S. D. Birkel scite author profile

The Younger Dryas Stadial (YDS; ∼12,900-11,600 y ago) in the Northern Hemisphere is classically defined by abrupt cooling and renewed glaciation during the last glacial-interglacial transition. Although this event involved a global reorganization of atmospheric and oceanic circulation [Denton GH, Alley RB, Comer GC, Broecker WS (2005) Quat Sci Rev 24:1159-1182], the magnitude, seasonality, and geographical footprint of YDS cooling remain unresolved and pose a challenge to our understanding of abrupt climate change. Here, we present a deglacial chronology from Scotland, immediately downwind of the North Atlantic Ocean, indicating that the Scottish ice cap disintegrated during the first half of the YDS. We suggest that stratification of the North Atlantic Ocean resulted in amplified seasonality that, paradoxically, stimulated a severe wintertime climate while promoting warming summers through solar heating of the mixed layer. This latter process drove deglaciation of downwind landmasses to completion well before the end of the YDS.

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Ice Core Records of West Greenland Melt and Climate Forcing

Graeter

Osterberg

Ferris

et al. 2018

Geophysical Research Letters

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Remote sensing observations and climate models indicate that the Greenland Ice Sheet (GrIS) has been losing mass since the late 1990s, mostly due to enhanced surface melting from rising summer temperatures. However, in situ observational records of GrIS melt rates over recent decades are rare. Here we develop a record of frozen meltwater in the west GrIS percolation zone preserved in seven firn cores. Quantifying ice layer distribution as a melt feature percentage (MFP), we find significant increases in MFP in the southernmost five cores over the past 50 years to unprecedented modern levels (since 1550 CE). Annual to decadal changes in summer temperatures and MFP are closely tied to changes in Greenland summer blocking activity and North Atlantic sea surface temperatures since 1870. However, summer warming of ~1.2°C since 1870–1900, in addition to warming attributable to recent sea surface temperature and blocking variability, is a critical driver of high modern MFP levels.

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Going to Extremes: Installing the World’s Highest Weather Stations on Mount Everest

Matthews

Perry

Koch

et al. 2020

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The Southern Glacial Maximum 65,000 years ago and its Unfinished Termination

Schaefer

Putnam

Denton

et al. 2015

Quaternary Science Reviews

104

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S. D. Birkel

The Last Glacial Maximum at 44°S documented by a 10Be moraine chronology at Lake Ohau, Southern Alps of New Zealand

Younger Dryas deglaciation of Scotland driven by warming summers

Ice Core Records of West Greenland Melt and Climate Forcing

Going to Extremes: Installing the World’s Highest Weather Stations on Mount Everest

The Southern Glacial Maximum 65,000 years ago and its Unfinished Termination

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