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Olivier Gagliardini
Professor at University Grenoble Alpes
I am Professor at the University of Grenoble Alpes (UGA), nominated at Institut Universitaire de France (IUF) from 2010 to 2015. I did my PhD (1999) on including the anisotropic behaviour of polar ice in an ice flow model. After a one year sabbatical at CSC, I started working with the finite element code Elmer developed mainly in CSC. Since then, the Elmer/Ice community as emerged and Elmer/Ice is now one of the most recognize ice flow, glacier and ice-sheet model in the Glaciology community. I have applied Elmer/Ice on many different topics, from the cavity at the base of glacier to infer friction law, to the grounding line dynamics or the link between basal hydrology and basal friction. I am also interested by the flow of snow and by the dynamic of temperate alpin glaciers. For all these problems, one need to solve the viscous flow of the ice coupled with some conservation equations describing the evolution of internal variables (Stokes equations, mass conservation equation, fabric evolution equations, heat conduction equation, free surface equation).
All these modellings are performed using the finite element method with the code Elmer mainly developed by CSC at Helsinki in Finland. Rheological laws and various solvers dedicated to glaciological applications have been developped and implemented in Elmer FE code, an constitute the Elmer/Ice model. Elmer/Ice is since 2020 labeled as a national scientific community software by INSU CNRS.
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Background
– 2007 : Habilitation à Diriger des Recherches (HDR) in mechanics at UJF
– 1995-1999 : Phd-thesis in Geomechanics at UJF and LGGE
– 1990-1994 : Ecole Normale Supérieure de Cachan, Civil Engineering
– 1993 : Agrégation in Civil Engineering
Positions
– Visiting scientist during 1 year at the Center for Advanced Study in Oslo, Norway (2023-2024)
– Visiting scientist during 1 year at UBC in Vancouver, Canada (2012-2013)
– 2012- : Professor at University Grenoble Alpes and IGE, Grenoble
– Nominated at the Institut Universitaire de France (2010-2015)
– 2 years of full-time research position at CNRS in 2005-2007
– Visiting scientist during 1 year at CSC in Helsinki, Finland (2005-2006)
– 1999-2012 : Assistant-Professor at University Joseph Fourier and LGGE, Grenoble
Research projects
– PEPR TRACCS project (2023-2030) in transforming climate modelling for climate services
– EU PROTECT project (2020-2024) in projecting sea-level rise : from ice-sheets to local implications
– EU TiPACCs project (2019-2023) on the tipping points of Antarctic climate components (WP2 leader)
– ANR SAUSSURE project (2019-2023) on the Sliding of glAciers and sUbglacial water preSSURE (WP3 leader)
– ANR ADAGe project (2009-2014) on Adjoint ice flow models for Data Assimilation in Glaciology (Project PI)
In parallel of these research projects funded by EU or french ANR, I have a number of contracts for glacier-related risk management in the Alps.
Publications
A93. Guillemot A., N. Bontemps, E. Larose, D. Teodor, S. Faller, L. Baillet, S. Garambois, E. Thibert, O. Gagliardini and C. Vincent, 2024. Investigating subglacial water-filled cavities by spectral analysis of ambient seismic noise : Results on the polythermal Tête-Rousse Glacier (Mont Blanc, France). Geophysical Research Letters, 51, e2023GL105038. doi:10.1029/2023GL105038
A92. Hill E. A., B. Urruty, R. Reese, J. Garbe, O. Gagliardini, G. Durand, F. Gillet-Chaulet, G. H. Gudmundsson, R. Winkelmann, M. Chekki, D. Chandler and P. M. Langebroek, 2023. The stability of present-day Antarctic grounding lines - Part 1 : No indication of marine ice sheet instability in the current geometry, The Cryosphere, 17, 3739–3759, doi:10.5194/tc-17-3739-2023
A91. Reese, R., J. Garbe, E. A. Hill, E. A., B. Urruty, K. A. Naughten, O. Gagliardini, G. Durand, F. Gillet-Chaulet, G. H. Gudmundsson, D. Chandler, P. M. Langebroek and R. Winkelmann, 2023. The stability of present-day Antarctic grounding lines – Part 2 : Onset of irreversible retreat of Amundsen Sea glaciers under current climate on centennial timescales cannot be excluded, The Cryosphere, 17, 3761–3783, doi:10.5194/tc-17-3761-2023
A90. Gilbert A., F. Gimbert, O. Gagliardini and C. Vincent, 2023. Inferring the basal friction law from long term changes of glacier length, thickness and velocity on an alpine glacier. Geophysical Research Letters, 50(16), e2023GL104503.
