Development of crystal orientation fabric in the Dome Fuji ice core in East Antarctica: implications for the deformation regime in ice sheets
The crystal orientation fabric (COF) of a polar ice sheet has a significant effect on the rheology of the ice sheet. With the aim of better understanding the deformation regime of ice sheets, the work presented here investigates the COF in the upper 80 % of the Dome Fuji Station ice core in East Ant...
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| Published in | The cryosphere Vol. 16; no. 7; pp. 2985 - 3003 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
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Katlenburg-Lindau
Copernicus GmbH
27.07.2022
Copernicus Publications |
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| Abstract | The crystal orientation fabric (COF) of a polar ice sheet
has a significant effect on the rheology of the ice sheet. With the aim of
better understanding the deformation regime of ice sheets, the work
presented here investigates the COF in the upper 80 % of the Dome Fuji
Station ice core in East Antarctica. Dielectric anisotropy (Δε) data were acquired as a novel indicator of the vertical
clustering of COF resulting from vertical compressional strain within the
dome. The Δε values were found to exhibit a general
increase with depth, but with fluctuations over distances in the order of
10–102 m. In addition, significant decreases in Δε
were found to be associated with depths corresponding to three major glacial
to interglacial transitions. These changes in Δε are
ascribed to variations in the deformational history caused by dislocation
motion occurring from near-surface depths to deeper layers. Fluctuations in
Δε over distances of less than 0.5 m exhibited a strong
inverse correlation with Δε at depths greater than
approximately 1200 m, indicating that they were enhanced during the
glacial-interglacial transitions. The Δε data also
exhibited a positive correlation with the concentration of chloride ions and
an inverse correlation with the amount of dust particles in the ice core at
greater depths corresponding to decreases in the degree of c axis clustering.
Finally, we found that fluctuations in Δε persisted to
approximately 80 % of the total depth of the ice sheet. These data suggest
that the factors determining the deformation of ice include the
concentration of chloride ions and the amount of dust particles, and that
the layered contrast associated with the COF is preserved all the way from
the near-surface to a depth corresponding to approximately 80 % of the
thickness of the ice sheet. These findings provide important implications
regarding further development of the COF under the various stress-strain
configurations that the ice will experience in the deepest region,
approximately 20 % of the total depth from the ice/bed interface. |
|---|---|
| AbstractList | The crystal orientation fabric (COF) of a polar ice sheet has a significant effect on the rheology of the ice sheet. With the aim of better understanding the deformation regime of ice sheets, the work presented here investigates the COF in the upper 80 % of the Dome Fuji Station ice core in East Antarctica. Dielectric anisotropy (Îε) data were acquired as a novel indicator of the vertical clustering of COF resulting from vertical compressional strain within the dome. The Îε values were found to exhibit a general increase with depth, but with fluctuations over distances in the order of 10-10.sup.2 m. In addition, significant decreases in Îε were found to be associated with depths corresponding to three major glacial to interglacial transitions. These changes in Îε are ascribed to variations in the deformational history caused by dislocation motion occurring from near-surface depths to deeper layers. Fluctuations in Îε over distances of less than 0.5 m exhibited a strong inverse correlation with Îε at depths greater than approximately 1200 m, indicating that they were enhanced during the glacial-interglacial transitions. The Îε data also exhibited a positive correlation with the concentration of chloride ions and an inverse correlation with the amount of dust particles in the ice core at greater depths corresponding to decreases in the degree of c axis clustering. Finally, we found that fluctuations in Îε persisted to approximately 80 % of the total depth of the ice sheet. These data suggest that the factors determining the deformation of ice include the concentration of chloride ions and the amount of dust particles, and that the layered contrast associated with the COF is preserved all the way from the near-surface to a depth corresponding to approximately 80 % of the thickness of the ice sheet. These findings provide important implications regarding further development of the COF under the various stress-strain configurations that the ice will experience in the deepest region, approximately 20 % of the total depth from the ice/bed interface. The crystal orientation fabric (COF) of a polar ice sheet has a significant effect on the rheology of the ice sheet. With the aim of better understanding the deformation regime of ice sheets, the work presented here investigates the COF in the upper 80 % of the Dome Fuji Station ice core in East Antarctica. Dielectric anisotropy (Δε) data were acquired as a novel indicator of the vertical clustering of COF resulting from vertical compressional strain within the dome. The Δε values were found to exhibit a general increase with depth, but with fluctuations over distances in the order of 10–102 m. In addition, significant decreases in Δε were found to be associated with depths corresponding to three major glacial to interglacial transitions. These changes in Δε are ascribed to variations in the deformational history caused by dislocation motion occurring from near-surface depths to deeper layers. Fluctuations inΔε over distances of less than 0.5 m exhibited a strong inverse correlation with Δε at depths greater than approximately 1200 m, indicating that they were enhanced during the glacial-interglacial transitions. The Δε data also exhibited a positive correlation with the concentration of chloride ions and an inverse correlation with