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The Gamburtsev mountains and the origin and early evolution of the Antarctic Ice Sheet

Author

Listed:
  • Sun Bo

    (Polar Research Institute of China, 451 Jinqiao Road, Pudong, Shanghai, 200136, China)

  • Martin J. Siegert

    (School of GeoSciences, University of Edinburgh, King’s Buildings, Edinburgh EH9 3JW, UK)

  • Simon M. Mudd

    (School of GeoSciences, University of Edinburgh, King’s Buildings, Edinburgh EH9 3JW, UK)

  • David Sugden

    (School of GeoSciences, University of Edinburgh, King’s Buildings, Edinburgh EH9 3JW, UK)

  • Shuji Fujita

    (National Institute of Polar Research, Research Organization of Information and Systems, Kaga, 1-9-10, Itabashi-ku, Tokyo 173-8515, Japan)

  • Cui Xiangbin

    (Polar Research Institute of China, 451 Jinqiao Road, Pudong, Shanghai, 200136, China)

  • Jiang Yunyun

    (Polar Research Institute of China, 451 Jinqiao Road, Pudong, Shanghai, 200136, China)

  • Tang Xueyuan

    (Polar Research Institute of China, 451 Jinqiao Road, Pudong, Shanghai, 200136, China)

  • Li Yuansheng

    (Polar Research Institute of China, 451 Jinqiao Road, Pudong, Shanghai, 200136, China)

Abstract

The glaciation of Antarctica The manner in which the Antarctic ice sheet first formed, at a time of rapid global climate change about 34 million years ago, has been the subject of considerable speculation. Several lines of evidence point to central Antarctic mountain ranges as the site of the initial ice sheet, but our knowledge of the present ice-sheet topography is highly restricted in the very zone where ice-sheet initiation is most likely: along the subglacial Gamburtsev mountain range at the centre of the present ice sheet. Now a detailed survey and analysis of the morphology of the Gamburtsev mountains has been performed, based on an ice-penetrating radar study conducted over two seasons. The data reveal a mountain landscape initially incised by rivers, then over-deepened by ice movement. The topography — beneath up to 3,000 metres of ice — resembles an exploded version of classic alpine valley topography and seems to have developed more than 34 million years ago, when mean summer temperatures were about 3 °C.

Suggested Citation

  • Sun Bo & Martin J. Siegert & Simon M. Mudd & David Sugden & Shuji Fujita & Cui Xiangbin & Jiang Yunyun & Tang Xueyuan & Li Yuansheng, 2009. "The Gamburtsev mountains and the origin and early evolution of the Antarctic Ice Sheet," Nature, Nature, vol. 459(7247), pages 690-693, June.
  • Handle: RePEc:nat:nature:v:459:y:2009:i:7247:d:10.1038_nature08024
    DOI: 10.1038/nature08024
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    Cited by:

    1. Iestyn D. Barr & Matteo Spagnolo & Brice R. Rea & Robert G. Bingham & Rachel P. Oien & Kathryn Adamson & Jeremy C. Ely & Donal J. Mullan & Ramón Pellitero & Matt D. Tomkins, 2022. "60 million years of glaciation in the Transantarctic Mountains," Nature Communications, Nature, vol. 13(1), pages 1-7, December.
    2. Stewart S. R. Jamieson & Neil Ross & Guy J. G. Paxman & Fiona J. Clubb & Duncan A. Young & Shuai Yan & Jamin Greenbaum & Donald D. Blankenship & Martin J. Siegert, 2023. "An ancient river landscape preserved beneath the East Antarctic Ice Sheet," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    3. Qing Ji & Xiaoping Pang & Xi Zhao, 2014. "A bibliometric analysis of research on Antarctica during 1993–2012," Scientometrics, Springer;Akadémiai Kiadó, vol. 101(3), pages 1925-1939, December.
    4. Marcelo A. De Lira Mota & Tom Dunkley Jones & Nursufiah Sulaiman & Kirsty M. Edgar & Tatsuhiko Yamaguchi & Melanie J. Leng & Markus Adloff & Sarah E. Greene & Richard Norris & Bridget Warren & Grace D, 2023. "Multi-proxy evidence for sea level fall at the onset of the Eocene-Oligocene transition," Nature Communications, Nature, vol. 14(1), pages 1-13, December.

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