The Drangajökull ice cap, northwest Iceland, persisted into the early-mid Holocene

Most glaciers and ice caps in Iceland experienced rapid deglaciation in the early Holocene, reaching a minimum extent during the Holocene Thermal Maximum. Here we present evidence of the Holocene glacial history from lake sediment cores retrieved from seven threshold lakes around the Drangajökull ic...

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Bibliographic Details
Published in:Quaternary Science Reviews
Main Authors: Schomacker, Anders, Brynjólfsson, Skafti, Andreassen, Julie M., Gudmundsdóttir, Esther Ruth, Olsen, Jesper, Odgaard, Bent V., Håkansson, Lena, Ingólfsson, Ólafur, Larsen, Nicolaj K.
Format: Article in Journal/Newspaper
Language:English
Published: 2016
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Online Access:https://pure.au.dk/portal/da/publications/the-drangajoekull-ice-cap-northwest-iceland-persisted-into-the-earlymid-holocene(246a2b17-206e-4b23-8d65-a8fbeba4e618).html
https://doi.org/10.1016/j.quascirev.2016.07.007
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Summary:Most glaciers and ice caps in Iceland experienced rapid deglaciation in the early Holocene, reaching a minimum extent during the Holocene Thermal Maximum. Here we present evidence of the Holocene glacial history from lake sediment cores retrieved from seven threshold lakes around the Drangajökull ice cap in the Vestfirðir peninsula, NW Iceland. The sediment cores show on/off signals of glacial meltwater activity, as minerogenic material deposited from glacial meltwater alternates with organic-rich material (gyttja) deposited without glacial meltwater. We base the chronology of the sediment cores on 14 C ages and geochemical identification of key tephra layers with known ages. A 25-cm thick layer of the Saksunarvatn tephra in Lake Skorarvatn indicates that the northern part of the ice cap had reached a similar size as today or was smaller already by 10.2 cal kyr BP. However, 14 C ages of lake sediment cores from the highlands southeast of Drangajökull suggest that this part of the ice cap was larger than today until 7.8–7.2 cal kyr BP. Even today, the Drangajökull ice cap has a different behavior than the main ice caps in Iceland, characterized by a very low glaciation limit. Because palaeoclimatic proxies show an early-mid Holocene temperature optimum in this part of Iceland, we suggest that the persistence of Drangajökull into the early Holocene and, possibly, also the entire Holocene was due to high winter precipitation.