| Summary: | We examine the influence of different deglacial histories of the North American ice saddle, which connected the Cordilleran ice sheet and western Laurentide ice sheet, on the stability of the fastâ€flowing Amundsen Gulf Ice Stream, located in the northwestern Laurentide ice sheet. We use a simplified marineâ€terminating ice stream model to simulate grounding line retreat and compare our predictions to geologic evidence for the rapid collapse of the Amundsen Gulf Ice Stream at 13 ka. We show that observations of ice stream retreat can be used to distinguish between past ice unloading histories, and that the rapid retreat of the Amundsen Gulf Ice Stream near 13 ka is most dynamically consistent with substantial deglaciation of the North American ice saddle from 13 to 11.5 ka, during the Younger Dryas cooling episode. These results suggest that shortâ€lived changes in ice stream behavior may be used to reveal largerâ€scale and longerâ€duration ice sheet dynamics. © 2019 American Geophysical Union. Received 1 AUG 2019; Accepted 1 OCT 2019; Accepted article online 16 OCT 2019; Published online 11 NOV 2019. T.P. acknowledges funding from Harvard University and NSFâ€GRFP. Ice models used for this research are available at PANGAEA, a publicly accessible online repository, at https://issues.pangaea.de/browse/PDIâ€21803. Published - 2019GL084789.pdf Supplemental Material - grl59686-sup-0001-grl59686_supp_info.pdf
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