Dr Andrew Sole
School of Geography and Planning
Senior Lecturer in Physical Geography
+44 114 222 7951
Full contact details
School of Geography and Planning
F18
Geography and Planning Building
Winter Street
ºù«Ӱҵ
S3 7ND
- Profile
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Andrew Sole received an MA (First Class Honours) in Physical Geography from the University of Edinburgh in 2005 and a PhD in glaciology (entitled 'Investigating Greenland Outlet Glaciers') from the University of Bristol in 2010. From 2009 to 2012 Andrew worked on ‘The role of atmospheric forcing on the dynamic stability of Greenland’s outlet glaciers’ as a Postdoctoral Research Assistant at the Universities of Aberdeen and Edinburgh. Andrew joined the University of ºù«Ӱҵ in 2012 as a Faculty Research Fellow, becoming a Lecturer in Physical Geography in 2017 and Senior Lecturer in 2020.
- Research interests
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Andrew's research is focused on furthering our understanding of the mass balance and dynamic stability of glaciers and ice sheets (particularly the Greenland Ice Sheet) in a changing climate through the use of satellite and airborne remote sensing, fieldwork and numerical modelling.
Current research
The role of atmospheric forcing on the dynamic stability of Greenland’s outlet glaciers
This work aims to quantify the effect of surface generated melt-water fluctuations on ice motion at the margin of the Greenland Ice Sheet. There has been significant recent research focus on the role that surface melting of the Greenland Ice Sheet might play in forcing changes in its flow rate in a warmer climate. Since 2009, Andrew has been part of a team collecting ice motion, ice thickness, air temperature and hydrology data at both a land and ocean terminating transect of the Greenland Ice Sheet to distances of more than 100 km from the ice margin. The resulting data are being used to further our understanding of the links between ice sheet hydrology and dynamics and to improve the representation these links in ice sheet models.
Leverett Glacier, west Greenland (Photo: Andrew Sole)
Interactions between Greenland’s marine-terminating outlet glaciers and the ocean
The retreat and acceleration of Greenland Ice Sheet marine-terminating outlet glaciers, which are responsible for a large portion of the total mass lost from the ice sheet each year, have been linked to regional ocean warming. Fjords constitute an important link between these outlet glaciers and the deep ocean, however the processes controlling propagation of warm water along them to the glaciers' calving termini are poorly understood. The primary aim of this research is to investigate how variations in ice sheet runoff and ocean temperature perturb fjord circulation, the transport of oceanic heat along fjords, ice front melt rates and thus tidewater glacier stability. The findings are being used to inform ice sheet and ocean models which seek to simulate the evolution of the Greenland Ice Sheet under climate change scenarios.
The calving front of Kangiata Nunata Sermia, southwest Greenland (Photo: Andrew Sole)
Short-term ice flow variations on the Antarctic Peninsula
Atmospheric warming has increased surface melting across the Antarctic Peninsula, yet the impact of this on ice dynamics has yet to be considered. This research uses the European Space Agency’s Sentinel satellite constellation to monitor ice motion, and regional climate models to simulate ice melt, in order to investigate climatic influences on ice flow.
Transfer of basal variability to the surface of ice masses and its influence on hydrology
The slipperiness and relief at the bed of ice sheets affects their surface topography, which in turn controls the spatial distribution of supraglacial lakes and rivers. This research investigates the long-term effects of changing ice surface topography on ice sheet hydrology and dynamics.
- Publications
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Journal articles
- . Science of The Total Environment, 951, 175516-175516.
- . Geophysical Research Letters, 51(4).
- . Earth Surface Processes and Landforms.
- . The Cryosphere, 16(8), 3215-3233.
- . The Cryosphere, 16(4), 1181-1196.
- . Nature Reviews Earth and Environment.
- . Journal of Glaciology.
- . Nature Communications, 11(1).
- . Journal of Geophysical Research: Earth Surface, 125(9).
- Investigations to constrain retreat of the Greenland Ice Sheet: glacial geomorphology and sampling for cosmogenic exposure dating of the Centrumsø area, Kronprins Christian Land, northeast Greenland. Cave and Karst Science, 47(2), 66-73.