A89. Clauzel L., M. Ménégoz, A. Gilbert, O. Gagliardini, D. Six, G. Gastineau and C. Vincent, 2023. Sensitivity of glaciers in the European Alps to anthropogenic atmospheric forcings : Case study of the Argentière Glacier. Geophysical Research Letters, 50(13), e2022GL100363.
A88. Maier N., J. K. Andersen, J. Mouginot, F. Gimbert and O. Gagliardini, 2023. Wintertime Supraglacial Lake Drainage Cascade Triggers Large-Scale Ice Flow Response in Greenland. Geophysical Research Letters, 50(4), e2022GL102251.
A87. Law R., P. Christoffersen, E. MacKie, S. Cook, M. Haseloff and O. Gagliardini, 2023. Complex motion of Greenland Ice Sheet outlet glaciers with basal temperate ice. Science Advances, 9(6), eabq5180.
A86. Vincent C., A. Gilbert, A. Walpersdorf, F. Gimbert, O. Gagliardini, B. Jourdain, J. P. Roldan Blasco, O. Laarman, L. Piard, D. Six, L. Moreau, D. Cusicanqui and E. Thibert, 2022. Evidence of seasonal uplift in the Argentière Glacier (Mont Blanc area, France). Journal of Geophysical Research : Earth Surface, 127, e2021JF006454, doi:10.1029/2021JF006454
A85. Gimbert F., A. Gilbert, O. Gagliardini, C. Vincent and L. Moreau, 2021. Do existing theories explain seasonal to multi-decadal changes in glacier basal sliding speed ? Geophysical Research Letters, 48, doi:1029/2021GL092858
A84. Vincent, C., D. Cusicanqui, B. Jourdain, O. Laarman, D. Six, A. Gilbert, A. Walpersdorf, A. Rabatel, L. Piard, F. Gimbert, O. Gagliardini, V. Peyaud, L. Arnaud, E. Thibert, F. Brun, and U. Nanni, 2021. Geodetic point surface mass balances : a new approach to determine point surface mass balances on glaciers from remote sensing measurements, The Cryosphere, 15, 1259–1276, doi:10.5194/tc-15-1259-2021
A83. PeyaudV., C. Bouchayer, O. Gagliardini, C. Vincent, F. Gillet-Chaulet, D. Six and O. Laarman, 2020. Numerical modeling of the dynamics of the Mer de Glace glacier, French Alps : comparison with past observations and forecasting of near-future evolution, The Cryosphere, 14, 3979–3994, doi:10.5194/tc-14-3979-2020
A82. Brondex J., O. Gagliardini, F. Gillet-Chaulet and M. Chekki, 2020. Comparing the long-term fate of a snow cave and a rigid container buried at Dome C, Antarctica. Cold Regions Science and Technology, 103164, doi:10.1016/j.coldregions.2020.103164
A81. Helanow C., N. R. Iverson, L. K. Zoet and O. Gagliardini, 2020. Sliding relations for glacier slip with cavities over three-dimensional beds, Geophysical Research Letters, 47, doi:10.1029/2019GL084924
A80.Licciulli C, P. Bohleber, J. Lier, O. strong>Gagliardini, M. Hoelzle and O. Eisen, 2019. A fullStokes ice-flow model to assist the interpretation of millennial-scale ice cores atthe high-Alpine drilling site Colle Gnifetti, Swiss/Italian Alps. Journal of Glaciology 1–14, doi:10.1017/jog.2019.82
A79. Favier L., N.C. Jourdain, A. Jenkins, N. Merino, G. Durand, O. Gagliardini, F. Gillet-Chaulet and P. Mathiot, 2019. em>Assessment of sub-shelf melting parameterisations using the ocean–ice-sheet coupled model NEMO(v3.6)–Elmer/Ice(v8.3). Geosci. Model Dev., 12, 2255-2283, doi:10.5194/gmd-12-2255-2019
