|A new three‐dimensional higher‐order thermomechanical ice sheet model: Basic sensitivity, ice stream development, and ice flow across subglacial lakes|
Journal of Geophysical Research: Solid Earth 108 (B8), 2003
|Future sea-level rise from Greenland’s main outlet glaciers in a warming climate|
FM Nick, A Vieli, ML Andersen, I Joughin, A Payne, TL Edwards, F Pattyn, ...
Nature 497 (7448), 235-238, 2013
|Ice-sheet mass balance and climate change|
E Hanna, FJ Navarro, F Pattyn, CM Domingues, X Fettweis, ER Ivins, ...
Nature 498 (7452), 51-59, 2013
|Benchmark experiments for higher-order and full Stokes ice sheet models (ISMIP-HOM)|
F Pattyn, L Perichon, A Aschwanden, B Breuer, B De Smedt, O Gagliardini, ...
|Antarctic subglacial conditions inferred from a hybrid ice sheet/ice stream model|
Earth and Planetary Science Letters 295 (3-4), 451-461, 2010
|Eemian interglacial reconstructed from a Greenland folded ice core|
D Dahl-Jensen, MR Albert, A Aldahan, N Azuma, D Balslev-Clausen, ...
Nature 493 (7433), 489-494, 2013
|Results of the marine ice sheet model intercomparison project, MISMIP|
F Pattyn, C Schoof, L Perichon, RCA Hindmarsh, E Bueler, B De Fleurian, ...
The Cryosphere 6 (3), 573-588, 2012
|Grounding-line migration in plan-view marine ice-sheet models: results of the ice2sea MISMIP3d intercomparison|
F Pattyn, L Perichon, G Durand, L Favier, O Gagliardini, RCA Hindmarsh, ...
Journal of Glaciology 59 (215), 410-422, 2013
|Transient glacier response with a higher-order numerical ice-flow model|
Journal of Glaciology 48 (162), 467-477, 2002
|Where to find 1.5 million yr old ice for the IPICS" Oldest-Ice" ice core|
H Fischer, J Severinghaus, E Brook, E Wolff, M Albert, O Alemany, ...
Climate of the Past 9 (6), 2489-2505, 2013
|Role of transition zones in marine ice sheet dynamics|
F Pattyn, A Huyghe, S De Brabander, B De Smedt
Journal of Geophysical Research: Earth Surface 111 (F2), 2006
|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
|Meltwater produced by wind–albedo interaction stored in an East Antarctic ice shelf|
JTM Lenaerts, S Lhermitte, R Drews, SRM Ligtenberg, S Berger, V Helm, ...
Nature climate change 7 (1), 58-62, 2017
|Resolution-dependent performance of grounding line motion in a shallow model compared with a full-Stokes model according to the MISMIP3d intercomparison|
J Feldmann, T Albrecht, C Khroulev, F Pattyn, A Levermann
Journal of Glaciology 60 (220), 353-360, 2014
|Antarctic ice rises and rumples: Their properties and significance for ice-sheet dynamics and evolution|
K Matsuoka, RCA Hindmarsh, G Moholdt, MJ Bentley, HD Pritchard, ...
Earth-science reviews 150, 724-745, 2015
|Ice thinning, upstream advection, and non-climatic biases for the upper 89% of the EDML ice core from a nested model of the Antarctic ice sheet|
P Huybrechts, O Rybak, F Pattyn, U Ruth, D Steinhage
|Using ice-flow models to evaluate potential sites of million year-old ice in Antarctica.|
B Van Liefferinge, F Pattyn
Climate of the Past Discussions 9 (3), 2013
|Experimental design for three interrelated marine ice sheet and ocean model intercomparison projects: MISMIP v. 3 (MISMIP+), ISOMIP v. 2 (ISOMIP+) and MISOMIP v. 1 (MISOMIP1)|
XS Asay-Davis, SL Cornford, G Durand, BK Galton-Fenzi, RM Gladstone, ...
Geoscientific Model Development 9 (7), 2471-2497, 2016
|Mangroves facing climate change: landward migration potential in response to projected scenarios of sea level rise|
D Di Nitto, G Neukermans, N Koedam, H Defever, F Pattyn, JG Kairo, ...
Biogeosciences 11 (3), 857-871, 2014
|The Greenland and Antarctic ice sheets under 1.5 C global warming|
F Pattyn, C Ritz, E Hanna, X Asay-Davis, R DeConto, G Durand, L Favier, ...
Nature Climate Change 8 (12), 1053-1061, 2018