A Comparison Between Derived Internal Dielectric Properties and Radio-Echo Sounding Records of the Ice Sheet at Cape Folger, Antarctica

The use of radio-echo sounding records to indicate the presence of internal layers within large ice sheets is of interest to glaciologists because it offers a means of tracking the internal properties of the ice sheets over large distances. The interpretation of the reflections obtained in this mann...

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Bibliographic Details
Main Authors: Keliher,T E, Ackley,S F
Other Authors: COLD REGIONS RESEARCH AND ENGINEERING LAB HANOVER N H
Format: Text
Language:English
Published: 1978
Subjects:
Snow
Ice and Permafrost
Acoustics
Electricity and Magnetism
*DIELECTRIC PROPERTIES
*ICE
*ACOUSTIC PROPERTIES
DENSITY
LAYERS
DEFORMATION
REFLECTION
GLACIOLOGY
INTERNAL
ECHO RANGING
ANTARCTIC REGIONS
COLD WEATHER TESTS
SOUNDING
Cape Folger
PE61102A
WU002
AST24
Antarctic
East Antarctica
Folger
Antarc*
Antarctica
Ice
Ice Sheet
permafrost
Online Access:http://www.dtic.mil/docs/citations/ADA055245
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA055245
Description
Summary:The use of radio-echo sounding records to indicate the presence of internal layers within large ice sheets is of interest to glaciologists because it offers a means of tracking the internal properties of the ice sheets over large distances. The interpretation of the reflections obtained in this manner is more valuable, however, if a physical property change relating to the glaciological regime can be related to the dielectric property change producing the radio-echo reflections. In this report, we use the measured physical properties of core to bedrock taken at Cape Folger, East Antarctica (66 deg 22 min s, 111 deg (E), 324-m depth), to compute a profile of dielectric properties and from this, a depth-reflection coefficient profile for comparison with observed radio-echo reflections. The measurements available on physical properties are: density variations, bubble size and shape changes, and crystal fabric variations. The depths of the strong reflections shown on the available radio-echo records are in reasonable agreement with the depths corresponding to the highest reflection coefficients computed from the combined physical property measurements. In calculations to differentiate the separate effects of different physical properties, it appears that density variations account for the primary contributions to the calculated dielectric property changes corresponding to the highest reflection coefficients. However, bubble changes alone can also account for reasonable, though lower, reflection coefficients at the appropriate depths. Crystal fabric variations correspond poorly with the reflection locations. Density variations are normally associated with depositional events in the history of the ice sheet.

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