A78. Brondex J., F. Gillet-Chaulet and O. Gagliardini, 2019. Sensitivity of centennial mass loss projections of the Amundsen basin to the friction law. The Cryosphere, 13, 177-195, doi:10.5194/tc-13-177-2019
A77. De Fleurian, B., M. Werder, S. Beyer, D. Brinkerhoff, I. Delaney, C. Dow, C., J. Dows, O. Gagliardini, M.J. Hoffman, R. LeB Hooke, J. Seguinot, A.N. Sommers, 2018. SHMIP The subglacial hydrology model intercomparison Project. Journal of Glaciology, 1-20. doi:10.1017/jog.2018.78
A76. Gagliardini O. and M. Werder, 2018. Influence of increasing surface melt over decadal timescales on land-terminating Greenland-type outlet glaciers, Journal of Glaciology, 64(247), 700-710, doi:10.1017/jog.2018.59
A75. Haseloff M., C. Schoof and O. Gagliardini, 2018. The role of subtemperate slip in thermally driven ice stream margin migration, The Cryosphere 12, 2545-2568, doi:10.5194/tc-12-2545-2018
A74. Passalacqua O., M. Cavitte, O. Gagliardini, F. Gillet-Chaulet, F. Parrenin, C. Ritz and D. Young, 2018. Brief communication : Candidate sites of 1.5 Myr old ice 37 km southwest of the Dome C summit, East Antarctica, The Cryosphere, 12, 2167-2174, doi:10.5194/tc-12-2167-2018
A73. Goelzer, H., S. Nowicki, T. Edwards, M. Beckley, A. Abe-Ouchi, A. Aschwanden, R. Calov, O. Gagliardini, F. Gillet-Chaulet, N. R. Golledge, J. Gregory, R. Greve, A. Humbert, P. Huybrechts, J. H. Kennedy, E. Larour, W. H. Lipscomb, S. Le clec’h, V. Lee, M. Morlighem, F. Pattyn, A. J. Payne, C. Rodehacke, M. Rückamp, F. Saito, N. Schlegel, H. Seroussi, A. Shepherd, S. Sun, R. van de Wal and F. A. Ziemen, 2018. Design and results of the ice sheet model initialisation experiments initMIP-Greenland : an ISMIP6 intercomparison, The Cryosphere, 12, 1433-1460. doi:10.5194/tc-12-1433-2018
A72. Lefeuvre P.-M., T. Zwinger, M. Jackson, O. Gagliardini, G. Lappegard and J.O. Hagen, 2018. Stress Redistribution Explains Anti-correlated Subglacial Pressure Variations. Front. Earth Sci. 5:110, doi:10.3389/feart.2017.00110.
A71. Gagliardini O., 2018. The health of Antarctic ice shelves. Nature Climate Change, 8(1), 15, doi:10.1038/s41558-017-0037-1.
A70. Parrenin, F., M. G. P. Cavitte, D. D. Blankenship, J. Chappellaz, H. Fischer, O. Gagliardini, V. Masson-Delmotte, O. Passalacqua, C. Ritz, J. Roberts, M. J. Siegert and D. A. Young, 2017. Is there 1.5-million-year-old ice near Dome C, Antarctica ?, The Cryosphere, 11, 2427-2437, doi:10.5194/tc-11-2427-2017.
A69. Brondex, J., O. Gagliardini, F. Gillet-Chaulet and G. Durand, 2017. Sensitivity of grounding line dynamics to the choice of the friction law, Journal of Glaciology, 63(241), 854-866, doi : 10.1017/jog.2017.51.
A68. Gladstone, R.M., R.C. Warner, B.K. Galton-Fenzi, O. Gagliardini, T. Zwinger and R. Greve, 2017. Marine ice sheet model performance depends on basal sliding physics and sub-shelf melting, The Cryosphere, 11, 319-329, doi:10.5194/tc-11-319-2017.
A67. Zhang, T., S. Price, L. Ju, W. Leng, J. Brondex, G. Durand and O. Gagliardini, 2017. A comparison of two Stokes ice sheet models applied to the Marine Ice Sheet Model Intercomparison Project for plan view models (MISMIP3d), The Cryosphere, 11, 179-190, doi:10.5194/tc-11-179-2017.
