The importance of Canadian Arctic Archipelago gateways for glacial expansion in Scandinavia

The last glacial cycle began around 116,000 years before present during a period with low incoming solar radiation in Northern Hemisphere summer. Following the glacial inception in North America, the marine sediment record depicts a weakening of the high-latitude ocean overturning circulation and a...

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Veröffentlicht in:Nature geoscience 2022-06, Vol.15 (6), p.482-488
Hauptverfasser: Lofverstrom, Marcus, Thompson, Diane M., Otto-Bliesner, Bette L., Brady, Esther C.
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Sprache:eng
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Zusammenfassung:The last glacial cycle began around 116,000 years before present during a period with low incoming solar radiation in Northern Hemisphere summer. Following the glacial inception in North America, the marine sediment record depicts a weakening of the high-latitude ocean overturning circulation and a multi-millennial eastward progression of glaciation across the North Atlantic basin. Modelling studies have shown that reduced solar radiation can initiate inception in North America and Siberia; however, the proximity to the temperate North Atlantic typically precludes ice growth in Scandinavia. Using a coupled Earth-system–ice-sheet model, we show that ice forming in North America may help facilitate glacial expansion in Scandinavia. As large coherent ice masses form and start filling the ocean gateways in the Canadian Archipelago, the transport of comparatively fresh North Pacific and Arctic water through the archipelago is diverted east of Greenland, resulting in a freshening of North Atlantic deep convection regions, sea-ice expansion and a substantial cooling that is sufficient to trigger glacial inception in Scandinavia. This mechanism may also help explain the Younger Dryas cold reversal and the rapid regrowth of the Scandinavian Ice Sheet following several warm events in the last glacial period. Infilling of Canadian Arctic ocean gateways by the Laurentide Ice Sheet probably triggered Scandinavian glaciation during the last glacial inception by increasing North Atlantic freshwater inputs, according to coupled ice-sheet–climate-model simulations.
ISSN:1752-0894
1752-0908
DOI:10.1038/s41561-022-00956-9