Geomorphology and dynamics of the British-Irish Ice Sheet in western Scotland

Predicting the long-term behaviour of present-day ice sheets is hampered by the short timescales of our observations and restricted knowledge of the subglacial environment. Studying palaeoice sheets can help by revealing the nature and amplitude of past centennial- to millennial-scale ice sheet chan...

Full description

Bibliographic Details
Main Author: Finlayson, Andrew
Other Authors: Sugden, David, Nienow, Peter, British Geological Survey
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: The University of Edinburgh 2014
Subjects:
ice sheet
Scotland
geomorphology
Ice cap
Ice Sheet
Journal of Glaciology
Online Access:http://hdl.handle.net/1842/8965
id ftunivedinburgh:oai:era.ed.ac.uk:1842/8965
record_format openpolar
spelling ftunivedinburgh:oai:era.ed.ac.uk:1842/8965 2023-07-30T04:04:07+02:00 Geomorphology and dynamics of the British-Irish Ice Sheet in western Scotland Finlayson, Andrew Sugden, David Nienow, Peter British Geological Survey 2014-06-30 application/pdf http://hdl.handle.net/1842/8965 en eng The University of Edinburgh Finlayson, A., 2012. Ice dynamics and sediment movement: last glacial cycle, Clyde basin, Scotland. Journal of Glaciology 58, 487-500. Finlayson, A., 2013. A geological assessment of `The Kames', Stallashaw Moss, Lanarkshire. British Geological Survey Commissioned Report, CR/13/028. British Geological Survey. Finlayson, A., Bradwell, T., 2007. Evidence for Loch Lomond Stadial ice cap glaciation of the Beinn Dearg massif, Northern Scotland. Quaternary Newsletter 113, 10-17. Finlayson, A., Callaghan, E., Ritchie, C., 2012. Assessment of super cial deposits along the proposed HVDC power line. British Geological Survey Commissioned Report, CR/12/090. British Geological Survey. Finlayson, A., Fabel, D., Bradwell, T., Sugden, D.E., 2014. Growth and decay of a marine terminating sector of the last British-Irish Ice Sheet: a geomorphological reconstruction. Quaternary Science Reviews 83, 28-45. Finlayson, A., Golledge, N., Bradwell, T., Fabel, D., 2011. Evolution of a Lateglacial mountain icecap in northern Scotland. Boreas 40, 536-554. Finlayson, A., Merritt, J., Browne, M., Merritt, J., McMillan, A., Whitebread, K., 2010. Ice sheet advance, dynamics, and decay con gurations: evidence from west central Scotland. Quaternary Science Reviews 29, 969-988. http://hdl.handle.net/1842/8965 ice sheet Scotland geomorphology Thesis or Dissertation Doctoral PhD Doctor of Philosophy 2014 ftunivedinburgh 2023-07-09T20:36:45Z Predicting the long-term behaviour of present-day ice sheets is hampered by the short timescales of our observations and restricted knowledge of the subglacial environment. Studying palaeoice sheets can help by revealing the nature and amplitude of past centennial- to millennial-scale ice sheet change. This thesis uses glacial sediments and landforms to examine the evolution of the partly marine-based British-Irish Ice Sheet (BIIS) and its bed, in western Scotland. Three zones of the former BIIS are considered: ranging from a mountain ice cap, to a core area of the ice sheet, to a peripheral marine-terminating sector. The topography of the subglacial landscape was an important in uence on the location of dynamic and stable components of the ice sheet. At an ice cap scale, zones of glacier inception and retreat were linked to catchment elevation and size. At the ice sheet scale, the migration of ice divides and thermal boundaries were focused through corridors of low relief subglacial topography. The main west-east ice divide of the BIIS in central Scotland migrated by 60 km, 10% of the ice sheet's width, through one such corridor during the glacial cycle. A major change in the ow regime of the BIIS in western Scotland accompanied the development of a marine-based sector on the Malin Shelf. As the BIIS advanced to the shelf edge, ice ow was drawn westwards { orthogonal to the earlier, geologically controlled, ow pattern. Retreat of the BIIS from the shelf edge occurred at an average rate of 10 m a-1, but was punctuated by at least one episode of accelerated retreat at 100 m a-1. In each zone of the BIIS examined, a rich palimpsest landscape is preserved and the role of earlier glaciations in conditioning or priming the landscape is highlighted. Western Scotland in particular is dominated by features relating to a 'restricted' mountain ice sheet, suggested to have been the prevailing ice sheet mode during the Early and Middle Quaternary. Where the last BIIS was underlain by soft sediments, glacier movement at the ... Doctoral or Postdoctoral Thesis Ice cap Ice Sheet Journal of Glaciology Edinburgh Research Archive (ERA - University of Edinburgh)
