|Large-scale changes in Greenland outlet glacier dynamics triggered at the terminus|
FM Nick, A Vieli, IM Howat, I Joughin
Nature Geoscience 2 (2), 110-114, 2009
|Future sea-level rise from Greenland’s main outlet glaciers in a warming climate|
F Nick, A Vieli, M Langer Andersen, I Joughin, A Payne, T Edwards, ...
Nature 497, 2013
|A physically based calving model applied to marine outlet glaciers and implications for the glacier dynamics|
FM Nick, CJ Van der Veen, A Vieli, DI Benn
Journal of Glaciology 56 (199), 781-794, 2010
|Results of the marine ice sheet model intercomparison project, MISMIP|
F Pattyn, C Schoof, L Perichon, RCA Hindmarsh, E Bueler, B Fleurian, ...
The Cryosphere 6 (3), 573-588, 2012
|Understanding and modelling rapid dynamic changes of tidewater outlet glaciers: issues and implications|
A Vieli, FM Nick
Surveys in geophysics 32 (4-5), 437-458, 2011
|Sensitivity of Greenland ice sheet projections to model formulations|
H Goelzer, P Huybrechts, JJ FŘrst, FM Nick, ML Andersen, TL Edwards, ...
Journal of Glaciology 59 (216), 733-749, 2013
|The response of Petermann Glacier, Greenland, to large calving events, and its future stability in the context of atmospheric and oceanic warming|
FM Nick, A Luckman, A Vieli, CJ Van der Veen, D Van As, ...
Journal of Glaciology 58 (208), 229-239, 2012
|Programme for Monitoring of the Greenland Ice Sheet (PROMICE): first temperature and ablation records|
D van As, RS Fausto, AP Ahlstr°m, SB Andersen, ML Andersen, M Citterio, ...
Geological Survey of Denmark and Greenland Bulletin 23, 73-76, 2011
|Melt-under-cutting and buoyancy-driven calving from tidewater glaciers: new insights from discrete element and continuum model simulations|
DI Benn, JAN ┼str÷m, T Zwinger, JOE Todd, FM Nick, S Cook, NRJ Hulton, ...
Journal of Glaciology 63 (240), 691-702, 2017
|Controls on advance of tidewater glaciers: Results from numerical modeling applied to Columbia Glacier|
FM Nick, CJ van der Veen, J Oerlemans
Journal of Geophysical Research: Earth Surface 112 (F3), 2007
|Seasonal velocities of eight major marine-terminating outlet glaciers of the Greenland ice sheet from continuous in situ GPS instruments|
AP Ahlstr°m, SB Andersen, ML Andersen, H Machguth, FM Nick, ...
Earth System Science Data 5 (2), 277-287, 2013
|Basal topographic controls on rapid retreat of Humboldt Glacier, northern Greenland|
JR Carr, A Vieli, CR Stokes, SSR Jamieson, SJ Palmer, P Christoffersen, ...
Journal of Glaciology 61 (225), 137-150, 2015
|Terminus-driven retreat of a major southwest Greenland tidewater glacier during the early 19th century: insights from glacier reconstructions and numerical modelling|
JM Lea, DWF Mair, FM Nick, BR Rea, A Weidick, KH Kjaer, M Morlighem, ...
Journal of Glaciology 60 (220), 333-344, 2014
|Fluctuations of a Greenlandic tidewater glacier driven by changes in atmospheric forcing: observations and modelling of Kangiata Nunaata Sermia, 1859–present|
JM Lea, DWF Mair, FM Nick, BR Rea, D As, M Morlighem, PW Nienow, ...
The Cryosphere 8 (6), 2031-2045, 2014
|Modelling the advance–retreat cycle of a tidewater glacier with simple sediment dynamics|
J Oerlemans, FM Nick
Global and Planetary Change 50 (3-4), 148-160, 2006
|Dynamics of tidewater glaciers: comparison of three models|
FM Nick, J Oerlemans
Journal of Glaciology 52 (177), 183-190, 2006
|A minimal model of a tidewater glacier|
J Oerlemans, FM Nick
Annals of Glaciology 42, 1-6, 2005
|Timing of the first drainage of the Baltic Ice Lake synchronous with the onset of Greenland Stadial 1|
F Muschitiello, JM Lea, SL Greenwood, FM Nick, L Brunnberg, A Macleod, ...
Boreas 45 (2), 322-334, 2016
|Effects of undercutting and sliding on calving: a global approach applied to Kronebreen, Svalbard|
D Vallot, J ┼str÷m, T Zwinger, R Pettersson, A Everett, DI Benn, ...
The Cryosphere 12 (2), 609-625, 2018
|Simulation of the evolution of Breidamerkurj÷kull in the late Holocene|
FM Nick, J Van der Kwast, J Oerlemans
Journal of Geophysical Research: Solid Earth 112 (B1), 2007