Maximum altitude of Late Devensian glaciation on the Isle of Mull and Isle of Jura

Evidence provided by striae, ice-moulded rock, erratics and perched boulders indicates that the last (Late Devensian) ice-sheet reached an altitude exceeding 760 m on Mull and 660 m on Jura. The highest summits on both islands support periglacial blockfields, suggesting that they remained as nunatak...

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Bibliographic Details
Published in:Scottish Journal of Geology
Main Author: Ballantyne, Colin Kerr
Format: Article in Journal/Newspaper
Language:English
Published: 1999
Subjects:
LAST ICE-SHEET
NORTHWEST SCOTLAND
FORMER NUNATAKS
HIGH-RESOLUTION
BRITISH-ISLES
RECONSTRUCTION
SOILS
Jura
Mull
Ice Sheet
Online Access:https://research-portal.st-andrews.ac.uk/en/researchoutput/maximum-altitude-of-late-devensian-glaciation-on-the-isle-of-mull-and-isle-of-jura(7fb9a68f-86f1-4cd3-b72a-d0eb266d15f4).html
https://doi.org/10.1144/sjg35020097
http://www.scopus.com/inward/record.url?scp=0033380978&partnerID=8YFLogxK
Description
Summary:Evidence provided by striae, ice-moulded rock, erratics and perched boulders indicates that the last (Late Devensian) ice-sheet reached an altitude exceeding 760 m on Mull and 660 m on Jura. The highest summits on both islands support periglacial blockfields, suggesting that they remained as nunataks above the ice surface. This interpretation is supported by analyses of clay-fraction mineralogy, which shows that gibbsite (a pre-late Devensian weathering product) is widespread in blockfield samples but rare in samples below the inferred limit of glaciation, implying removal by Late Devensian glacial erosion. Maximum ice-sheet altitudes of 760-840 m and 660-700 m are inferred for the Ben Moore massif on Mull and Paps of Jura respectively. Reconstruction of ice-sheet configuration in the Inner Hebrides area suggests that the 900 m ice-surface contour followed the west coast of the mainland, but the altitude evidence is insufficient to constrain the westwards extent of the ice sheet. Inferred ice-surface altitudes and directions of ice movement are incompatible with most theoretical models, and even the 'best fit' model of ice dimensions in this area underestimates maximum ice thickness by greater than or equal to 60 m.

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