Examples of Ice Pack Rigidity and Mobility Characteristics Determined from Ice Motion

A method has been developed to determine ice pack rigidity and mobility using observed ice motion. With this method, one may determine how solidly the ice pack is frozen in near real-time. Spatial and temporal variations in the freezing and thawing of the ice pack can also be studied. This method wa...

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Bibliographic Details
Main Authors: Lewis, James K, Englebretson, Ronald E, Denner, Warren W
Other Authors: SCIENCE APPLICATIONS INTERNATIONAL CORP COLLEGE STATION TX
Format: Text
Language:English
Published: 1988
Subjects:
Snow
Ice and Permafrost
*PACK ICE
BAROMETRIC PRESSURE
PRESSURE DISTRIBUTION
FREEZING
ICE
MOTION
RIGIDITY
THAWING
MOBILITY
BEAUFORT SEA
COVERINGS
MECHANICAL PROPERTIES
MATHEMATICAL MODELS
REMOTE DETECTORS
SEASONAL VARIATIONS
SUMMER
VELOCITY
SEA ICE
HISTORY
TIME
ALASKA
COASTAL REGIONS
NORTH(DIRECTION)
SPATIAL DISTRIBUTION
TIME INTERVALS
Beaufort Sea
Ice
ice pack
permafrost
Sea ice
Alaska
Online Access:http://www.dtic.mil/docs/citations/ADA191163
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA191163
Description
Summary:A method has been developed to determine ice pack rigidity and mobility using observed ice motion. With this method, one may determine how solidly the ice pack is frozen in near real-time. Spatial and temporal variations in the freezing and thawing of the ice pack can also be studied. This method was developed to study how well numerical ice modeling techniques were reproducing actual sea ice processes. The ice pack rigidity parameter is now being used to compare observed periods of ice pack thawing and freezing with model from the same regions and times. Various degrees of ice rigidity and mobility were studied using remotely-sensed ice motion data off the north coast of Alaska during 1975 and 1979. Characteristics of the time histories of pack ice speed were used to infer changes in the rigidity of pack ice. Summer-time ice rigidities were detected first in late June 1975 and lasted through September. However, in 1979 considerably higher rigidities were found in August while summer-like rigidities were detected into late November. Analyses of atmospheric pressure distributions suggest that less mechanical breakup occurred in the summer of 1979, resulting in the greater rigidities during August of that year. Minimum ice coverage was 20% less in the Beaufort Sea in 1979 than in 1975 resulting in a relatively large percent of thinner ice for November of 1979 than for 1975, the likely cause of the less rigid conditions in the fall of 1979.

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