Drift, Deformation, and Fracture of Sea Ice

Download or Read eBook Drift, Deformation, and Fracture of Sea Ice PDF written by Jerome Weiss and published by Springer Science & Business Media. This book was released on 2013-03-14 with total page 95 pages. Available in PDF, EPUB and Kindle.
Drift, Deformation, and Fracture of Sea Ice
Author :
Publisher : Springer Science & Business Media
Total Pages : 95
Release :
ISBN-10 : 9789400762022
ISBN-13 : 940076202X
Rating : 4/5 (22 Downloads)

Book Synopsis Drift, Deformation, and Fracture of Sea Ice by : Jerome Weiss

Book excerpt: Sea ice is a major component of polar environments, especially in the Arctic where it covers the entire Arctic Ocean throughout most of the year. However, in the context of climate change, the Arctic sea ice cover has been declining significantly over the last decades, either in terms of its concentration or thickness. The sea ice cover evolution and climate change are strongly coupled through the albedo positive feedback, thus possibly explaining the Arctic amplification of climate warming. In addition to thermodynamics, sea ice kinematics (drift, deformation) appears as an essential factor in the evolution of the ice cover through a reduction of the average ice age (and consequently of the cover's thickness), or ice export out of the Arctic. This is a first motivation for a better understanding of the kinematical and mechanical processes of sea ice. A more upstream, theoretical motivation is a better understanding of the brittle deformation of geophysical objects across a wide range of scales. Indeed, owing to its very strong kinematics, compared e.g. to the Earth’s crust, an unrivaled kinematical data set is available for sea ice from in situ (e.g. drifting buoys) or satellite observations. Here, we review the recent advances in the understanding of sea ice drift, deformation and fracturing obtained from these data. We focus particularly on the scaling properties in time and scale that characterize these processes, and we emphasize the analogies that can be drawn from the deformation of the Earth’s crust. These scaling properties, which are the signature of long-range elastic interactions within the cover, constrain future developments in the modeling of sea ice mechanics. We also show that kinematical and rheological variables such as average velocity, average strain-rate or strength have significantly changed over the last decades, accompanying and actually accelerating the Arctic sea ice decline.


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