A66. Gillet-Chaulet, F., G. Durand, O. Gagliardini, C. Mosbeux, J. Mouginot, F. Rémy, and C. Ritz, 2016. Assimilation of surface velocities acquired between 1996 and 2010 to constrain the form of the basal friction law under Pine Island Glacier, Geophys. Res. Lett., 43, doi :10.1002/2016GL069937.
A65. Mosbeux, C., F. Gillet-Chaulet and O. Gagliardini, 2016. Comparison of adjoint and nudging methods to initialise ice sheet model basal conditions, Geosci. Model Dev., 9, 2549-2562, doi :10.5194/gmd-9-2549-2016.
A64. Jordan, T. M., J. L. Bamber,C. N. Williams, J. D. Paden,M. J. Siegert, P. Huybrechts, O. Gagliardini and F. Gillet-Chaulet, 2016. An ice-sheet-wide framework for englacial attenuation from ice-penetrating radar data, The Cryosphere, 10, 1547-1570, doi :10.5194/tc-10-1547-2016.
A63. Passalacqua O., O. Gagliardini, F. Parrenin, J. Todd, F. Gillet-Chaulet and C. Ritz, 2016. Performance and applicability of a 2.5-D ice-flow model in the vicinity of a dome, Geosci. Model Dev., 9, 2301-2313, doi :10.5194/gmd-9-2301-2016.
A62. Fürst, J. J., G. Durand, F. Gillet-Chaulet, L. Tavard, M. Rankl, M. Braun and O. Gagliardini, 2016. The safety band of Antarctic ice shelves, Nature Climate Change, doi:10.1038/NCLIMATE2912.
A61.Gagliardini O., J. Brondex, F. Gillet-Chaulet, L. Tavard, V. Peyaud and G. Durand, 2016. Brief communication : Impact of mesh resolution for MISMIP and MISMIP3d experiments using Elmer/Ice, The Cryosphere, 10, 307-312, doi :10.5194/tc-10-307-2016.
A60. Haseloff M., C. Schoof and O. Gagliardini, 2015. A boundary layer model for ice stream margins. Journal of Fluid Mechanics, 781, 353-387, doi : >10.1017/jfm.2015.503.
A59. Vincent, C., E. Thibert, O. Gagliardini, A. Legchenko, A. Gilbert, S. Garambois, T. Condom, J.M. Baltassat and J.F. Girard, 2015. Mechanisms of subglacial cavity filling in glacier de Tête Rousse, French Alps, J. Glaciol., 61(228), doi :
10.3189/2015JoG14J238
A58. Gilbert, A., C. Vincent, O. Gagliardini, J. Krug and E. Berthier, 2015. Assessment of thermal change in cold avalanching glaciers in relation to climate warming, Geophys. Res. Lett., 42, doi:10.1002/2015GL064838.
A57. Fürst, J. J., G. Durand, F. Gillet-Chaulet, N. Merino, L. Tavard, J. Mouginot, N. Gourmelen and O. Gagliardini, 2015. Assimilation of Antarctic velocity observations provides evidence for uncharted pinning points, The Cryosphere, 9, 1427-1443, doi:10.5194/tc-9-1427-2015.
A56. Krug, J., G. Durand, O. Gagliardini and J. Weiss, 2015. Modelling the impact of submarine frontal melting and ice mélange on glacier dynamics, The Cryosphere, 9, 989-1003, doi:10.5194/tc-9-989-2015 >[pdf]
A55. Krug, J., J. Weiss, O. Gagliardini and G. Durand, 2014. Combining damage and fracture mechanics to model calving, The Cryosphere, 8, 2101-2117, doi:10.5194/tc-8-2101-2014 [pdf]
A54. Gilbert, A., O. Gagliardini, C. Vincent, and P. Wagnon, 2014. A 3-D thermal regime model suitable for cold accumulation zones of polythermal mountain glaciers, J. Geophys. Res. Earth Surf., 119, doi:10.1002/2014JF003199.