- . The Cryosphere, 14(6), 1989-2004.
- . Nature Communications, 11(1).
- . Geografiska Annaler Series A: Physical Geography, 101(4), 334-349.
- . The Cryosphere, 13(10), 2789-2796.
- . Nature Communications, 10.
- . Geophysical Research Letters, 46(15), 8903-8912.
- . Nature Communications, 10.
- . International Journal of Applied Earth Observation and Geoinformation, 78, 1-13.
- . Journal of Glaciology.
- . Geomorphology.
- . Frontiers in Earth Science, 7.
- . Journal of Geophysical Research: Earth Surface, 123(10), 2319-2340.
- . Frontiers in Earth Science Cryospheric sciences, 6.
- . Proceedings of the National Academy of Sciences, 115(31), 7907-7912.
- . Arctic, Antarctic, and Alpine Research, 50(1).
- . Frontiers in Earth Sience, 5.
- . Current Climate Change Reports, 3(4), 330-344.
- . Journal of Glaciology, 63(238), 309-323.
- . Geophysical Research Letters, 44(5), 2360-2368.
- . The Cryosphere, 11(1), 363-380.
- . Journal of Glaciology, 62(236), 1167-1180.
- . Geophysical Research Letters, 43(18), 9729-9738.
- . Journal of Glaciology, 62(233), 451-466.
- . Cold Regions Science and Technology, 121, 167-178.
- . Geochemical Perspectives Letters, 94-104.
- . The Cryosphere, 9(3), 1203-1211.
- . Geophysical Research Letters, 42(8), 2861-2868.
- . Journal of Geophysical Research: Oceans, 120(2), 796-812.
- . Journal of Glaciology, 61(225), 185-199.
- . Geophysical Research Letters, 41(24), 8910-8917.
- . The Cryosphere, 8(4), 1457-1468.
- . Proc Natl Acad Sci U S A, 110(49), 19719-19724.
- . Proc Natl Acad Sci U S A, 110(35), 14156-14161.
- . Nature Geoscience, 6(3), 195-198.
- . Journal of Geophysical Research: Earth Surface, 118(1), 29-41.
- . Geophysical Research Letters, 40(15), 3940-3944.
- . JOURNAL OF GEOPHYSICAL RESEARCH-EARTH SURFACE, 117.
- . GEOLOGY, 40(4), 343-346.
- . Journal of Geophysical Research: Earth Surface, 117(3).
- . Biogeosciences, 9(7), 2431-2442.
- . JOURNAL OF GEOPHYSICAL RESEARCH-EARTH SURFACE, 116.
- . EARTH AND PLANETARY SCIENCE LETTERS, 307(3-4), 271-278.
- . Geophysical Research Letters, 38(8).
- . NATURE GEOSCIENCE, 3(6), 408-411.
- . CRYOSPHERE, 2(2), 205-218.
- . EARTH AND PLANETARY SCIENCE LETTERS, 262(3-4), 484-492.
- . Journal of Glaciology, 1-25.
- . The Cryosphere, 17(11), 4729-4750.
- . The Cryosphere, 17(4), 1775-1786.
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- . The Cryosphere Discussions, 9(1), 541-565.
- . The Cryosphere, 9(1), 123-138.
- . The Cryosphere Discussions, 8(4), 4243-4280.
- . The Cryosphere Discussions, 7(6), 5579-5611.
- . The Cryosphere Discussions, 6(6), 4861-4896.
- . Biogeosciences Discussions, 8(5), 10423-10457.
- . The Cryosphere Discussions, 2(4), 673-710.
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- A model for interaction between conduits and surrounding hydraulically connected distributed drainage based on geomorphological evidence from Keewatin, Canada. The Cryosphere.
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- Diverse supraglacial drainage patterns on the Devon Ice Cap, Canadian Arctic. Journal of Maps.
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- . Nature Reviews Earth & Environment.
- . The Cryosphere, 15(12), 5785-5804.
Conference proceedings papers
Software / Code
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