Transition to marine ice cliff instability controlled by ice thickness gradients and velocity
Transition vers l'instabilité des falaises de glace marine contrôlée par les gradients d'épaisseur de la glace et la vélocité
Bassis, J. N. ; Berg, B. ; Crawford, A. J. ; Benn, D. I.
<br>Portions of ice sheets grounded deep beneath sea level can disintegrate if tall ice cliffs at the ice-ocean boundary start to collapse under their own weight. This process, called marine ice cliff instability, could lead to catastrophic retreat of sections of West Antarctica on decadal-to-century time scales. Here we use a model that resolves flow and failure of ice to show that dynamic thinning can slow or stabilize cliff retreat, but when ice thickness increases rapidly upstream from the ice cliff, there is a transition to catastrophic collapse. However, even if vulnerable locations like Thwaites Glacier start to collapse, small resistive forces from sea-ice and calved debris can slow down or arrest retreat, reducing the potential for sustained ice sheet collapse.<br></p>
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