A53. Le Meur, E.,M. Sacchettini, S. Garambois, E. Berthier, A. S. Drouet, G. Durand, D. Young, J. S. Greenbaum, D. D. Blankenship, J. W. Holt, E. Rignot, J. Mouginot, Y. Gim, D. Kirchner, B. de Fleurian, O. Gagliardini and F. Gillet-Chaulet, 2014.Two independent methods for mapping the grounding line of an outlet glacier – an
example from the Astrolabe Glacier, Terre Adélie, Antarctica, The Cryosphere, 8, 1331-1346,
doi:10.5194/tc-8-1331-2014. [pdf]
A52. Legchenko A., C. Vincent, J.M. Baltassat, J.F. Girard, E. Thibert, O. Gagliardini, M. Descloitres, A. Gilbert, S. Garambois, A. Chevalier, and H. Guyard, 2014. Monitoring water accumulation in a glacier using magnetic resonance imaging, The Cryosphere, 8, 155-166, doi:10.5194/tc-8-155-2014. >[link to paper]
A51. de Fleurian, B., O. Gagliardini, T. Zwinger, G. Durand, E. Le Meur, D. Mair, and P. Råback, 2014. A double continuum hydrological model for glacier applications,The Cryosphere, 8, 137-153, doi:10.5194/tc-8-137-2014. >[link to paper]
A50. Edwards, T. L., X. Fettweis, O. Gagliardini, F. Gillet-Chaulet, H. Goelzer, J.M. Gregory, M. Hoffman, P. Huybrechts, A.J. Payne, M. Perego, S. Price, A. Quiquet and C. Ritz, 2014. Probabilistic parameterisation of the surface mass balance–elevation feedback in regional climate model simulations of the Greenland ice sheet, The Cryosphere, 8, 181-194, doi:10.5194/tc-8-181-2014. >[link to paper]
A49. Edwards, T. L., X. Fettweis, O. Gagliardini, F. Gillet-Chaulet, H. Goelzer, J.M. Gregory, M. Hoffman, P. Huybrechts, A.J. Payne, M. Perego, S. Price, A. Quiquet and C. Ritz, 2014. Effect of uncertainty in surface mass balance–elevation feedback on projections of the future sea level contribution of the Greenland ice sheet, The Cryosphere, 8, 195-208, doi:10.5194/tc-8-195-2014.
[link to paper]
A48. Favier, L., G. Durand, S. L. Cornford, G. H. Gudmundsson, O. Gagliardini, F. Gillet-Chaulet, T. Zwinger, A. J. Payne and A. M. Le Brocq, 2014. Retreat of Pine Island Glacier controlled by marine ice-sheet instability, Nature Climate Change, doi:10.1038/nclimate2094. [Link to paper]
A47. Gagliardini, O., T. Zwinger, F. Gillet-Chaulet, G. Durand, L. Favier, B. de Fleurian, R. Greve, M. Malinen, C. Martín, P. Råback, J. Ruokolainen, M. Sacchettini, M. Schäfer, H. Seddik, and J. Thies, 2013. Capabilities and performance of Elmer/Ice, a new-generation ice sheet model, Geosci. Model Dev., 6, 1299-1318, doi:10.5194/gmd-6-1299-2013. [pdf]
A46. Shannon, S. R., A. J. Payne, I. D. Bartholomew, M. R. van den Broeke, T. L. Edwards, X. Fettweis, O. Gagliardini, F. Gillet-Chaulet, H. Goelzer, M. J. Hoffman, P. Huybrechts, D. W. F. Mair, P. W. Nienow, M. Perego, S. F. Price, C. J. P. Paul Smeets, A. J. Sole, R. S. W. van de Wal, and T. Zwinger, 2013. Enhanced basal lubrication and the contribution of the Greenland ice sheet to future sea-level rise, PNAS, doi:10.1073/pnas.1212647110.
A45. Montagnat, M., O. Castelnau, P. D. Bons, S. H. Faria, O. Gagliardini, F. Gillet-Chaulet, F. Grennerat, A. Griera, R. A. Lebensohn, H. Moulinec, J. Roessiger and P. Suquet, 2014. Multiscale modeling of ice deformation behavior, Journal of Structural Geology, 61, p. 78-108. [pdf]
A44. Pattyn, F., L. Perichon, G. Durand, O. Gagliardini, R.C.A. Hindmarsh, T. Zwinger, T. Albrecht, S. Cornford, D. Docquier, J.J. Fürst, D. Golberg, G.H. Gudmundsson, A. Humbert, M. Hütten, P. Huybrechts, G. Jouvet, T. Kleiner, E. Larour, D. Martin, M. Morlighem, A.J. Payne, D. Pollard, M. Rückamp, O. Rybak, H. Seroussi, M. Thoma and N. Wilkens, 2013. Grounding-line migration in plan-view marine ice-sheet models : results of the ice2sea MISMIP3d intercomparison, J. Glaciol., 59(215), doi:10.3189/2013JoG12J129.
