2019.03.003

DO - 10.1016/j.margeo.2019.03.003

M3 - Article

VL - 412

SP - 53

EP - 68

JO - Marine Geology

JF - Marine Geology

SN - 0025-3227

ER -