|Ocean regulation hypothesis for glacier dynamics in southeast Greenland and implications for ice sheet mass changes|
T Murray, K Scharrer, TD James, SR Dye, E Hanna, AD Booth, N Selmes, ...
Journal of Geophysical Research: Earth Surface 115 (F3), 2010
|Melt-under-cutting and buoyancy-driven calving from tidewater glaciers: new insights from discrete element and continuum model simulations|
DI Benn, J Åström, T Zwinger, J Todd, FM Nick, S Cook, NRJ Hulton, ...
Journal of Glaciology 63 (240), 691-702, 2017
|Modelling environmental influences on calving at Helheim Glacier in eastern Greenland|
S Cook, IC Rutt, T Murray, A Luckman, T Zwinger, N Selmes, A Goldsack, ...
The Cryosphere 8 (3), 827-841, 2014
|Extensive retreat of Greenland tidewater glaciers, 2000–2010|
T Murray, K Scharrer, N Selmes, AD Booth, TD James, SL Bevan, ...
Arctic, antarctic, and alpine research 47 (3), 427-447, 2015
|Testing the effect of water in crevasses on a physically based calving model|
S Cook, T Zwinger, IC Rutt, S O'Neel, T Murray
Annals of Glaciology 53 (60), 90-96, 2012
|Cold ocean cavity and weak basal melting of the sørsdal ice shelf revealed by surveys using autonomous platforms|
DE Gwyther, EA Spain, P King, D Guihen, GD Williams, E Evans, S Cook, ...
Journal of Geophysical Research: Oceans 125 (6), e2019JC015882, 2020
|Comparing satellite and helicopter-based methods for observing crevasses, application in East Antarctica|
SS Thompson, S Cook, B Kulessa, JP Winberry, AD Fraser, ...
Cold Regions Science and Technology 178, 103128, 2020
|Modelled fracture and calving on the Totten Ice Shelf|
S Cook, J Åström, T Zwinger, BK Galton-Fenzi, JS Greenbaum, ...
The Cryosphere 12 (7), 2401-2411, 2018
|Englacial drainage structures in an East Antarctic outlet glacier|
T Schaap, MJ Roach, LE Peters, S Cook, B Kulessa, C Schoof
Journal of Glaciology 66 (255), 166-174, 2020
|Deriving Melt Rates at a Complex Ice Shelf Base Using In Situ Radar: Application to Totten Ice Shelf|
I Vaňková, S Cook, JP Winberry, KW Nicholls, BK Galton‐Fenzi
Geophysical Research Letters 48 (7), e2021GL092692, 2021
|Fragmentation theory reveals processes controlling iceberg size distributions|
J Åström, S Cook, EM Enderlin, DA Sutherland, A Mazur, N Glasser
Journal of Glaciology 67 (264), 603-612, 2021
|Brief communication: widespread potential for seawater infiltration on Antarctic ice shelves|
S Cook, BK Galton-Fenzi, SRM Ligtenberg, R Coleman
The Cryosphere 12 (12), 3853-3859, 2018
|Data initiatives for ocean-driven melt of Antarctic ice shelves|
S Cook, KW Nicholls, I Vaňková, SS Thompson, BK Galton-Fenzi
Annals of Glaciology, 1-6, 2023
|Environmental controls on calving in grounded tidewater glaciers|
Swansea University, 2012
|The Ice Shelf Lasagne: Understanding the Effects of Differing Rheologies on the Dynamics of an Ice Shelf|
L Craw, A Treverrow, F McCormack, S Cook, JL Roberts
AGU Fall Meeting Abstracts 2020, C015-07, 2020
|Towards the systematic reconnaissance of seismic signals from glaciers and ice sheets–Part B: Unsupervised learning for source process characterisation|
RB Latto, RJ Turner, AM Reading, S Cook, B Kulessa, JP Winberry
EGUsphere 2023, 1-33, 2023
|High spatial melt rate variability near the Totten Glacier grounding zone explained by new bathymetry inversion|
I Vaňková, JP Winberry, S Cook, KW Nicholls, CA Greene, ...
Geophysical Research Letters 50 (10), e2023GL102960, 2023
|The drainage of glacier and ice sheet surface lakes|
C Schoof, S Cook, B Kulessa, S Thompson
Journal of Fluid Mechanics 961, A4, 2023
|An observation-based approach to calculating ice-shelf calving mass flux|
E Evans, AD Fraser, S Cook, R Coleman, I Joughin
Remote Sensing of Environment 272, 112918, 2022
|The temperature change shortcut: effects of mid-experiment temperature changes on the deformation of polycrystalline ice|
L Craw, A Treverrow, S Fan, M Peternell, S Cook, F McCormack, ...
The Cryosphere 15 (5), 2235-2250, 2021