4.5 Article

Calving of a Large Greenlandic Tidewater Glacier has Complex Links to Meltwater Plumes and Melange

Journal

Publisher

AMER GEOPHYSICAL UNION
DOI: 10.1029/2020JF006051

Keywords

glacier calving; glacier dynamics; radar interferometry; tidewater glacier

Funding

  1. European Research Council, RESPONDER project under the European Union's Horizon 2020 research and innovation program [683043]
  2. Natural Environment Research Council Doctoral Training Partnership studentships [NE/L002507/1]
  3. European Union's Horizon 2020 research and innovation program under a Marie Sklodowska-Curie grant [705215]
  4. Marie Curie Actions (MSCA) [705215] Funding Source: Marie Curie Actions (MSCA)

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The study reveals significant variations in calving activity over time that cannot be simply described by mathematical relationships. There is a statistically significant relationship between surface melt and the number of calving events, but no direct correlation between surface melt and the volume of these events. Additionally, calving losses appear to have no clear single control factor.
Calving and solid ice discharge into fjords account for approximately half of the annual net ice loss from the Greenland ice sheet, but these processes are rarely observed. To gain insights into the spatiotemporal nature of calving, we use a terrestrial radar interferometer to derive a 3-week record of 8,026 calving events from Sermeq Kujalleq (Store Glacier, West Greenland), including the transition between a melange-filled and ice-free fjord. We show that calving rates double across this transition and that the interferometer record is in good agreement with volumetric estimates of calving losses from contemporaneous unmanned aerial vehicle surveys. We report significant variations in calving activity over time, which obfuscate any simple power-law relationship. While there is a statistically significant relationship between surface melt and the number of calving events, no such relationship exists between surface melt and the volume of these events. Similarly, we find a 70% increase in the number of calving events in the presence of visible meltwater plumes but only a 3% increase in calving volumes. While calving losses appear to have no clear single control, we find a bimodal distribution of iceberg sizes due to small blocks breaking off the subaerial part of the glacier front and large capsizing icebergs forming by full-thickness failure. Whereas previous work has hypothesized that tidewater glaciers can be grouped according to whether they calve predominantly by the former or latter mechanism, our observations indicate that calving here inherently comprises both and that the dominant process can change over relatively short periods.

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