Investigating the Radar Response of Englacial Debris Entrained Basal Ice Units in East Antarctica Using Electromagnetic Forward Modeling
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Investigating the Radar Response of Englacial Debris Entrained Basal Ice Units in East Antarctica Using Electromagnetic Forward Modeling. / Franke, Steven; Gerber, Tamara; Warren, Craig; Jansen, Daniela; Eisen, Olaf; Dahl-Jensen, Dorthe.
In: IEEE Transactions on Geoscience and Remote Sensing, Vol. 61, 4301516, 19.05.2023.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - Investigating the Radar Response of Englacial Debris Entrained Basal Ice Units in East Antarctica Using Electromagnetic Forward Modeling
AU - Franke, Steven
AU - Gerber, Tamara
AU - Warren, Craig
AU - Jansen, Daniela
AU - Eisen, Olaf
AU - Dahl-Jensen, Dorthe
N1 - Publisher Copyright: © 1980-2012 IEEE.
PY - 2023/5/19
Y1 - 2023/5/19
N2 - Radio-echo sounding (RES) reveals patches of high backscatter in basal ice units, which represent distinct englacial features in the bottom parts of glaciers and ice sheets. Their material composition and physical properties are largely unknown due to their direct inaccessibility but could provide significant information on the physical state as well as on present and past processes at the ice-sheet base. Here, we investigate the material properties of basal ice units by comparing measured airborne radar data with synthetic radar responses generated using electromagnetic (EM) forward modeling. The observations were acquired at the onset of the Jutulstraumen Ice Stream in western Dronning Maud Land (DML) (East Antarctica) and show strong continuous near-basal reflections of up to 200-m thickness in the normally echo-free zone (EFZ). Based on our modeling, we suggest that these high-backscatter units are most likely composed of point reflectors with low dielectric properties, suggesting thick packages of englacial entrained debris. We further investigate the effects of entrained particle size, and concentration in combination with different dielectric properties, which provide useful information to constrain the material composition of radar-detected units of high backscatter. The capability and application of radar wave modeling in complex englacial environments is therefore a valuable tool to further constrain the composition of basal ice and the physical conditions at the ice base.
AB - Radio-echo sounding (RES) reveals patches of high backscatter in basal ice units, which represent distinct englacial features in the bottom parts of glaciers and ice sheets. Their material composition and physical properties are largely unknown due to their direct inaccessibility but could provide significant information on the physical state as well as on present and past processes at the ice-sheet base. Here, we investigate the material properties of basal ice units by comparing measured airborne radar data with synthetic radar responses generated using electromagnetic (EM) forward modeling. The observations were acquired at the onset of the Jutulstraumen Ice Stream in western Dronning Maud Land (DML) (East Antarctica) and show strong continuous near-basal reflections of up to 200-m thickness in the normally echo-free zone (EFZ). Based on our modeling, we suggest that these high-backscatter units are most likely composed of point reflectors with low dielectric properties, suggesting thick packages of englacial entrained debris. We further investigate the effects of entrained particle size, and concentration in combination with different dielectric properties, which provide useful information to constrain the material composition of radar-detected units of high backscatter. The capability and application of radar wave modeling in complex englacial environments is therefore a valuable tool to further constrain the composition of basal ice and the physical conditions at the ice base.
KW - Antarctic ice sheet
KW - basal freeze-on
KW - basal ice
KW - electromagnetic (EM) forward modeling
KW - gprMax
KW - ice accretion
KW - Jutulstraumen ice stream
KW - radio-echo sounding (RES)
KW - sediment entrainment
U2 - 10.1109/TGRS.2023.3277874
DO - 10.1109/TGRS.2023.3277874
M3 - Journal article
AN - SCOPUS:85160216137
VL - 61
JO - IEEE Transactions on Geoscience and Remote Sensing
JF - IEEE Transactions on Geoscience and Remote Sensing
SN - 0196-2892
M1 - 4301516
ER -
ID: 360817940