Late Quaternary evolution and sea-level history of a glaciated marine embayment, Bantry Bay, SW Ireland

Late Quaternary evolution and sea-level history of a glaciated marine embayment, Bantry Bay, SW Ireland

Ireland experienced a spatially complex pattern of relative sea-level (RSL) changes and shoreline development caused by the interplay of isostatic and eustatic (ice equivalent sea level) processes since the Last Glacial Maximum (LGM). Using a combination of high-resolution marine geophysical data, v...

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Veröffentlicht in:Marine geology 2015-11, Vol.369, p.251-272
Hauptverfasser: Plets, Ruth M.K., Callard, S. Louise, Cooper, J. Andrew G., Long, Antony J., Quinn, Rory J., Belknap, Daniel F., Edwards, Robin J., Jackson, Derek W.T., Kelley, Joseph T., Long, David, Milne, Glenn A., Monteys, Xavier
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Bantry Bay
Bays
Brackish
Deposition
Evolution
Litho-stratigraphy
Lobes
Marine
Multibeam echosounder
Post-glacial transgression
Relative sea-level change
Ridges
Sea level
Sediments
Seismo-stratigraphy
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container_end_page 272
container_issue
container_start_page 251
container_title Marine geology
container_volume 369
creator Plets, Ruth M.K.
Callard, S. Louise
Cooper, J. Andrew G.
Long, Antony J.
Quinn, Rory J.
Belknap, Daniel F.
Edwards, Robin J.
Jackson, Derek W.T.
Kelley, Joseph T.
Long, David
Milne, Glenn A.
Monteys, Xavier
description Ireland experienced a spatially complex pattern of relative sea-level (RSL) changes and shoreline development caused by the interplay of isostatic and eustatic (ice equivalent sea level) processes since the Last Glacial Maximum (LGM). Using a combination of high-resolution marine geophysical data, vibrocores, foraminiferal analysis and 10 AMS radiocarbon dates, we reconstruct the Late Quaternary evolution and RSL history of Bantry Bay, a large (40km long, 5–10km wide) embayment in SW Ireland. The data indicate two infill phases: one before and one after the LGM, separated by glacial and lowstand sediments. The pre-LGM history is not dated and the depositional history is inferred. A large sediment lobe formed at the outer edge of Bantry Bay as a lowstand ice-proximal glacimarine outwash system as the ice retreated after the LGM, at a sea level ca. 80m lower than present. Iceberg scour immediately west of this location likely relate to the break-up of the local Kerry–Cork Ice Cap. Long curvilinear ridges, seen both offshore and on top of the sediment lobe, probably formed as shoreface ridges under stronger-than-present tidal currents during a period of RSL stability (pre-14.6kacal BP). A subsequent infill phase is characterised by a basin-wide erosional (ravinement) surface and the deposition of inter- and sub-tidal estuarine sediments. Although our data support the general trends, our stratigraphic and radiocarbon data suggest a higher sea level between 11 and 13.5kacal BP than predicted by existing glacial isostatic adjustment models. •We present multibeam, seismic profile and core data from a drowned marine inlet.•Pre- and post-LGM sediments are preserved, separated by a glacial diamict.•A tidal ravinement surface that post-dates a diamict deposit is widespread.•Dating suggests the transgression reached the inner bay before 13kacal BP.•A mismatch exists between our radiocarbon dates and existing GIA models.
doi_str_mv 10.1016/j.margeo.2015.08.021
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subjects Bantry Bay
Bays
Brackish
Deposition
Evolution
Litho-stratigraphy
Lobes
Marine
Multibeam echosounder
Post-glacial transgression
Relative sea-level change
Ridges
Sea level
Sediments
Seismo-stratigraphy
title Late Quaternary evolution and sea-level history of a glaciated marine embayment, Bantry Bay, SW Ireland
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