Evaluation of Sea Ice Kinematics and their Impact on Ice Thickness Distribution in the Arctic
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Authors
Murnane
Mark
Subjects
Arctic Ocean
Sea Ice Variability
Coupled Ice-Ocean Model
Sea Ice Dynamics
Sea Ice Thickness Distribution
Sea Ice Variability
Coupled Ice-Ocean Model
Sea Ice Dynamics
Sea Ice Thickness Distribution
Advisors
Maslowski, Wieslaw
Kwok, Ron
Date of Issue
2012-03
Date
Mar-12
Publisher
Monterey, California. Naval Postgraduate School
Language
Abstract
Sea ice area and thickness have been on the decline in the Arctic over the past several decades. Understanding the role of ice motion, deformation, and export is important to determining if the Arctic will continue toward seasonal ice coverage or if natural variability is capable of reversing this trend. We have analyzed sea ice model output and satellite data to advance the understanding of potentially critical physical processes and feedbacks in the region. In particular, comparisons of RGPS data and sea ice results from ice-ocean and fully coupled regional climate models have been made to evaluate model skill in representing ice kinematics. Both sea ice model configurations maintain a 1/12o (~9km) horizontal spacing and multiple thickness categories in each grid cell. Advanced model representation of sea ice deformations, combined with high spatial resolution, allow direct comparison with satellite data for resolving small-scale linear kinematic features, which contribute to changes in sea ice thickness distribution. These results offer an improved insight into what forces determine the survivability of sea ice in the Arctic.
Type
Thesis
Description
Series/Report No
Department
Meteorology
Physical Oceanography