A43. Gagliardini, O., J. Weiss, P. Duval and M. Montagnat, 2013. On Duddu and Waisman (2012a,b) concerning continuum damage mechanics applied to crevassing and icebergs calving, Correspondence to J. Glaciol., 59(216), 797-798, doi:10.3189/2013JoG13J049
A42. Drouet, A. S., D. Docquier, G. Durand, R. Hindmarsh, F. Pattyn O. Gagliardini and T. Zwinger, 2013. Grounding line transient response in marine ice sheet models, The Cryosphere, 7, 395-406, doi:10.5194/tc-7-395-2013, 2013. [pdf]
A41. Gillet-Chaulet, F., O. Gagliardini, H. Seddik, M. Nodet, G. Durand, C. Ritz, T. Zwinger, R. Greve and D.G. Vaughan, 2012. Greenland ice sheet contribution to sea-level rise from a new-generation ice-sheet model, The Cryosphere, 6, 1561-1576, doi:10.5194/tc-6-1561-2012.
A40. Gudmundsson, G. H., J. Krug, G. Durand, L. Favier and O. Gagliardini, 2012. The stability of grounding lines on retrograde slopes, The Cryosphere, 6, 1497-1505, doi:10.5194/tc-6-1497-2012.
A39. Seddik H., R. Greve, T. Zwinger, F. Gillet-Chaulet and O. Gagliardini, 2012. Simulations of the Greenland ice sheet 100 years into the future with the full Stokes model Elmer/Ice. J. Glaciol., 58 (209), p. 427-440.
A38. Pattyn, F., C. Schoof, L. Perichon, R.C.A. Hindmarsh, E. Bueler, B. de Fleurian, G. Durand, O. Gagliardini, R. Gladstone, D. Goldberg, G.H. Gudmundsson, V. Lee, F.M. Nick, A.J. Payne, D. Pollard, O. Rybak, F. Saito and A. Vieli, 2012. Results of the Marine Ice Sheet Model Intercomparison Project, MISMIP, The Cryosphere, 6, 573-588, doi:10.5194/tc-6-573-2012. [pdf]
A37. Favier L., O. Gagliardini, G. Durand and T. Zwinger, 2012. A three-dimensional full Stokes model of the grounding line dynamics : effect of a pinning point beneath the ice shelf. The Cryosphere, 6, 101-112, doi:10.5194/tc-6-101-2012. [pdf]
A36. Durand, G., O. Gagliardini, L. Favier, T. Zwinger, and E. le Meur (2011), Impact of bedrock description on modeling ice sheet dynamics, Geophys. Res. Lett., 38, L20501, doi:10.1029/2011GL048892.
A35. Jay-Allemand M., F. Gillet-Chaulet, O. Gagliardini and M. Nodet, 2011. Investigating changes in basal conditions of Variegated Glacier prior to and during its 1982–1983 surge. The Cryosphere, 5, p. 659-672, doi:10.5194/tc-5-659-2011. [pdf]
A34. Gagliardini O., F. Gillet-Chaulet, G. Durand, C. Vincent and P. Duval, 2011. Estimating the risk of glacier cavity collapse during artificial drainage : the case of Tête Rousse Glacier. Geophys. Res. Lett., 38, L10505, doi:10.1029/2011GL047536.
A33. Ma Y., O. Gagliardini, C. Ritz, F. Gillet-Chaulet, G. Durand and M. Montagnat, 2010. Enhancement factors for grounded ice and ice shelves inferred from an anisotropic ice-flow model. J. Glaciol., strong>56(199), p. 805-812.
A32. Gagliardini O., G. Durand, T. Zwinger, R. Hindmarsh and E. Le Meur, 2010. Coupling of ice-shelf melting and buttressing is a key process in ice-sheets dynamics, Geophys. Res. Lett., 37, L14501, doi:10.1029/2010GL043334.
