Under review
Grange, A, R. Brossier, F. Gimbert, L. Métivier, P. Roux and J. Thurin, Characterization of icequake mechanisms on the Argentière glacier by 3D elastic full waveform inversion, submitted to JGI (3 Sept. 2025)
Livingstone et al. (including F. Gimbert), Ice dynamic and hydrological response to ice-dammed lake drainages at Isunnguata Sermia, West Greenland, submitted to JoG (16 Jul. 2025)
M. Chmiel, N. Caldera, F. Gimbert, G. Olivier, A. Guadagnini, D. Gräff, M. Köpfli, F. Walter, On the quieting of glaciohydraulic tremor, submitted to EPSL (Jun 14, 025)
A. Johannot, F. Gimbert, F. Fontaine, A. Recking, Bedload regime transition detected during flood events with seismic measurements in a morphodynamically active Alpine river, submitted to ESPL
I. Koa, A. Recking, F. Gimbert, H. Bellot, G. Chambon, T. Faug, The Transition from Bedload to Complex Granular Dynamics on Steep Slopes: A Force Balance Perspective, submitted to JGR (31 Mars 2025)
2025
[47] Togaibecov, A., F. Gimbert, A. Rabatel, A. Walpersdorf (2025), Surface mass balance monitoring of an alpine glacier using GNSS Interferometric Reflectometry, Journal of Glaciology, 1-29
[46] Le Bris, T., G. Barruol, F. Gimbert et al. (2025), Spatial and Temporal Variability in Tide-induced Icequake Activity at the Astrolabe Glacier, East Antarctica, JGR-Earth Surface, 130, 6, e2024JF008054
[45] Roldan-Blasco, J.P., F. Gimbert, O. Gagliardini, A. Gilbert (2025), Impact of interfacial friction at the ice-bed boundary on glacier sliding, JGR-Earth Surface, 130, 6, e2022JF007028
[44] Roldan Blasco et al. (including F. Gimbert) (2025), Creep enhancement and sliding in a temperate, hard-bedded alpine glacier, under minor revision, EGUsphere [preprint], https://doi.org/10.5194/egusphere-2024-1600, 2024.
2024
[43] Togaibecov, A., F. Gimbert, A. Gilbert, A. Walpersdorf (2024), Observing and modeling short-term changes in basal friction during rain-induced speed-ups on an Alpine glacier, GRL, 51, 14, e2023GL107999
[42] Nanni, U, P. Roux, F. Gimbert (2024), Mapping glacier structure in inaccessible areas from turning seismic sources into a dense seismic array, GRL, 51, 11, e2023GL108058
2023
[41] Umlauft et al. (including F. Gimbert) (2023), Mapping glacier basal sliding applying machine learning, JGR Earth Surface, 128, e2023JF007280
[40] Gonzalez et al. (including F. Gimbert) (2023), Seismic signature of a river flooding in La Reunion Island during the tropical cyclone Dumazile (March 2018), Journal of Applied Geophysics, 215, 105127
[39] Gilbert, A., F Gimbert, O Gagliardini, C Vincent (2023), Inferring the basal friction law from long term changes of glacier length, thickness and velocity on an alpine glacier, GRL, 50, 16, e2023GL104503.
[38] Maier, N., J. Andersen, J. Mouginot, F. Gimbert and O. Gagliardini (2023), Wintertime lake drainage cascade triggers large-scale ice flow response in Greenland, GRL, 50, 4, e2022GL102251.
