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Recent mass balance of polar ice sheets inferred from patterns of global sea-level change

Author

Listed:
  • Jerry X. Mitrovica

    (University of Toronto)

  • Mark E. Tamisiea

    (University of Toronto)

  • James L. Davis

    (Harvard-Smithsonian Center for Astrophysics)

  • Glenn A. Milne

    (University of Durham, Science Laboratories)

Abstract

Global sea level is an indicator of climate change1,2,3, as it is sensitive to both thermal expansion of the oceans and a reduction of land-based glaciers. Global sea-level rise has been estimated by correcting observations from tide gauges for glacial isostatic adjustment—the continuing sea-level response due to melting of Late Pleistocene ice—and by computing the global mean of these residual trends4,5,6,7,8,9. In such analyses, spatial patterns of sea-level rise are assumed to be signals that will average out over geographically distributed tide-gauge data. But a long history of modelling studies10,11,12 has demonstrated that non-uniform—that is, non-eustatic—sea-level redistributions can be produced by variations in the volume of the polar ice sheets. Here we present numerical predictions of gravitationally consistent patterns of sea-level change following variations in either the Antarctic or Greenland ice sheets or the melting of a suite of small mountain glaciers. These predictions are characterized by geometrically distinct patterns that reconcile spatial variations in previously published sea-level records. Under the—albeit coarse—assumption of a globally uniform thermal expansion of the oceans, our approach suggests melting of the Greenland ice complex over the last century equivalent to ∼0.6 mm yr-1 of sea-level rise.

Suggested Citation

  • Jerry X. Mitrovica & Mark E. Tamisiea & James L. Davis & Glenn A. Milne, 2001. "Recent mass balance of polar ice sheets inferred from patterns of global sea-level change," Nature, Nature, vol. 409(6823), pages 1026-1029, February.
  • Handle: RePEc:nat:nature:v:409:y:2001:i:6823:d:10.1038_35059054
    DOI: 10.1038/35059054
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    Cited by:

    1. A. Slangen & M. Carson & C. Katsman & R. van de Wal & A. Köhl & L. Vermeersen & D. Stammer, 2014. "Projecting twenty-first century regional sea-level changes," Climatic Change, Springer, vol. 124(1), pages 317-332, May.
    2. Elizabeth Kopits & Alex L. Marten & Ann Wolverton, 2013. "Moving Forward with Incorporating "Catastrophic" Climate Change into Policy Analysis," NCEE Working Paper Series 201301, National Center for Environmental Economics, U.S. Environmental Protection Agency, revised Jan 2013.
    3. Anders Levermann & Jonathan Bamber & Sybren Drijfhout & Andrey Ganopolski & Winfried Haeberli & Neil Harris & Matthias Huss & Kirstin Krüger & Timothy Lenton & Ronald Lindsay & Dirk Notz & Peter Wadha, 2012. "Potential climatic transitions with profound impact on Europe," Climatic Change, Springer, vol. 110(3), pages 845-878, February.
    4. M. Carson & A. Köhl & D. Stammer & A. B. A. Slangen & C. A. Katsman & R. S. W. van de Wal & J. Church & N. White, 2016. "Coastal sea level changes, observed and projected during the 20th and 21st century," Climatic Change, Springer, vol. 134(1), pages 269-281, January.
    5. M. Carson & A. Köhl & D. Stammer & A. A. Slangen & C. Katsman & R. W. van de Wal & J. Church & N. White, 2016. "Coastal sea level changes, observed and projected during the 20th and 21st century," Climatic Change, Springer, vol. 134(1), pages 269-281, January.
    6. Caroline Katsman & A. Sterl & J. Beersma & H. Brink & J. Church & W. Hazeleger & R. Kopp & D. Kroon & J. Kwadijk & R. Lammersen & J. Lowe & M. Oppenheimer & H. Plag & J. Ridley & H. Storch & D. Vaugha, 2011. "Exploring high-end scenarios for local sea level rise to develop flood protection strategies for a low-lying delta—the Netherlands as an example," Climatic Change, Springer, vol. 109(3), pages 617-645, December.
    7. Jennifer S. Walker & Robert E. Kopp & Christopher M. Little & Benjamin P. Horton, 2022. "Timing of emergence of modern rates of sea-level rise by 1863," Nature Communications, Nature, vol. 13(1), pages 1-8, December.
    8. Chih-Min Hsieh & Dean Chou & Tai-Wen Hsu, 2022. "Using Modified Harmonic Analysis to Estimate the Trend of Sea-Level Rise around Taiwan," Sustainability, MDPI, vol. 14(12), pages 1-17, June.
    9. Nicholas R. Golledge, 2020. "Long‐term projections of sea‐level rise from ice sheets," Wiley Interdisciplinary Reviews: Climate Change, John Wiley & Sons, vol. 11(2), March.

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