Retreat dynamics of younger dryas glaciers in the far NW Scottish Highlands reconstructed from Moraine sequences

Knowledge about moraine sequences produced by former glaciers can reveal much about the interaction between glaciers and palaeoclimate. In the far NW Highlands of Scotland, detailed records of deglaciation during the Younger Dryas ( Loch Lomond Stadial) are preserved in sequences of `hummocky morain...

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Bibliographic Details
Published in:Scottish Geographical Journal
Main Authors: Lukas, Sven, Benn, Douglas I.
Format: Article in Journal/Newspaper
Language:English
Published: 2007
Subjects:
Moraines
glacier dynamics
deglaciation
Younger Dryas
Scottish Highlands
ISLE-OF-SKYE
HUMMOCKY MORAINE
PALEOCLIMATIC IMPLICATIONS
SOUTHERN NORWAY
CLIMATIC-CHANGE
PUSH MORAINES
MASS-BALANCE
ICE-SHEET
SCOTLAND
ICELAND
Loch Lomond
Norway
glacier
Ice Sheet
Iceland
Online Access:https://risweb.st-andrews.ac.uk/portal/en/researchoutput/retreat-dynamics-of-younger-dryas-glaciers-in-the-far-nw-scottish-highlands-reconstructed-from-moraine-sequences(7734f8cc-3056-4e1d-bc20-05a86b31bc89).html
https://doi.org/10.1080/14702540701235142
http://www.scopus.com/inward/record.url?scp=34247477259&partnerID=8YFLogxK
Description
Summary:Knowledge about moraine sequences produced by former glaciers can reveal much about the interaction between glaciers and palaeoclimate. In the far NW Highlands of Scotland, detailed records of deglaciation during the Younger Dryas ( Loch Lomond Stadial) are preserved in sequences of `hummocky moraines', consisting of arcuate chains of ridges and mounds, marking successive palaeo-ice fronts. Reconstructed ice-front positions are here used to construct 'barcode patterns' along former flowlines, allowing retreat patterns to be compared and frequency of moraine formation to be assessed. Since Younger Dryas glaciers in Scotland probably began to retreat around 12.1 ka and had disappeared by the early Holocene (11.5 ka), we assume time spans of 600-1200 years to calculate glacier retreat rates and to gain an understanding of marginal response to climate warming during the second half of the Younger Dryas. The calculations indicate that moraines formed every 3-23 years, depending, amongst other factors, on glacier size and basin topography. Retreat distances and the frequency of moraine formation have to be regarded as minimum values since sedimentological studies have shown that readvances were commonplace, i.e. two-thirds of the ice-marginal positions were occupied twice. Annual moraines might be present along short stretches, but are unlikely to occur throughout larger areas. This evidence indicates a palaeo-environment dominated by very active glaciers with short margin response times similar to modern glaciers in maritime areas such as Norway or Iceland. Together, this evidence corresponds well with published data on the Younger Dryas palaeo-environment in the far NW Scottish Highlands and in other areas such as the Isle of Skye and the central Grampian Highlands. The presented approach might help to. ll gaps in the understanding of glacier dynamics in formerly glaciated areas elsewhere.

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