Identification of Younger Dryas outburst flood path from Lake Agassiz to the Arctic Ocean - PubMed

Affiliations

• PMID: 20360738
• DOI: 10.1038/nature08954

Identification of Younger Dryas outburst flood path from Lake Agassiz to the Arctic Ocean

Julian B Murton et al. Nature. 2010.

Abstract

The melting Laurentide Ice Sheet discharged thousands of cubic kilometres of fresh water each year into surrounding oceans, at times suppressing the Atlantic meridional overturning circulation and triggering abrupt climate change. Understanding the physical mechanisms leading to events such as the Younger Dryas cold interval requires identification of the paths and timing of the freshwater discharges. Although Broecker et al. hypothesized in 1989 that an outburst from glacial Lake Agassiz triggered the Younger Dryas, specific evidence has so far proved elusive, leading Broecker to conclude in 2006 that "our inability to identify the path taken by the flood is disconcerting". Here we identify the missing flood path-evident from gravels and a regional erosion surface-running through the Mackenzie River system in the Canadian Arctic Coastal Plain. Our modelling of the isostatically adjusted surface in the upstream Fort McMurray region, and a slight revision of the ice margin at this time, allows Lake Agassiz to spill into the Mackenzie drainage basin. From optically stimulated luminescence dating we have determined the approximate age of this Mackenzie River flood into the Arctic Ocean to be shortly after 13,000 years ago, near the start of the Younger Dryas. We attribute to this flood a boulder terrace near Fort McMurray with calibrated radiocarbon dates of over 11,500 years ago. A large flood into the Arctic Ocean at the start of the Younger Dryas leads us to reject the widespread view that Agassiz overflow at this time was solely eastward into the North Atlantic Ocean.

Comment in

• River reveals chilling tracks of ancient flood.

  Schiermeier Q. Schiermeier Q. Nature. 2010 Apr 1;464(7289):657. doi: 10.1038/464657a. Nature. 2010. PMID: 20360702 No abstract available.

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