1. Ice-shelf collapse from subsurface warming as a trigger for Heinrich events
- Author
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Marcott, Shaun A., Clark, Peter U., Padman, Laurie, Klinkhammer, Gary P., Springer, Scott R., Liu, Zhengyu, Otto-bliesner, Bette L., Carlson, Anders E., Ungerer, Andy, Padman, June, He, Feng, Cheng, Jun, Schmittner, Andreas, Marcott, Shaun A., Clark, Peter U., Padman, Laurie, Klinkhammer, Gary P., Springer, Scott R., Liu, Zhengyu, Otto-bliesner, Bette L., Carlson, Anders E., Ungerer, Andy, Padman, June, He, Feng, Cheng, Jun, and Schmittner, Andreas
- Abstract
Episodic iceberg-discharge events from the Hudson Strait Ice Stream (HSIS) of the Laurentide Ice Sheet, referred to as Heinrich events, are commonly attributed to internal ice-sheet instabilities, but their systematic occurrence at the culmination of a large reduction in the Atlantic meridional overturning circulation (AMOC) indicates a climate control. We report Mg/Ca data on benthic foraminifera from an intermediate-depth site in the northwest Atlantic and results from a climate-model simulation that reveal basin-wide subsurface warming at the same time as large reductions in the AMOC, with temperature increasing by approximately 2 C over a 1-2 kyr interval prior to a Heinrich event. In simulations with an ocean model coupled to a thermodynamically active ice shelf, the increase in subsurface temperature increases basal melt rate under an ice shelf fronting the HSIS by a factor of approximately 6. By analogy with recent observations in Antarctica, the resulting ice-shelf loss and attendant HSIS acceleration would produce a Heinrich event.
- Published
- 2011
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