Assessing the applicability of terrestrial laser scanning for mapping englacial conduits

Jayne Elizabeth Kamintzis, J. P. P. Jones, Tristram Irvine-Fynn, Thomas Holt, Peter Bunting, Stephen James Arthur Jennings, Philip R. Porter, Bryn Hubbard

Research output: Contribution to journalArticlepeer-review

9 Citations (Scopus)
224 Downloads (Pure)

Abstract

The morphology of englacial drainage networks and their temporal evolution are poorly characterised, particularly within cold ice masses. At present, direct observations of englacial channels are restricted in both spatial and temporal resolution. Through novel use of a terrestrial laser scanning (TLS) system, the interior geometry of an englacial channel in Austre Brøggerbreen, Svalbard was reconstructed and mapped. Twenty-eight laser scan surveys were conducted in March 2016, capturing the glacier surface around a moulin entrance and the uppermost 122 m reach of the adjoining conduit. The resulting point clouds provide detailed three-dimensional visualisation of the channel with point accuracy of 6.54 millimetres, despite low (< 60%) overall laser returns as a result of the physical and optical properties of the clean ice, snow, hoar frost and sediment surfaces forming the conduit wall. These point clouds are used to map the conduit morphology, enabling extraction of millimetre-to-centimetre scale geometric measurements. The conduit meanders at a depth of 43 48 m, with a sinuosity of 2.7, exhibiting teardrop shaped cross-section morphology. This improvement upon current surveying techniques demonstrates the potential of TLS as an investigative tool to elucidate the nature of glacier hydrological networks, through reconstruction of channel geometry and wall composition.
Original languageEnglish
Pages (from-to)37
Number of pages48
JournalJournal of Glaciology
Volume64
Issue number243
Early online date20 Dec 2017
DOIs
Publication statusPublished - 01 Feb 2018

Keywords

  • arctic glaciology
  • glacier mapping
  • glaciological instruments and methods
  • remote sensing

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