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Changes in Greenland ice sheet elevation attributed primarily to snow accumulation variability

Author

Listed:
  • J. R. McConnell

    (Desert Research Institute, University & Community College System of Nevada)

  • R. J. Arthern

    (Applied Physics Laboratory, University of Washington)

  • E. Mosley-Thompson

    (The Ohio State University)

  • C. H. Davis

    (Department of Electrical Engineering University of Missouri-Columbia)

  • R. C. Bales

    (University of Arizona)

  • R. Thomas

    (EG&G Services, NASA Wallops Flight Facility)

  • J. F. Burkhart

    (University of Arizona)

  • J. D. Kyne

    (Snow & Ice Research Group, University of Nebraska)

Abstract

The response of grounded ice sheets to a changing climate critically influences possible future changes in sea level. Recent satellite surveys over southern Greenland show little overall elevation change at higher elevations, but large spatial variability1,2,3. Using satellite studies alone, it is not possible to determine the geophysical processes responsible for the observed elevation changes and to decide if recent rates of change exceed the natural variability. Here we derive changes in ice-sheet elevation in southern Greenland, for the years 1978–88, using a physically based model of firn densification4 and records of annual snow accumulation reconstructed from 12 ice cores at high elevation. Our patterns of accumulation-driven elevation change agree closely with contemporaneous satellite measurements of ice-sheet elevation change, and we therefore attribute the changes observed in 1978–88 to variability in snow accumulation. Similar analyses of longer ice-core records show that in this decade the Greenland ice sheet exhibited typical variability at high elevations, well within the long-term natural variability. Our results indicate that a better understanding of ice-sheet mass changes will require long-term measurements of both surface elevation and snow accumulation.

Suggested Citation

  • J. R. McConnell & R. J. Arthern & E. Mosley-Thompson & C. H. Davis & R. C. Bales & R. Thomas & J. F. Burkhart & J. D. Kyne, 2000. "Changes in Greenland ice sheet elevation attributed primarily to snow accumulation variability," Nature, Nature, vol. 406(6798), pages 877-879, August.
    • Handle: RePEc:nat:nature:v:406:y:2000:i:6798:d:10.1038_35022555
    DOI: 10.1038/35022555
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