Rock glacier characteristics serve as an indirect record of multiple alpine glacier advances in Taylor Valley, Antarctica
Abstract
The geomorphic record indicates that alpine glaciers in the McMurdo Dry Valleys of southern Victoria Land, Antarctica, appear to advance during interglacial periods in response to ice-free conditions in the Ross Sea. Few records of these advances are preserved and/or subaerially exposed, complicating the interpretations of regional glacier response to climate changes. Here, we present geophysical and geochemical analyses of a rock glacier that originates from icefalls fed by alpine Doran Glacier in central Taylor Valley. The rock glacier exhibits a trend of increased weathering of granitic clasts via ventifaction and grussification down-flow. Meltwater ponds on the rock glacier exhibit variable salinity that ranges from freshwater to higher than seawater, with the highest salinity pond near the rock glacier toe. Ground-penetrating radar analyses reveal the feature to possess a primarily clean ice interior, with layers of englacial debris. Stable isotopic data from three ice cores support a glacial origin for the ice within the rock glacier. These data suggest that the current morphology of the rock glacier is the result of multiple events of increased ice contribution caused by advances of Doran Glacier, which is the main source of ice to the rock glacier. We therefore demonstrate the potential of ice-cored rock glaciers to record multiple advances and retreats of Dry Valley glaciers, permitting the interpretation of glacial responses to Pleistocene and Holocene climate change even where direct records are not present.
Additional Information
© 2020 Author(s). This work is distributed under the Creative Commons Attribution 4.0 License. Published by Copernicus Publications on behalf of the European Geosciences Union. Received: 03 Jun 2019 – Discussion started: 18 Jun 2019 – Revised: 02 Nov 2019 – Accepted: 04 Nov 2019 – Published: 02 Jan 2020. Data availability: All geochemical data are provided in the Supplement. The supplement related to this article is available online at: https://doi.org/10.5194/tc-14-1-2020-supplement. Author contributions: All authors participated in field observations, GPR surveying, and ice core collection. KMS organized and led the field campaign. KW and KMS collected soil and ice hand samples. EB directed GPR surveying and performed all GPR data processing. KW processed samples for major ion analyses. KW and KMS processed samples for stable isotope analyses. KW, KMS, and EB prepared the paper, created figures, and made tables. The authors declare that they have no conflict of interest. The authors would like to thank the McMurdo Station support staff, especially those at the Berg Field Center, Petroleum Helicopters International, and the Crary Laboratory, for assistance during the field season. Geoff Hargreaves and crew were of great assistance in subsampling ice cores at the National Ice Core Laboratory. Fred Luiszer (University of Colorado-Boulder) analyzed samples for major ions and Robert Michener (Boston University) analyzed samples for stable isotopes. Useful discussions were had with Maciej Obryk. We also thank the two anonymous reviewers. This research has been supported by the United States National Science Foundation Office of Polar Programs (grant no. 1341284). This paper was edited by Peter Morse and reviewed by two anonymous referees.Attached Files
Published - tc-14-1-2020.pdf
Supplemental Material - tc-14-1-2020-supplement.pdf
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Additional details
- Eprint ID
- 100754
- Resolver ID
- CaltechAUTHORS:20200116-090202970
- OPP-1341284
- NSF
- Created
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2020-01-16Created from EPrint's datestamp field
- Updated
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2023-06-02Created from EPrint's last_modified field