Deglaciation of the highest mountains in Scandinavia at the Younger Dryas-Holocene transition: evidence from surface exposure-age dating of ice-marginal moraines

Matthews, John, Linge, Henriette, Nesja, Atle, Wilson, Peter, Mourne, Richard, Winkler, Stefan, Owen, Geraint, Hill, Jennifer ORCID: 0000-0002-0682-783X, Haselberger, Stefan and Olsen, Jesper (2024) Deglaciation of the highest mountains in Scandinavia at the Younger Dryas-Holocene transition: evidence from surface exposure-age dating of ice-marginal moraines. Boreas, 53 (2). pp. 139-163. doi:10.1111/bor.12644

Preview

Text 13539 Hill et al 2023 Deglaciation of the highest mountains in Scandinavia at the Younger Dryas Holocene transition.pdf - Published Version Available under License Creative Commons Attribution 4.0. Download (2MB) | Preview

Abstract

Surface exposure-age dating was applied to rock surfaces associated with ice-marginal moraines at elevations of ~1520–1780 m a.s.l. on the slopes of Galdhøpiggen and Glittertinden, the two highest mountains in Scandinavia located in the Jotunheimen mountains of central southern Norway. This is important for understanding the pattern and timing of wastage of the Scandinavian Ice Sheet at the Younger Dryas-Holocene transition. Cosmogenic exposure dating (here 10Be dating) of boulders from the moraine ridges yielded overall mean ages (corrected for glacio-isostatic uplift, surface erosion and snow shielding) of ~11.6 ka from Galdhøpiggen and ~11.2 ka from Glittertinden. Similar 10Be ages were also obtained from additionally collected proximal and distal erratic boulders and bedrock samples.These enabled age calibration of Schmidt-hammer R-values and independent Schmidt-hammer exposure-age dating (SHD) of the moraine ridges, which yielded comparable mean SHD ages of ~10.8 ka and ~10.6 ka from the Galdhøpiggen and Glittertinden sites, respectively. Taking account of the age-resolution and other limitations of both dating techniques, the results suggest that the two sets of moraines have approximately the same age but that neither technique can distinguish unambiguously between moraine formation in the late Younger Dryas or Early Holocene. Together with features of moraine-ridge morphology and estimates of equilibrium-line altitude depression (ΔELA) of ~360–575 m (corrected for land uplift), the results imply moraine formation during short-lived re-advances of active glaciers, at least the lower reaches of which were warm-based. It is concluded that the local glaciers remained active and advanced during deglaciation either very late in the Younger Dryas or very early in the Holocene, possibly in response to the Preboreal Oscillation at ~11.4 ka. The study supports the concept of a thin Younger Dryas Ice Sheet and places time constraints on the timing of final deglaciation in southern Norway.

Item Type:	Article
Article Type:	Article
Uncontrolled Keywords:	ice-marginal moraines; Scandinavian Ice Sheet; terrestrial cosmogenic <sup>10</sup>Be dating; Schmidt-hammer exposure-age dating; Younger Dryas; Preboreal Oscillation; glacier and climatic variations; Jotunheimen
Subjects:	G Geography. Anthropology. Recreation > GB Physical geography G Geography. Anthropology. Recreation > GE Environmental Sciences
Divisions:	Professional Services > Academic Quality, Enhancement and Innovation
Research Priority Areas:	Society and Learning
Depositing User:	Anne Pengelly
Date Deposited:	08 Dec 2023 10:11
Last Modified:	14 Sep 2024 15:11
URI:	https://eprints.glos.ac.uk/id/eprint/13539

University Staff: Request a correction | Repository Editors: Update this record