A Complex Relationship Between Calving Glaciers and Climate
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Material Information

Title:
A Complex Relationship Between Calving Glaciers and Climate
Series Title:
Eos Transactions Volume 92, Number 37
Creator:
Post, Austin
O'Neel, Shad
Motyka, Roman J.
Streveler, Gregory
Affiliation:
United States Geological Survey
United States Geological Survey -- Alaska Science Center
University of Alaska -- Fairbanks -- Geophysical Institute
Icy Strait Environmental Services
Publisher:
American Geophysical Union
Publication Date:

Notes

Abstract:
Many terrestrial glaciers are sensitive indicators of past and present climate change as atmospheric temperature and snowfall modulate glacier volume. However, climate interpretations based on glacier behavior require careful selection of representative glaciers, as was recently pointed out for surging and debris-covered glaciers, whose behavior often defies regional glacier response to climate [Yde and Paasche, 2010]. Tidewater calving glaciers (TWGs)— mountain glaciers whose termini reach the sea and are generally grounded on the seafloor— also fall into the category of non-representative glaciers because the regional-scale asynchronous behavior of these glaciers clouds their complex relationship with climate. TWGs span the globe; they can be found both fringing ice sheets and in high-latitude regions of each hemisphere. TWGs are known to exhibit cyclic behavior, characterized by slow advance and rapid, unstable retreat, largely independent of short-term climate forcing. This so-called TWG cycle, first described by Post [1975], provides a solid foundation upon which modern investigations of TWG stability are built. Scientific understanding has developed rapidly as a result of the initial recognition of their asynchronous cyclicity, rendering greater insight into the hierarchy of processes controlling regional behavior. This has improved the descriptions of the strong dynamic feedbacks present during retreat, the role of the ocean in TWG dynamics, and the similarities and differences between TWG and ice sheet outlet glaciers that can often support floating tongues. ( English )

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Florida International University
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