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Evidence for rapid paraglacial formation of rock glaciers in southern Norway from <sup>10</sup>Be surface-exposure dating

Henriette Linge, Atle Nesje, John A. Matthews, Derek Fabel, Sheng Xu

2020Quaternary Research22 citationsDOIOpen Access PDF

Abstract

Abstract We evaluate the timing and environmental controls on past rock-glacier activity at Øyberget, upper Ottadalen, southern Norway, using in situ 10 Be surface-exposure dating on (1) boulders belonging to relict rock-glacier lobes at c. 530 m asl, (2) bedrock and boulder surfaces at the Øyberget summit (c. 1200 m asl), and (3) bedrock at an up-valley site (c. 615 m asl). We find that the rock-glacier lobes became inactive around 11.1 ± 1.2 ka, coeval with the timing of summit deglaciation (11.2 ± 0.7 ka). This is slightly older than previously published Schmidt-hammer surface-exposure ages. The timing does not match known climatic conditions promoting rock-glacier formation in the early Holocene; hence we infer that lobe formation resulted from enhanced debris supply and burial of residual ice during and soon after deglaciation. The results demonstrate that rock glaciers may form over a relatively short period of time (hundreds rather than thousands of years) under non-permafrost conditions and possibly indicate a paraglacial type of process.

Topics & Concepts

GeologyDeglaciationRock glacierBedrockGlacierGeomorphologySurface exposure datingHolocenePermafrostGlacier morphologyPhysical geographyGlacial periodPaleontologyMoraineIce streamOceanographyCryosphereSea iceGeographyGeology and Paleoclimatology ResearchCryospheric studies and observationsClimate change and permafrost
Evidence for rapid paraglacial formation of rock glaciers in southern Norway from <sup>10</sup>Be surface-exposure dating | Litcius