The Periodic Topography of Ice Stream Beds: Insights from the Fourier Spectra of Mega-scale Glacial Lineations

Authors

Matteo Spagnolo, University of Aberdeen
Timothy C. Bartholomaus, University of Idaho
Chris D. Clark, University of Sheffield
Chris R. Stokes, Durham University
Nigel Atkinson, Alberta Geological Survey, Edmonton
Julian A. Dowdeswell, Scott Polar Research Institute
Jeremy C. Ely, University of Sheffield
Alastair G. C. Graham, University of ExeterFollow
Kelly A. Hogan, British Antarctic Survey, Cambridge
Edward C. King, British Antarctic Survey, Cambridge
Robert D. Larter, British Antarctic Survey, Cambridge
Stephen J. Livingstone, University of Sheffield
Hamish D. Pritchard, British Antarctic Survey, Cambridge

Document Type

Article

Publication Date

2017

Keywords

ice stream bed, mega-scale glacial lineations, period topography, pattern topography, Fourier

Digital Object Identifier (DOI)

https://doi.org/10.1002/2016JF004154

Abstract

Ice stream bed topography contains key evidence for the ways ice streams interact with, and are potentially controlled by, their beds. Here we present the first application of two-dimensional Fourier analysis to 22 marine and terrestrial topographies from 5 regions in Antarctica and Canada, with and without mega-scale glacial lineations (MSGLs). We find that the topography of MSGL-rich ice stream sedimentary beds is characterized by multiple, periodic wavelengths between 300 and 1200 m and amplitudes from decimeters to a few meters. This periodic topography is consistent with the idea that instability is a key element to the formation of MSGL bedforms. Dominant wavelengths vary among locations and, on one paleo ice stream bed, increase along the direction of ice flow by 1.7 ± 0.52% km⁻¹. We suggest that these changes are likely to reflect pattern evolution via downstream wavelength coarsening, even under potentially steady ice stream geometry and flow conditions. The amplitude of MSGLs is smaller than that of other fluvial and glacial topographies but within the same order of magnitude. However, MSGLs are a striking component of ice stream beds because the topographic amplitude of features not aligned with ice flow is reduced by an order of magnitude relative to those oriented with the flow direction. This study represents the first attempt to automatically derive the spectral signatures of MSGLs. It highlights the plausibility of identifying these landform assemblages using automated techniques and provides a benchmark for numerical models of ice stream flow and subglacial landscape evolution.

Rights Information

This work is licensed under a Creative Commons Attribution 4.0 License.

Was this content written or created while at USF?

No

Citation / Publisher Attribution

Journal of Geophysical Research: Earth Surface, v. 122, issue 7, p. 1355-1373

Scholar Commons Citation

Spagnolo, Matteo; Bartholomaus, Timothy C.; Clark, Chris D.; Stokes, Chris R.; Atkinson, Nigel; Dowdeswell, Julian A.; Ely, Jeremy C.; Graham, Alastair G. C.; Hogan, Kelly A.; King, Edward C.; Larter, Robert D.; Livingstone, Stephen J.; and Pritchard, Hamish D., "The Periodic Topography of Ice Stream Beds: Insights from the Fourier Spectra of Mega-scale Glacial Lineations" (2017). Marine Science Faculty Publications. 1568.
https://digitalcommons.usf.edu/msc_facpub/1568