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UAV photogrammetry and structure from motion to assess calving dynamics at Store Glacier, a large outlet draining the Greenland ice sheet

Publication ,  Journal Article
Ryan, JC; Hubbard, AL; Box, JE; Todd, J; Christoffersen, P; Carr, JR; Holt, TO; Snooke, N
Published in: The Cryosphere
January 6, 2015

Abstract. This study presents the application of a cost-effective, unmanned aerial vehicle (UAV) to investigate calving dynamics at a major marine-terminating outlet glacier draining the western sector of the Greenland ice sheet. The UAV was flown over Store Glacier on three sorties during summer 2013 and acquired over 2000 overlapping, geotagged images of the calving front at an ~40 cm ground sampling distance. Stereo-photogrammetry applied to these images enabled the extraction of high-resolution digital elevation models (DEMs) with vertical accuracies of ± 1.9 m which were used to quantify glaciological processes from early July to late August 2013. The central zone of the calving front advanced by ~500 m, whilst the lateral margins remained stable. The orientation of crevasses and the surface velocity field derived from feature tracking indicates that lateral drag is the primary resistive force and that ice flow varies across the calving front from 2.5 m d−1 at the margins to in excess of 16 m d−1 at the centreline. Ice flux through the calving front is 3.8 × 107 m3 d−1, equivalent to 13.9 Gt a−1 and comparable to flux-gate estimates of Store Glacier's annual discharge. Water-filled crevasses were present throughout the observation period but covered a limited area of between 0.025 and 0.24% of the terminus and did not appear to exert any significant control over fracture or calving. We conclude that the use of repeat UAV surveys coupled with the processing techniques outlined in this paper have great potential for elucidating the complex frontal dynamics that characterise large calving outlet glaciers.

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Published In

The Cryosphere

DOI

EISSN

1994-0424

Publication Date

January 6, 2015

Volume

9

Issue

1

Start / End Page

1 / 11

Publisher

Copernicus GmbH

Related Subject Headings

  • Meteorology & Atmospheric Sciences
  • 3709 Physical geography and environmental geoscience
  • 0406 Physical Geography and Environmental Geoscience
  • 0405 Oceanography
 

Citation

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MLA
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Ryan, J. C., Hubbard, A. L., Box, J. E., Todd, J., Christoffersen, P., Carr, J. R., … Snooke, N. (2015). UAV photogrammetry and structure from motion to assess calving dynamics at Store Glacier, a large outlet draining the Greenland ice sheet. The Cryosphere, 9(1), 1–11. https://doi.org/10.5194/tc-9-1-2015
Ryan, J. C., A. L. Hubbard, J. E. Box, J. Todd, P. Christoffersen, J. R. Carr, T. O. Holt, and N. Snooke. “UAV photogrammetry and structure from motion to assess calving dynamics at Store Glacier, a large outlet draining the Greenland ice sheet.” The Cryosphere 9, no. 1 (January 6, 2015): 1–11. https://doi.org/10.5194/tc-9-1-2015.
Ryan JC, Hubbard AL, Box JE, Todd J, Christoffersen P, Carr JR, et al. UAV photogrammetry and structure from motion to assess calving dynamics at Store Glacier, a large outlet draining the Greenland ice sheet. The Cryosphere. 2015 Jan 6;9(1):1–11.
Ryan, J. C., et al. “UAV photogrammetry and structure from motion to assess calving dynamics at Store Glacier, a large outlet draining the Greenland ice sheet.” The Cryosphere, vol. 9, no. 1, Copernicus GmbH, Jan. 2015, pp. 1–11. Crossref, doi:10.5194/tc-9-1-2015.
Ryan JC, Hubbard AL, Box JE, Todd J, Christoffersen P, Carr JR, Holt TO, Snooke N. UAV photogrammetry and structure from motion to assess calving dynamics at Store Glacier, a large outlet draining the Greenland ice sheet. The Cryosphere. Copernicus GmbH; 2015 Jan 6;9(1):1–11.

Published In

The Cryosphere

DOI

EISSN

1994-0424

Publication Date

January 6, 2015

Volume

9

Issue

1

Start / End Page

1 / 11

Publisher

Copernicus GmbH

Related Subject Headings

  • Meteorology & Atmospheric Sciences
  • 3709 Physical geography and environmental geoscience
  • 0406 Physical Geography and Environmental Geoscience
  • 0405 Oceanography