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Ice‐sheet deglaciation and Loch Lomond Readvance in the eastern Cairngorms: implications of a Lateglacial sediment record from Glen Builg

Ice‐sheet deglaciation and Loch Lomond Readvance in the eastern Cairngorms: implications of a Lateglacial sediment record from Glen Builg
Ice‐sheet deglaciation and Loch Lomond Readvance in the eastern Cairngorms: implications of a Lateglacial sediment record from Glen Builg
We present new lithostratigraphic, pollen-stratigraphic and tephrochronological data obtained from a sediment sequence in a small lake basin in Glen Builg, eastern Cairngorms, with mapping of the surrounding glacial geomorphological features. The collective evidence indicates that basin organic sediment accumulation started during the Windermere Interstadial at ~14.3 ka. The new results reaffirm the conclusions of Clapperton et al. (1975), that any occupation of the eastern Cairngorms by Loch Lomond (‘Younger Dryas’) Stadial glacier ice was spatially restricted. The record also suggests that harsh climatic conditions prevailed throughout the Windermere Interstadial, probably due to the relatively high altitude of the site (~460 m) and its proximity to major Cairngorm peaks. Our new, more comprehensive study provides a robust chronology, and reveals several palaeoenvironmental signals congruent with other recently reported Scottish Highlands records. Key similarities with regional records are: (i) a short climatic reversal corresponding to GI-1d in the Greenland stratotype sequence; (ii) a two-phased Loch Lomond Stadial, with a transition around the Vedde Ash, dating to ~12.1 ka; and (iii) a delayed response to Early Holocene climatic warming of ~250 years, before soils were sufficiently stabilised to permit shrub vegetation establishment.
0267-8179
1332-1347
Carter-Champion, Alice
6c4bcf97-24a5-44ab-ac6e-91f74c5f0e58
Abrook, Ashley M.
fce0b528-95c4-46d2-908e-44b8ad57f161
Pike, Joshua H.
901f47cc-989d-4c2c-bc13-94b35fbd3b45
Matthews, Ian P.
d57479f9-880c-4d0a-b442-774d5cb9f006
Palmer, Adrian P.
031a5bc7-1433-476c-99ff-09edc7f77606
Lowe, J. John
194925f7-1b45-4ee3-8ec8-7eec6f92ab8d
Carter-Champion, Alice
6c4bcf97-24a5-44ab-ac6e-91f74c5f0e58
Abrook, Ashley M.
fce0b528-95c4-46d2-908e-44b8ad57f161
Pike, Joshua H.
901f47cc-989d-4c2c-bc13-94b35fbd3b45
Matthews, Ian P.
d57479f9-880c-4d0a-b442-774d5cb9f006
Palmer, Adrian P.
031a5bc7-1433-476c-99ff-09edc7f77606
Lowe, J. John
194925f7-1b45-4ee3-8ec8-7eec6f92ab8d

Carter-Champion, Alice, Abrook, Ashley M., Pike, Joshua H., Matthews, Ian P., Palmer, Adrian P. and Lowe, J. John (2022) Ice‐sheet deglaciation and Loch Lomond Readvance in the eastern Cairngorms: implications of a Lateglacial sediment record from Glen Builg. Journal of Quaternary Science, 37 (8), 1332-1347. (doi:10.1002/jqs.3448).

Record type: Article

Abstract

We present new lithostratigraphic, pollen-stratigraphic and tephrochronological data obtained from a sediment sequence in a small lake basin in Glen Builg, eastern Cairngorms, with mapping of the surrounding glacial geomorphological features. The collective evidence indicates that basin organic sediment accumulation started during the Windermere Interstadial at ~14.3 ka. The new results reaffirm the conclusions of Clapperton et al. (1975), that any occupation of the eastern Cairngorms by Loch Lomond (‘Younger Dryas’) Stadial glacier ice was spatially restricted. The record also suggests that harsh climatic conditions prevailed throughout the Windermere Interstadial, probably due to the relatively high altitude of the site (~460 m) and its proximity to major Cairngorm peaks. Our new, more comprehensive study provides a robust chronology, and reveals several palaeoenvironmental signals congruent with other recently reported Scottish Highlands records. Key similarities with regional records are: (i) a short climatic reversal corresponding to GI-1d in the Greenland stratotype sequence; (ii) a two-phased Loch Lomond Stadial, with a transition around the Vedde Ash, dating to ~12.1 ka; and (iii) a delayed response to Early Holocene climatic warming of ~250 years, before soils were sufficiently stabilised to permit shrub vegetation establishment.

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Accepted/In Press date: 30 May 2022
e-pub ahead of print date: 13 June 2022
Published date: 1 November 2022
Additional Information: Research Funding: Natural Environment Research Council. Grant Number: NE/L002485/1

Identifiers

Local EPrints ID: 477300
URI: http://eprints.soton.ac.uk/id/eprint/477300
DOI: doi:10.1002/jqs.3448
ISSN: 0267-8179
PURE UUID: 583ce721-1092-478b-b04c-6708926b4fc1
ORCID for Ashley M. Abrook: ORCID iD orcid.org/0000-0002-2645-5535

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Date deposited: 02 Jun 2023 16:39
Last modified: 17 Mar 2024 04:16

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Contributors

Author: Alice Carter-Champion
Author: Ashley M. Abrook ORCID iD
Author: Joshua H. Pike
Author: Ian P. Matthews
Author: Adrian P. Palmer
Author: J. John Lowe

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