- SfM photogrammetry used to produce topographic data from archive aerial imagery and UAV derived aerial imagery.
- Datasets from 2003 and 2014 were compared to report on the de-icing of a lateral–frontal ice-cored moraine.
- The moraine appears to be de-icing predominantly via down-wastage affording the moraine a higher degree of stability.
- UAVs and SfM are shown to be useful tools for monitoring environmental change.
Abstract: Ice-cored lateral-frontal moraines are common at the margins of receding high-Arctic valley glaciers, but the preservation potential of these features within the landform record is unclear. Recent climatic amelioration provides an opportunity to study the morphological evolution of these landforms as they de-ice. This is important because high-Arctic glacial landsystems have been used as analogues for formerly glaciated areas in the mid-latitudes. This study uses SfM (Structure-from-Motion) photogrammetry and a combination of archive aerial and UAV (unmanned aerial vehicle) derived imagery to investigate the degradation of an ice-cored lateral-frontal moraine at Austre Lovénbreen, Svalbard. Across the study area as a whole, over an 11-year period, the average depth of surface lowering was -1.75 ± 0.89 m. The frontal sections of the moraine showed low or undetectable rates of change. Spatially variable rates of surface lowering are associated with differences in the quantity of buried-ice within the structure of the moraine. Morphological change was dominated by surface lowering, with limited field evidence of degradation via back-wastage. This is affording the moraine a greater degree of stability than observed at many other sites in Svalbard, although it is unclear whether the end point will be a fully stabilised ice-cored moraine, in equilibrium with its environment, or an ice-free lateral-frontal moraine complex. Controls on geomorphological change (e.g. topography and climate) and the preservation potential of the lateral-frontal moraine are discussed. The methods used by this research also demonstrate the potential value of SfM photogrammetry and unmanned aerial vehicles for monitoring environmental change and are likely to have wider applications in other geoscientific sub-disciplines.
Tonkin, T.N., Midgley, N.G., Cook, S.J. and Graham, D.G. (2015). Ice-cored moraine degradation mapped and quantified using an unmanned aerial vehicle: a case study from a polythermal glacier in Svalbard. Geomorphology, 258, pp. 1–10.
Publisher link: http://dx.doi.org/10.1016/j.geomorph.2015.12.019 (subscription required)
Preprint: https://dspace.lboro.ac.uk/2134/20069 (no subscription required; embargoed until 29 December 2016)