2022
[37] Piantini, M., F. Gimbert, E. Korkolis, R. Rousseau, H. Bellot, A. Recking, Volumetric solid concentration as a main proxy for basal force fluctuations generated by highly concentrated sediment flows, GRL, 50(1), e2022GL100345
[36] Maier, N., F. Gimbert, F. Gillet-Chaulet, Threshold response to surface melt drives large-scale bed weakening in Greenland, Nature, 607 (7920), 714-720
[35] Vincent, C. et al. (including F. Gimbert), Evidence of seasonal uplift in the Argentière Glacier (Mont Blanc area, France), JGR, 127, e2021JF006454. https://doi.org/10.1029/2021JF006454
[34] Gilbert, A., F. Gimbert, K. Thøgersen, T. Vikhamar Schuler, A. Kääb, A Consistent Framework for Coupling Basal Friction With Subglacial Hydrology on Hard-Bedded Glaciers, GRL, 49, 13, e2021GL097507
[33] Bakker, M., C. Legout, F. Gimbert, G. Nord, B. Boudevillain, and G. Freche, Seismic Modelling and Observations of Rainfall, J. of Hydrology, 127812, 610, 2022
[32] Chmiel, M., et al. (including F. Gimbert), Seismological analysis of flood dynamics and hydrologically-triggered earthquake swarms associated with storm Alex, NHESS, https://doi.org/10.5194/nhess-2021-339
[31] Nanni, U., P. Roux, F. Gimbert, A. Lecointre, Dynamic imaging of glacier structures at high-resolution using source localization: a dense seismic array experiment, GRL, https://doi-org.insu.bib.cnrs.fr/10.1029/2021GL095996
[30] Labedz, C., T.C. Bartholomaus, J.M. Amundson, F. Gimbert, M.S. Karplus, V.C. Tsai and S. Veitch, Seismic mapping of subglacial hydrology reveals previously undetectable pressurization event, JGR, doi: 10.1029/2021JF006406
2021
[29] Piantini, M., F. Gimbert, H. Bellot, A. Recking, Genesis and propagation of exogenous sediment pulses in mountain channels: insights from flume experiments with seismic monitoring, accepted in ESurf (Sept. 28, 2021)
[28] Gimbert, F., A. Gilbert, O. Gagliardini, C. Vincent and L. Moreau, Do existing theories explain seasonal to multi-decadal changes in glacier basal sliding speed?, GRL, https://doi-org.insu.bib.cnrs.fr/10.1029/2021GL092858
[27] Nanni, U., F. Gimbert, P. Roux and A. Lecointre, Observing the subglacial hydrology network and its dynamics with a dense seismic array, PNAS https://doi.org/10.1073/pnas.2023757118
[26] Lagarde, S., M. Dietze, F. Gimbert, J. Laronne, J. Turowski, E. Halfi, Grain-size distribution effects on seismic signal inversion for continuous bedload flux, Water Resources Research, https://doi.org/10.1029/2020WR028700
[25] Maier, N., Gimbert, F., Gillet-Chaulet, F., and Gilbert, A.: Basal traction mainly dictated by hard-bed physics over grounded regions of Greenland, The Cryosphere, https://doi.org/10.5194/tc-15-1435-2021
[24] Vincent C. et al. (including F. Gimbert), Geodetic point surface mass balances: A new approach to determine point surface mass balances from remote sensing measurements, The Cryosphere, https://doi.org/10.5194/tc-15-1259-2021
[23] Misset C., A. Recking, C. Legout, M. Bakker, F. Gimbert, T. Geay and S. Zanker, Using continuous turbidity and seismic measurements to unravel sediment provenance and interaction between suspended and bedload transport in an Alpine catchment, Geophys. Res. Lett., https://doi.org/10.1029/2020GL090696
[22] Gimbert, F et al., A multi-physics experiment with a temporary dense seismic array on the Argentière Glacier, French Alps: the RESOLVE project, Seis. Res. Lett., https://doi.org/10.1785/0220200280
2020
[21] Bakker, M., F. Gimbert, T. Geay, C. Misset, S. Zanker and A. Recking (2020), Field Application and Validation of a Seismic Bedload Transport Model, doi: 10.1029/2019JF005416.
[20] Nanni, U., F. Gimbert, C. Vincent, D. Gräff, F. Walter, L. Piard, and L. Moreau (2020), Seasonal and Diurnal Dynamics of Subglacial Channels: Observations Beneath an Alpine Glacier, The Cryosphere, 14(5), 1475–1496.
[19] Sergeant, A. et al. (including F. Gimbert), On the Green’s function emergence from interferometry of seismic wavefields generated in high-melt glaciers: implications for passive imaging and monitoring, The Cryosphere, 14, 1139–1171.
[18] Lindner, F., F. Walter, G. Laske, and F. Gimbert (2020), Glaciohydraulic seismic tremors on an Alpine glacier, The Cryosphere, 14, 287-308.