A31. Martín, C., G. H. Gudmundsson, H. D. Pritchard, and O. Gagliardini, 2009. On the effects of anisotropic rheology on ice flow, internal structure, and the age-depth relationship at ice divides, J. Geophys. Res., 114, F04001, doi:10.1029/2008JF001204.
A30. Durand G., O. Gagliardini, B. de Fleurian, T. Zwinger and E. Le Meur. 2009. Marine Ice-Sheet Dynamics : Hysteresis and Neutral Equilibrium, J. of Geophys. Res., Earth Surface, 114, F03009, doi:10.1029/2008JF001170.
A29.Durand G., O. Gagliardini, T. Zwinger, E. Le Meur and R.C.A. Hindmarsh, 2009. Full-Stokes modeling of marine ice-sheets : influence of the grid size., Annals of Glaciology,50(52), p. 109-114.
A28. Pattyn, F., Perichon, L., Aschwanden, A., Breuer, B., de Smedt, B., Gagliardini, O., Gudmundsson, G. H., Hindmarsh, R. C. A., Hubbard, A., Johnson, J. V., Kleiner, T., Konovalov, Y., Martin, C., Payne, A. J., Pollard, D., Price, S., Rückamp, M., Saito, F., Soucek, O., Sugiyama, S., and Zwinger, T., 2008. Benchmark experiments for higher-order and full-Stokes ice sheet models (ISMIP–HOM), The Cryosphere, 2, p. 95-108.
A27. Gagliardini O. and T. Zwinger, 2008. The ISMIP-HOM benchmark experiments performed using the Finite-Element code Elmer, The Crysophere, 2, p. 67-76. [pdf]
A26. Seddik H., R. Greve, L. Placidi, I. Hamann and O. Gagliardini, 2008. Application of a continuum-mechanical model for the flow of anisotropic polar ice to the EDML core, Antarctica. J. Glaciol., 54 (187), p. 631-642.
A25. Gagliardini O., F. Gillet-Chaulet and M. Montagnat, 2009. A Review of Anisotropic Polar Ice Models : from Crystal to Ice-Sheet Flow Models. In "Physics of Ice Core Records II", Supplement Issue of Low Temperature Science, Vol. 68, December 2009.
A24. Durand G, A. Svensson, A. Persson, O. Gagliardini, F. Gillet-Chaulet, J. Sjolte, M. Montagnat and D. Dahl-Jensen, 2009. Evolution of the texture along the EPICA Dome C ice core. In Physics of Ice Core Records vol.2, ed. T.Hondoh, Yoshioka Publishing Co.Ltd, Kyoto.
A23. Gagliardini O., 2008. Comments on the papers "Creep and recrystallization of large polycrystalline masses" from Faria and co-authors (2006). Proc. Roy. Soc. A., 464(2090), p. 289-291.
A22. Parrenin F., G. Dreyfus, G. Durand, S. Fujita, O. Gagliardini, F. Gillet, J. Jouzel, K. Kawamura, N. Lhomme, V. Masson-Delmotte, C. Ritz, J. Schwander, H. Shoji, R. Uemura, O. Watanabe, and N. Yoshida, 2007. 1-D-ice flow modelling at EPICA Dome C and Dome Fuji, East Antarctica, Clim. Past., 3, p. 243-259. [pdf]
A21. Durand G., F. Gillet-Chaulet, A. Svensson, O. Gagliardini, S. Kipfstuhl, J. Meyssonnier, F. Parrenin, P. Duval and D. Dahl-Jensen, 2007. Change of the ice rheology with climatic transitions – implication on ice flow modelling and dating of the EPICA Dome C core. Clim. Past., 3, p. 155-167. [pdf]
A20. Gagliardini O., D. Cohen, P. Råback and T. Zwinger, 2007. Finite-Element Modeling of Subglacial Cavities and Related Friction Law. J. of Geophys. Res., Earth Surface, 112, F02027.
A19. Durand G., O. Gagliardini, T. Thorsteinsson, A. Svensson, J. Kipfstuhl and D. Dahl-Jensen, 2007. Ice microstructure and fabric : an up to date approach to measure textures, J. Glaciol., 52(179), p. 619-630.
A18.Zwinger T. , R. Greve, O. Gagliardini , T. Shiraiwa and M. Lyly, 2007. A full Stokes-flow thermo-mechanical model for firn and ice applied to the Gorshkov crater glacier, Kamchatka. Annals of Glaciol., 45,
p. 29-37.
