Ice-flow patterns and precise timing of ice sheet retreat across a dissected fjord landscape in western Norway

We reconstruct patterns of ice flow and retreat of the southwestern Scandinavian Ice Sheet, from 2900 field observations of glacial striae and elevation measurements of 60 ice-marginal-deltas from a high-resolution LiDAR DEM. During the Last Glacial Maximum, ice flow was towards the west across the...

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Bibliographic Details
Published in:Quaternary Science Reviews
Main Authors: Mangerud, Jan, Hughes, Anna L.C., Sæle, Tone Herfindal, Svendsen, John Inge
Format: Article in Journal/Newspaper
Language:English
Published: 2019
Subjects:
Fennoscandian ice sheet
Glacial geomorphology
Glacial striae
Glacimarine terraces
Glaciology
Ice-berg calving
Ice-margin retreat rates
Scandinavia
Scandinavian ice sheet
Norway
Fennoscandian
Ice Sheet
Online Access:https://research.manchester.ac.uk/en/publications/01a09d4e-c36e-4336-8f5f-027b1d9aee7f
https://doi.org/10.1016/j.quascirev.2019.04.032
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Summary:We reconstruct patterns of ice flow and retreat of the southwestern Scandinavian Ice Sheet, from 2900 field observations of glacial striae and elevation measurements of 60 ice-marginal-deltas from a high-resolution LiDAR DEM. During the Last Glacial Maximum, ice flow was towards the west across the entire area, including across several-hundred meter deep north-south oriented fjords. During deglaciation, ice flow adjusted to topography and the dominant flow direction switched towards the south-west. We use a shoreline diagram constructed from relative sea-level curves to establish the age of each delta, which allows us to constrain the timing of retreat with almost decadal precision. Rapid ice sheet retreat commenced at the onset of the Holocene at 11,600 cal years BP. Retreat rates were 160 m a −1 in the deepest fjords, 60–80 m a −1 in shallower fjords, and even slower for land-terminating margins. The fastest retreat rates, 240 m a −1 and 340 m a −1 , were experienced in the largest fjords, Hardangerfjorden and Sognefjorden, which border the study area to the south and north. Crosscutting glacial striae indicate that calving bays developed during retreat along the widest fjords. The combination of complex fjord topography with fast ice-margin retreat by iceberg calving, led to isolation of ice remnants on islands and peninsulas, a process that accelerated the overall rate of deglaciation. Ice-margin retreat paused between 11,300–11,100 cal years BP, probably due to cooling during the Preboreal Oscillation.

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