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Calving rates at tidewater glaciers vary strongly with ocean temperature

Author

Listed:
  • Adrian Luckman

    (College of Science, Swansea University
    University Centre in Svalbard)

  • Douglas I. Benn

    (University Centre in Svalbard
    University of St Andrews)

  • Finlo Cottier

    (Scottish Association for Marine Science
    Faculty of Biosciences, Fisheries and Economics, UiT The Arctic University of Norway)

  • Suzanne Bevan

    (College of Science, Swansea University)

  • Frank Nilsen

    (University Centre in Svalbard
    The Geophysical Institute, University of Postboks 7803 5020 Bergen)

  • Mark Inall

    (Scottish Association for Marine Science)

Abstract

Rates of ice mass loss at the calving margins of tidewater glaciers (frontal ablation rates) are a key uncertainty in sea level rise projections. Measurements are difficult because mass lost is replaced by ice flow at variable rates, and frontal ablation incorporates sub-aerial calving, and submarine melt and calving. Here we derive frontal ablation rates for three dynamically contrasting glaciers in Svalbard from an unusually dense series of satellite images. We combine ocean data, ice-front position and terminus velocity to investigate controls on frontal ablation. We find that frontal ablation is not dependent on ice dynamics, nor reduced by glacier surface freeze-up, but varies strongly with sub-surface water temperature. We conclude that calving proceeds by melt undercutting and ice-front collapse, a process that may dominate frontal ablation where submarine melt can outpace ice flow. Our findings illustrate the potential for deriving simple models of tidewater glacier response to oceanographic forcing.

Suggested Citation

  • Adrian Luckman & Douglas I. Benn & Finlo Cottier & Suzanne Bevan & Frank Nilsen & Mark Inall, 2015. "Calving rates at tidewater glaciers vary strongly with ocean temperature," Nature Communications, Nature, vol. 6(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms9566
    DOI: 10.1038/ncomms9566
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    Cited by:

    1. Lizz Ultee & Denis Felikson & Brent Minchew & Leigh A. Stearns & Bryan Riel, 2022. "Helheim Glacier ice velocity variability responds to runoff and terminus position change at different timescales," Nature Communications, Nature, vol. 13(1), pages 1-10, December.

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