Abstract
This paper provides a new deglacial chronology for retreat of the Irish
Ice Sheet from the continental shelf of western Ireland to the adjoining
coastline, a region where the timing and drivers of ice recession have
never been fully constrained. Previous work suggests maximum ice‐sheet
extent on the outer western continental shelf occurred at ~26–24 cal. ka
BP with the initial retreat of the ice marked by the production of
grounding‐zone wedges between 23–21.1 cal. ka BP . However, the timing
and rate of ice‐sheet retreat from the inner continental shelf to the
present coast are largely unknown. This paper reports 31 new terrestrial
cosmogenic nuclide (TCN ) ages from erratics and ice‐moulded bedrock
and three new optically stimulated luminescence (OSL ) ages on deglacial
outwash. The TCN data constrain deglaciation of the near coast (Aran
Islands) to ~19.5–18.5 ka. This infers ice retreated rapidly from the
mid‐shelf after 21 ka, but the combined effects of bathymetric
shallowing and pinning acted to stabilize the ice at the Aran Islands.
However, marginal stability was short‐lived, with multiple coastal sites
along the Connemara/Galway coasts demonstrating ice recession under
terrestrial conditions by 18.2–17. ka. This pattern of retreat continued
as ice retreated eastward through inner Galway Bay by 16.5 ka. South of
Galway, the Kilkee–Kilrush Moraine Complex and Scattery Island moraines
point to late stage re‐advances of the ice sheet into southern County
Clare ~14.1–13.3 ka, but the large errors associated with the OSL ages
make correlation with other regional re‐advances difficult. It seems
more likely that these moraines are the product of regional ice lobes
adjusting to internal ice‐sheet dynamics during deglaciation in the time
window 17–16 ka.
Original language | English |
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Journal | Boreas |
Volume | Early View |
Early online date | 1 Jun 2020 |
DOIs | |
Publication status | E-pub ahead of print - 1 Jun 2020 |