Articles dans des revues avec comité de lecture (186)
  1. 48. Van Liefferinge, B., Pattyn, F., Cavitte, M. M., Karlsson, N. N., Young, D. D., Sutter, J., & Eisen, O. (2018). Promising oldest ice sites in east antarctica based on thermodynamical modelling. The Cryosphere, 12(8), 2773-2787. doi:10.5194/tc-12-2773-2018
  2. 49. Pattyn, F. (2018). The paradigm shift in Antarctic ice sheet modelling. Nature communications, 9(1), 2728. doi:10.1038/s41467-018-05003-z
  3. 50. Karlsson, N. N., Binder, T., Eagles, G., Helm, V., Pattyn, F., Van Liefferinge, B., & Eisen, O. (2018). Glaciological characteristics in the Dome Fuji region and new assessment for "Oldest Ice". The Cryosphere, 12(7), 2413-2424. doi:10.5194/tc-12-2413-2018
  4. 51. Goelzer, H., Nowicki, S., Edwards, T., Beckley, M., Abe-Ouchi, A., Aschwanden, A., Calov, R., Gagliardini, O., Gillet-Chaulet, F., Golledge, N., Gregory, J., Greve, R., Humbert, A., Huybrechts, P., Kennedy, J., Larour, E., Lipscomb, W., Leclech, S., Lee, V., Morlighem, M., Pattyn, F., Payne, A., Rodehacke, C., Rückamp, M., Saito, F., Schlegel, N., Seroussi, H., Shepherd, A., Sun, S., van de Wal, R. S. W., & Ziemen, F. (2018). Design and results of the ice sheet model initialisation initMIP-Greenland: An ISMIP6 intercomparison. The Cryosphere, 12(4), 1433-1460. doi:10.5194/tc-12-1433-2018
  5. 52. Kirchner, N., van Dongena, E., Gowan, E. E., Pattyn, F., Noormetsg, R., Jakobsson, M., & Ingólfsson, Ó. (2018). GRANTSISM: An Excel™ ice sheet model for use in introductory Earth science courses. Journal of geoscience education, 66(2), 109-120. doi:10.1080/10899995.2018.1412177
  6. 53. Berger, S., Drews, R., Helm, V., Sun, S., & Pattyn, F. (2017). Detecting high spatial variability of ice shelf basal mass balance, Roi Baudouin Ice Shelf, Antarctica. The Cryosphere, 11(6), 2675-2690. doi:10.5194/tc-11-2675-2017
  7. 54. Pattyn, F., Favier, L., Sun, S., & Durand, G. (2017). Progress in Numerical Modeling of Antarctic Ice-Sheet Dynamics. Current climate change reports, 3(3), 174-184. doi:10.1007/s40641-017-0069-7
  8. 55. Pattyn, F. (2017). Sea-level response to melting of Antarctic ice shelves on multi-centennial timescales with the fast Elementary Thermomechanical Ice Sheet model (f.ETISh v1.0). The Cryosphere, 11(4), 1851-1878. doi:10.5194/tc-11-1851-2017
  9. 56. Drews, R., Pattyn, F., Hewitt, I., Ng, F., Berger, S., Matsuoka, K., Helm, V., Nicolas, B. N., Favier, L., & Neckel, N. (2017). Hydrological coupling between subglacial water conduits, eskers, and ice-shelf channels across the grounding line of an Antarctic ice shelf. Nature communications, 8, doi:10.1038/ncomms15228.
  10. 57. Drews, R., Neckel, N., Pattyn, F., Hewitt, I. J., Ng, F., Berger, S., Matsuoka, K., Helm, V., Nicolas, B. N., & Favier, L. (2017). Actively evolving subglacial conduits and eskers initiate ice shelf channels at an Antarctic grounding line. Nature communications, 8, 15228. doi:10.1038/ncomms15228
  11. 58. Kawamura, K., & Pattyn, F. (2017). State dependence of climatic instability over the past 720,000 years from Antarctic ice cores and climate modeling. Science advances, 3(2), e1600446. doi:10.1126/sciadv.1600446
  12. 59. Kawamura, K., Abe-Ouchi, A., Aoki, S., Fujii, Y., Fujita, S., Greve, R., Parrenin, F., Pattyn, F., et al. (2017). State dependence of climatic instability over the past 720,000 years from Antarctic ice cores and climate modelling. Science advances, 3(2).
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