A17. Gillet-Chaulet F., O. Gagliardini , J. Meyssonnier, T. Zwinger and J. Ruokolainen, 2006. Flow-induced anisotropy in polar ice and related ice-sheet flow modelling. J. Non-Newtonian Fluid Mech., 134, p. 33-43.
A16. Gillet-Chaulet F., O. Gagliardini , J. Meyssonnier, M. Montagnat and O. Castelnau, 2005. A user-friendly anisotropic flow law for ice-sheet modelling. J. of Glaciol., 51(172), p. 3-14.
A15. Le Meur E., O. Gagliardini , T. Zwinger and J. Ruokolainen, 2004. Glacier flow modelling : a comparison of the Shallow Ice Approximation and the full-Stokes solution, C.R. physique, 5, p. 709-722.
A14. Nicot F., B. Boutillier,O. Gagliardini , J. Meyssonnier, and F. Darve, 2004. Modelling of the mechanical interaction between flowing materials and retaining wire structures . Computers and Geotechnics , 31 (6), p. 427-441. ;">
A13.Gagliardini O., G. Durand and Y. Wang, 2004 Grain area as a statistical weight for polycrystal constituents. J. of Glaciol ., 50 (168), p. 87-95.
A12. Boutillier B., F. Nicot, J. Meyssonnier, O. Gagliardini and F. Darve, 2004. Modelling and Design of flexible snow supporting structure, Proc. Conference on Snow Engineering, Davos, Switzerland, 5-8 July 2004. Rotterdam, Balkema editor.
A11. Boutillier B., F. Nicot, J. Meyssonnier, O. Gagliardini and F. Darve, 2004. Snow motions : interaction between a snowpack and a snow net system. Proc. International Research Society INTERPRAEVENT 2004, Trento, Italy, 24-28 May 2004.
A10. Nicot F., O. Gagliardini and B. Boutillier, 2003. Modelling of a snowpack in interaction with a flexible structure using a coupled Lagrangian-Discrete approach. International Journal for Numerical and Analytical Methods in Geomechanics , 27 , p. 259-274.
A9. Gagliardini O. and J. Meyssonnier, 2002. Lateral boundary conditions for a local anisotropic ice-flow model. Annals of Glaciol., 35, p. 503-509.
A8. Meyssonnier J., P. Duval, O. Gagliardini and A. Philip, 2001. Constitutive modelling and flow simulation of anisotropic polar ice. Straughan B., R. Greve, H. Ehrentraut and Y. Wang Eds. Continuum mechanics and applications in geophysics and the environment. Berlin, etc. Springer-Verlag, p. 250-275.
A7. Gagliardini O., M. Arminjon and D. Imbault, 2001. An inhomogeneous variational model applied to predict the behaviour of isotropic polycrystalline ice. Arch. Mech., 53(1), p. 3-21.
A6. Gagliardini O., M. Arminjon and D. Imbault, 2000. Predicting the macroscopic behaviour of anisotropic ice with a variational polycrystal model. Proceedings of EMMC4, Metz France, june 26-29 2000.
A5. Gagliardini O. and J. Meyssonnier, 2000. Simulation of anisotropic ice flow and fabric evolution along the GRIP-GISP2 flow line (Central Greenland). Annals of Glaciol., 30, p. 217-223.
A4. Staroszczyk R. and O. Gagliardini., 1999. Two orthotropic models for strain-induced anisotropy of polar ice. J. of Glaciol., 45(151), p. 485-494.
A3. Gagliardini O. and J. Meyssonnier, 1999. Analytical derivations for the behaviour and fabric evolution of a linear orthotropic ice polycrystal. J. of Geophys. Res., 104(B8), pp 17797-17809.
A2. Gagliardini O. and J. Meyssonnier, 1999. Plane flow of an ice sheet exhibiting strain-induced anisotropy. Hutter K., Y.Wang, H. Beer Eds.. Advances in Cold-Region Thermal Engineering and Sciences : technological, environmental and climatological impact. Berlin, etc. Springer-Verlag, (Lecture Notes in Physics 533), p.171-182.
A1. Gagliardini O. and J. Meyssonnier, 1997. Flow simulation of a firn covered cold glacier. Annals of Glaciol. , 24, p. 242-248.