institution Open Polar
collection Edinburgh Research Archive (ERA - University of Edinburgh)
op_collection_id ftunivedinburgh
language English
topic ice sheet
Scotland
geomorphology
spellingShingle ice sheet
Scotland
geomorphology
Finlayson, Andrew
Geomorphology and dynamics of the British-Irish Ice Sheet in western Scotland
topic_facet ice sheet
Scotland
geomorphology
description Predicting the long-term behaviour of present-day ice sheets is hampered by the short timescales of our observations and restricted knowledge of the subglacial environment. Studying palaeoice sheets can help by revealing the nature and amplitude of past centennial- to millennial-scale ice sheet change. This thesis uses glacial sediments and landforms to examine the evolution of the partly marine-based British-Irish Ice Sheet (BIIS) and its bed, in western Scotland. Three zones of the former BIIS are considered: ranging from a mountain ice cap, to a core area of the ice sheet, to a peripheral marine-terminating sector. The topography of the subglacial landscape was an important in uence on the location of dynamic and stable components of the ice sheet. At an ice cap scale, zones of glacier inception and retreat were linked to catchment elevation and size. At the ice sheet scale, the migration of ice divides and thermal boundaries were focused through corridors of low relief subglacial topography. The main west-east ice divide of the BIIS in central Scotland migrated by 60 km, 10% of the ice sheet's width, through one such corridor during the glacial cycle. A major change in the ow regime of the BIIS in western Scotland accompanied the development of a marine-based sector on the Malin Shelf. As the BIIS advanced to the shelf edge, ice ow was drawn westwards { orthogonal to the earlier, geologically controlled, ow pattern. Retreat of the BIIS from the shelf edge occurred at an average rate of 10 m a-1, but was punctuated by at least one episode of accelerated retreat at 100 m a-1. In each zone of the BIIS examined, a rich palimpsest landscape is preserved and the role of earlier glaciations in conditioning or priming the landscape is highlighted. Western Scotland in particular is dominated by features relating to a 'restricted' mountain ice sheet, suggested to have been the prevailing ice sheet mode during the Early and Middle Quaternary. Where the last BIIS was underlain by soft sediments, glacier movement at the ...
author2 Sugden, David
Nienow, Peter
British Geological Survey
format Doctoral or Postdoctoral Thesis
author Finlayson, Andrew
author_facet Finlayson, Andrew
author_sort Finlayson, Andrew
title Geomorphology and dynamics of the British-Irish Ice Sheet in western Scotland
title_short Geomorphology and dynamics of the British-Irish Ice Sheet in western Scotland
title_full Geomorphology and dynamics of the British-Irish Ice Sheet in western Scotland
title_fullStr Geomorphology and dynamics of the British-Irish Ice Sheet in western Scotland
title_full_unstemmed Geomorphology and dynamics of the British-Irish Ice Sheet in western Scotland
title_sort geomorphology and dynamics of the british-irish ice sheet in western scotland
publisher The University of Edinburgh
publishDate 2014
url http://hdl.handle.net/1842/8965
genre Ice cap
Ice Sheet
Journal of Glaciology
genre_facet Ice cap
Ice Sheet
Journal of Glaciology
op_relation Finlayson, A., 2012. Ice dynamics and sediment movement: last glacial cycle, Clyde basin, Scotland. Journal of Glaciology 58, 487-500.
Finlayson, A., 2013. A geological assessment of `The Kames', Stallashaw Moss, Lanarkshire. British Geological Survey Commissioned Report, CR/13/028. British Geological Survey.
Finlayson, A., Bradwell, T., 2007. Evidence for Loch Lomond Stadial ice cap glaciation of the Beinn Dearg massif, Northern Scotland. Quaternary Newsletter 113, 10-17.
Finlayson, A., Callaghan, E., Ritchie, C., 2012. Assessment of super cial deposits along the proposed HVDC power line. British Geological Survey Commissioned Report, CR/12/090. British Geological Survey.
Finlayson, A., Fabel, D., Bradwell, T., Sugden, D.E., 2014. Growth and decay of a marine terminating sector of the last British-Irish Ice Sheet: a geomorphological reconstruction. Quaternary Science Reviews 83, 28-45.
Finlayson, A., Golledge, N., Bradwell, T., Fabel, D., 2011. Evolution of a Lateglacial mountain icecap in northern Scotland. Boreas 40, 536-554.
Finlayson, A., Merritt, J., Browne, M., Merritt, J., McMillan, A., Whitebread, K., 2010. Ice sheet advance, dynamics, and decay con gurations: evidence from west central Scotland. Quaternary Science Reviews 29, 969-988.
http://hdl.handle.net/1842/8965
_version_ 1772815303553581056

Similar Items