the amount of dust particles in the ice core at greater depths corresponding to decreases in the degree of c axis clustering. Finally, we found that fluctuations in Δε persisted to approximately 80 % of the total depth of the ice sheet. These data suggest that the factors determining the deformation of ice include the concentration of chloride ions and the amount of dust particles, and that the layered contrast associated with the COF is preserved all the way from the near-surface to a depth corresponding to approximately 80 % of the thickness of the ice sheet. These findings provide important implications regarding further development of the COF under the various stress-strain configurations that the ice will experience in the deepest region, approximately 20 % of the total depth from the ice/bed interface. The crystal orientation fabric (COF) of a polar ice sheet has a significant effect on the rheology of the ice sheet. With the aim of better understanding the deformation regime of ice sheets, the work presented here investigates the COF in the upper 80 % of the Dome Fuji Station ice core in East Antarctica. Dielectric anisotropy ( Δε ) data were acquired as a novel indicator of the vertical clustering of COF resulting from vertical compressional strain within the dome. The Δε values were found to exhibit a general increase with depth, but with fluctuations over distances in the order of 10–10 2 m. In addition, significant decreases in Δε were found to be associated with depths corresponding to three major glacial to interglacial transitions. These changes in Δε are ascribed to variations in the deformational history caused by dislocation motion occurring from near-surface depths to deeper layers. Fluctuations in Δε over distances of less than 0.5 m exhibited a strong inverse correlation with Δε at depths greater than approximately 1200 m, indicating that they were enhanced during the glacial-interglacial transitions. The Δε data also exhibited a positive correlation with the concentration of chloride ions and an inverse correlation with the amount of dust particles in the ice core at greater depths corresponding to decreases in the degree of c axis clustering. Finally, we found that fluctuations in Δε persisted to approximately 80 % of the total depth of the ice sheet. These data suggest that the factors determining the deformation of ice include the concentration of chloride ions and the amount of dust particles, and that the layered contrast associated with the COF is preserved all the way from the near-surface to a depth corresponding to approximately 80 % of the thickness of the ice sheet. These findings provide important implications regarding further development of the COF under the various stress-strain configurations that the ice will experience in the deepest region, approximately 20 % of the total depth from the ice/bed interface. The crystal orientation fabric (COF) of a polar ice sheet has a significant effect on the rheology of the ice sheet. With the aim of better understanding the deformation regime of ice sheets, the work presented here investigates the COF in the upper 80 % of the Dome Fuji Station ice core in East Antarctica. Dielectric anisotropy (Δε) data were acquired as a novel indicator of the vertical clustering of COF resulting from vertical compressional strain within the dome. The Δε values were found to exhibit a general increase with depth, but with fluctuations over distances in the order of 10–102 m. In addition, significant decreases in Δε were found to be associated with depths corresponding to three major glacial to interglacial transitions. These changes in Δε are ascribed to variations in the deformational history caused by dislocation motion occurring from near-surface depths to deeper layers. Fluctuations in Δε over distances of less than 0.5 m exhibited a strong inverse correlation with Δε at depths greater than approximately 1200 m, indicating that they were enhanced during the glacial-interglacial transitions. The Δε data also exhibited a positive correlation with the concentration of chloride ions and an inverse correlation with the amount of dust particles in the ice core at greater depths corresponding to decreases in the degree of c axis clustering. Finally, we found that fluctuations in Δε persisted to approximately 80 % of the total depth of the ice sheet. These data suggest that the factors determining the deformation of ice include the concentration of chloride ions and the amount of dust particles, and that the layered contrast associated with the COF is preserved all the way from the near-surface to a depth corresponding to approximately 80 % of the thickness of the ice sheet. These findings provide important implications regarding further development of the COF under the various stress-strain configurations that the ice will experience in the deepest region, approximately 20 % of the total depth from the ice/bed interface. |
| Audience | Academic |
| Author | Goto-Azuma, Kumiko Saruya, Tomotaka Miyamoto, Atsushi Fujita, Shuji Hirabayashi, Motohiro Shigeyama, Wataru Iizuka, Yoshinori Hori, Akira Ohno, Hiroshi |
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| Snippet | The crystal orientation fabric (COF) of a polar ice sheet
has a significant effect on the rheology of the ice sheet. With the aim of
better understanding the... The crystal orientation fabric (COF) of a polar ice sheet has a significant effect on the rheology of the ice sheet. With the aim of better understanding the... |
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| SubjectTerms | Anisotropy Atmospheric particulates Automation Chloride ions Chlorides Climate change Clustering Correlation Crystal structure Crystals Data acquisition Deformation Depth Domes Dust Dust particles Eigenvalues Fabrics Fluctuations Glaciation Ice Ice caps Ice cores Ice cover Ice sheets Interglacial periods Ions Rheological properties Rheology Strain Structure |
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| Title | Development of crystal orientation fabric in the Dome Fuji ice core in East Antarctica: implications for the deformation regime in ice sheets |
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