Abstract
The study of palaeo‐glacial landforms and sediments can give insights into the nature and dynamics of ice sheets. This is particularly the case with regards to the subglacial record, which is challenging to observe in contemporary glaciated settings and hence remains only partially understood. The subglacial hydrological system is an essential component of ice dynamics, where increased water pressure enhances ice motion and sediment deformation, thus reducing ice‐bed contact. Tunnel valleys are large, sinuous, steep‐sided incisions that, together with smaller scale meltwater channels, indicate subglacial meltwater discharge beneath large ice sheets. Through the use of high‐resolution marine geophysical data, a system of buried and exposed tunnel valleys, possible subglacial or proglacial meltwater channels and palaeo‐fluvial valleys have been identified across the shelf of the Celtic Sea between Ireland and Britain. The presence of steep‐sided and overdeepened tunnel valleys is indicative of a large channelized meltwater drainage system beneath the former Irish Sea Ice Stream, the most extensive ice stream to drain the last British–Irish Ice Sheet. After the rapid ice expansion across the Celtic Sea shelf around 28–26 ka, the tunnel valleys were carved into both bedrock and glacigenic sediments and are associated with rapid ice stream retreat northwards into the Irish Sea Basin between 25.6 and 24.3 ka. The presence of a major subglacial meltwater system on the relatively shallow shelf suggests that significant erosive meltwater discharge occurred during the last deglaciation and highlights the important contribution of meltwater to the retreat of the British–Irish Ice Sheet on the continental shelf.
Highlights
The study of palaeo-glacial landforms and sediments can give insights into the nature and dynamics of ice sheets
Across the inner and mid-Celtic Sea shelf, around 80 channels are visible on the sea floor on both bathymetric and sub-bottom data
The tunnel valleys form an extensive and complex meltwater drainage system in this sector of the former British–Irish Ice Sheet (BIIS), potentially linked to tunnel valleys recognized in the Irish Sea (e.g. Coughlan et al 2020)
Summary
The study of palaeo-glacial landforms and sediments can give insights into the nature and dynamics of ice sheets. The presence of steep-sided and overdeepened tunnel valleys is indicative of a large channelized meltwater drainage system beneath the former Irish Sea Ice Stream, the most extensive ice stream to drain the last British–Irish Ice Sheet. Tunnel valleys are large, overdeepened channels of variable dimensions – lengths greater than 100 km, widths of up to 10 km and depths of 500 m – incised into bedrock or soft sediments (e.g. O Cofaigh 1996; van der Vegt et al 2012).
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