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Research ArticleArticles

Glacial geology and cosmogenic-nuclide exposure ages from the Tucker Glacier - Whitehall Glacier confluence, northern Victoria Land, Antarctica

Greg Balco, Claire Todd, Brent M. Goehring, Isaac Moening-Swanson and Keir Nichols
American Journal of Science April 2019, 319 (4) 255-286; DOI: https://doi.org/10.2475/04.2019.01
Greg Balco
* Berkeley Geochronology Center, 2455 Ridge Road, Berkeley, California, USA
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  • For correspondence: balcs@bgc.org
Claire Todd
** Pacific Lutheran University, Tacoma, Washington USA
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Brent M. Goehring
*** Tulane University, New Orleans, Louisiana USA
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Isaac Moening-Swanson
** Pacific Lutheran University, Tacoma, Washington USA
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Keir Nichols
*** Tulane University, New Orleans, Louisiana USA
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Abstract

We describe glacial-geological observations and cosmogenic-nuclide exposure ages from the vicinity of the present grounding line of Tucker Glacier, a large alpine glacier flowing from the mountains of northern Victoria Land, East Antarctica, into the outer Ross Sea. These data are relevant for constraining the extent of ice sheet expansion and retreat in the Ross Sea, and associated eustatic sea level impact, between the Last Glacial Maximum (LGM) and the present. In addition, a terrestrial geological record of ice thickness change from this region could provide evidence for or against the hypothesis that rapid eustatic sea-level rise during meltwater pulse 1A (“MWP-1A”) at 14.6 ka was in part the result of rapid, large-scale thinning or breakup of a marine-based portion of the LGM ice sheet in the outer Ross Sea. Glacial-geological observations, exposure ages on glacial deposits, and a novel application of in-situ-produced cosmogenic 14C in quartz-bearing bedrock to identify the limits of LGM ice cover in the absence of direct geomorphic evidence, show that Tucker Glacier near its present grounding line was 300 to 350 m thicker than present during the LGM and thinned steadily between 17 to 5 ka. The largest possible rapid thickness change in the time period 14 to 15 ka that could be accommodated by the exposure-age data is ∼50 m, which is a small fraction of that predicted for the western Ross Sea by model simulations of the Antarctic contribution to MWP-1A. There do exist possible scenarios in which hypothesized marine ice sheet collapse in the outer Ross Sea during MWP-1A might not be recorded by ice thickness changes at Tucker Glacier. However, our record of ice thickness changes spanning this time period is the closest such record to the outer Ross Sea that is likely to exist, and it agrees with all exposure-age deglaciation chronologies from other regions of the Ross embayment in providing no evidence for such an event.

  • Antarctica
  • Victoria Land
  • Tucker Glacier
  • Ross Sea
  • Last Glacial Maximum
  • exposure-dating
  • glacial geology
  • cosmogenic-nuclide geochemistry
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American Journal of Science: 319 (4)
American Journal of Science
Vol. 319, Issue 4
1 Apr 2019
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Glacial geology and cosmogenic-nuclide exposure ages from the Tucker Glacier - Whitehall Glacier confluence, northern Victoria Land, Antarctica
Greg Balco, Claire Todd, Brent M. Goehring, Isaac Moening-Swanson, Keir Nichols
American Journal of Science Apr 2019, 319 (4) 255-286; DOI: 10.2475/04.2019.01

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Glacial geology and cosmogenic-nuclide exposure ages from the Tucker Glacier - Whitehall Glacier confluence, northern Victoria Land, Antarctica
Greg Balco, Claire Todd, Brent M. Goehring, Isaac Moening-Swanson, Keir Nichols
American Journal of Science Apr 2019, 319 (4) 255-286; DOI: 10.2475/04.2019.01
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  • Article
    • Abstract
    • INTRODUCTION
    • THE TUCKER-WHITEHALL CONFLUENCE REGION
    • SURFICIAL GEOLOGY AND GLACIAL DEPOSITS
    • COSMOGENIC-NUCLIDE EXPOSURE DATING
    • SAMPLE COLLECTION AND ANALYTICAL METHODS
    • RESULTS AND DISCUSSION
    • CONCLUSIONS
    • ACKNOWLEDGMENTS
    • REFERENCES
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Keywords

  • Antarctica
  • Victoria Land
  • Tucker Glacier
  • Ross Sea
  • Last Glacial Maximum
  • exposure-dating
  • glacial geology
  • cosmogenic-nuclide geochemistry

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