Author
Listed:
- Matteo Spagnolo
(School of Geosciences, University of Aberdeen, Elphinstone Road, Aberdeen AB243UF, UK)
- Emrys Phillips
(British Geological Survey)
- Jan A. Piotrowski
(Aarhus University, DK-8000 Aarhus C, Denmark)
- Brice R. Rea
(School of Geosciences, University of Aberdeen, Elphinstone Road, Aberdeen AB243UF, UK)
- Chris D. Clark
(University of Sheffield)
- Chris R. Stokes
(Durham University)
- Simon J. Carr
(School of Geography, Queen Mary University of London)
- Jeremy C. Ely
(University of Sheffield)
- Adriano Ribolini
(University of Pisa, 56126 Pisa, Italy)
- Wojciech Wysota
(Faculty of Earth Sciences, Nicolaus Copernicus University)
- Izabela Szuman
(Adam Mickiewicz University)
Abstract
Ice streams drain large portions of ice sheets and play a fundamental role in governing their response to atmospheric and oceanic forcing, with implications for sea-level change. The mechanisms that generate ice stream flow remain elusive. Basal sliding and/or bed deformation have been hypothesized, but ice stream beds are largely inaccessible. Here we present a comprehensive, multi-scale study of the internal structure of mega-scale glacial lineations (MSGLs) formed at the bed of a palaeo ice stream. Analyses were undertaken at macro- and microscales, using multiple techniques including X-ray tomography, thin sections and ground penetrating radar (GPR) acquisitions. Results reveal homogeneity in stratigraphy, kinematics, granulometry and petrography. The consistency of the physical and geological properties demonstrates a continuously accreting, shallow-deforming, bed and invariant basal conditions. This implies that ice stream basal motion on soft sediment beds during MSGL formation is accommodated by plastic deformation, facilitated by continuous sediment supply and an inefficient drainage system.
Suggested Citation
Matteo Spagnolo & Emrys Phillips & Jan A. Piotrowski & Brice R. Rea & Chris D. Clark & Chris R. Stokes & Simon J. Carr & Jeremy C. Ely & Adriano Ribolini & Wojciech Wysota & Izabela Szuman, 2016.
"Ice stream motion facilitated by a shallow-deforming and accreting bed,"
Nature Communications, Nature, vol. 7(1), pages 1-11, April.
Handle:
RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms10723
DOI: 10.1038/ncomms10723
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