[17] Misset, C. et al. (including F. Gimbert) (2020), Combining multi-physical measurements to quantify bedload transport and morphodynamic interactions in an Alpine braiding river reach, Geomorphology, 351, 106877
2019
[16] Lachaud, C., D. Marsan, M. Montagnat, J. Weiss, L. Moreau, F. Gimbert (2019), Micro-seismic monitoring of a floating ice plate to characterize its deformation, JGR-Solid Earth, 124 (10), 10444-10467.
[15] Lipovsky B.P., C. R. Meyer, L. K. Zoet, C. McCarthy, D. D. Hansen, A. Rempel and F. Gimbert (2019), Glacier sliding, seismicity and sediment entrainment, Annals of Glaciology, 1-11
[14] Marsan, D., J. Weiss, L. Moreau, F. Gimbert, M. Doble, E. Larose, J. Grangeon (2019), Characterizing horizontally-polarized shear and infragravity vibrational modes in the Arctic sea ice cover using correlation methods, JASA, 145 (3), 1600-1608.
[13] Gimbert, F., B. Fuller, M.P. Lamb, V.C. Tsai, J. Johnson (2019), Investigating river sediment transport mechanics and its control on induced seismic noise using flume experiments and accelerometer-embedded tracers, ESPL, 44 (1), 219-241, doi: 10.1002/esp.4495.
2018
[12] Cook, K. L., C. Andermann, F. Gimbert, B. R. Adhikari and N. Hovius (2018), Glacial lake outburst floods as drivers of fluvial erosion in the High Himalaya, Science, 362, 6410, doi:10.1126/science.aat4981.
[11] Kääb, A. et al. (including F. Gimbert) (2018), Massive collapse of two glaciers in western Tibet in 2016 after surge-like instability, Nature Geoscience, doi:10.1038/s41561-017-0039-7.
2017
[10] Roth, D. L., N. J. Finnegan, E. E. Brodsky, D. Rickenmann, J. M. Turowski, A. Badoux, and F. Gimbert (2017), Bed load transport and boundary roughness changes as competingcauses of hysteresis in the relationship between river discharge and seismic amplitude recorded near a steep mountain stream, J. Geophys. Res. Earth Surf., 122, 1182–1200.
2016
[9] Gimbert, F., V.C. Tsai, J.M. Amundson, T.C. Bartholomaus and J.I. Walter (2016), Sub-seasonal changes observed in subglacial channel pressure, size, and sediment transport, Geophys. Res. Lett., 43, doi:10.1002/2016GL068337.
2015
[8] Gimbert, F. and V.C. Tsai, Predicting short-period, wind-wave-generated seismic noise in coastal regions, Earth Planet. Sci. Lett., 426, 280-292, doi:10.1016/j.epsl.2015.06.017.Supplementary Figures
[7] E. Larose et al. (including F. Gimbert) (2015), Environmental seismology: What can we learn on earth surface processes with ambient noise?, J. App. Geophys., 116, 62-74, ISSN 0926-9851
2014
[6] Gimbert, F., V.C. Tsai, and M.P. Lamb (2014), A physical model for turbulent water flow noise generation in rivers, J. Geophys. Res. Earth Surf., 119, doi:10.1002/2014JF003201
[5] Weiss, J., Girard, L., Gimbert, F., Amitrano, D. & Vandembroucq, D. (2014) (Finite) statistical size effects on compressive strength, PNAS, 201403500. doi:10.1073/pnas.1403500111.
2013
[4] Gimbert, F., D. Amitrano, and J. Weiss (2013), Crossover from quasi-static to dense flow regime in compressed frictional granular media, Europhys. Lett., 104, 46001.Supplementary Material.
2012
[3] Gimbert, F., N.C. Jourdain, D. Marsan, J. Weiss and B. Barnier (2012), Recent mechanical weakening of the Arctic sea ice cover as revealed from larger inertial oscillations. J. Geophys. Res. Oceans, 117, C00J12, doi:10.1029/2011JC007633.
[2] Gimbert, F., D. Marsan, J. Weiss, N.C. Jourdain, and B. Barnier (2012), Sea ice inertial oscillation magnitudes in the Arctic basin. The Cryosphere, 6, 1187-1201, doi:10.5194/tc-6-1187-2012.
2011
[1] Gimbert, F., G. Combe, D. Amitrano and J. Weiss (2011), Scaling Analysis of the Deformation field of Granular Materials: Application to Strain Localization. PARTICLE-BASED METHODS II Fund. and Appl., Dec. 2011.