Tides modulate crevasse opening prior to amajor calving event at Bowdoin Glacier, Northwest Greenland

Retreat of calving glaciers worldwide has contributed substantially to sea-level rise in recent decades. Mass loss by calving contributes significantly to the uncertainty of sea-level rise projections. At Bowdoin Glacier, Northwest Greenland, most calving occurs by a few large events resulting from...

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Bibliographic Details
Main Authors: van Dongen, Eef, Jouvet, Guillaume, Walter, Andrea, Todd, Joe, Zwinger, Thomas, Asaji, Izumi, Sugiyama, Shin, Walter, Fabian, Funk, Martin
Format: Article in Journal/Newspaper
Language:English
Published: International Glaciological Society 2020
Subjects:
crevasses
glacier monitoring
glacier modelling
iceberg calving
Bowdoin
Greenland
glacier
Journal of Glaciology
Tidewater
Online Access:https://hdl.handle.net/20.500.11850/384152
https://doi.org/10.3929/ethz-b-000384152
Description
Summary:Retreat of calving glaciers worldwide has contributed substantially to sea-level rise in recent decades. Mass loss by calving contributes significantly to the uncertainty of sea-level rise projections. At Bowdoin Glacier, Northwest Greenland, most calving occurs by a few large events resulting from kilometre-scale fractures forming parallel to the calving front. High-resolution terrestrial radar interferometry data of such an event reveal that crevasse opening is fastest at low tide and accelerates during the final 36 h before calving. Using the ice flow model Elmer/Ice, we identify the crevasse water level as a key driver of modelled opening rates. Sea water-level variations in the range of local tidal amplitude (1 m) can reproduce observed opening rate fluctuations, provided crevasse water level is at least 4 m above the low-tide sea level. The accelerated opening rates within the final 36 h before calving can be modelled by additional meltwater input into the crevasse, enhanced ice cliff undercutting by submarine melt, ice damage increase due to tidal cyclic fatigue, crevasse deepening or a combination of these processes. Our results highlight the influence of surface meltwater and tides on crevasse opening leading to major calving events at grounded tidewater glaciers such as Bowdoin. ISSN:0022-1430 ISSN:1727-5652

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