|Modelling runoff from highly glacierized alpine drainage basins in a changing climate|
M Huss, D Farinotti, A Bauder, M Funk
Hydrological processes 22 (19), 3888-3902, 2008
|Distributed ice thickness and volume of all glaciers around the globe|
M Huss, D Farinotti
Journal of Geophysical Research: Earth Surface 117 (F4), 2012
|A method to estimate the ice volume and ice-thickness distribution of alpine glaciers|
D Farinotti, M Huss, A Bauder, M Funk, M Truffer
Journal of Glaciology 55 (191), 422-430, 2009
|Substantial glacier mass loss in the Tien Shan over the past 50 years|
D Farinotti, L Longuevergne, G Moholdt, D Duethmann, T Mölg, T Bolch, ...
Nature Geoscience 8 (9), 716-722, 2015
|Future high-mountain hydrology: a new parameterization of glacier retreat|
M Huss, G Jouvet, D Farinotti, A Bauder
Hydrology and Earth System Sciences 14 (5), 815-829, 2010
|The European mountain cryosphere: a review of its current state, trends, and future challenges|
M Beniston, D Farinotti, M Stoffel, LM Andreassen, E Coppola, N Eckert, ...
The Cryosphere 12 (2), 759-794, 2018
|What do we know about past changes in the water cycle of Central Asian headwaters? A review|
K Unger-Shayesteh, S Vorogushyn, D Farinotti, A Gafurov, D Duethmann, ...
Global and Planetary Change 110, 4-25, 2013
|An estimate of the glacier ice volume in the Swiss Alps|
D Farinotti, M Huss, A Bauder, M Funk
Global and Planetary Change 68 (3), 225-231, 2009
|Runoff evolution in the Swiss Alps: projections for selected high‐alpine catchments based on ENSEMBLES scenarios|
D Farinotti, S Usselmann, M Huss, A Bauder, M Funk
Hydrological Processes 26 (13), 1909-1924, 2012
|Chemical and biological gradients along the Damma glacier soil chronosequence, Switzerland|
SM Bernasconi, A Bauder, B Bourdon, I Brunner, E Bünemann, I Chris, ...
Vadose Zone Journal 10 (3), 867-883, 2011
|How accurate are estimates of glacier ice thickness? Results from ITMIX, the Ice Thickness Models Intercomparison eXperiment|
D Farinotti, DJ Brinkerhoff, GKC Clarke, JJ Fürst, H Frey, P Gantayat, ...
The Cryosphere 11 (2), 949-970, 2017
|Accuracy assessment of digital surface models from unmanned aerial vehicles’ imagery on glaciers|
S Gindraux, R Boesch, D Farinotti
Remote Sensing 9 (2), 186, 2017
|A consensus estimate for the ice thickness distribution of all glaciers on Earth|
D Farinotti, M Huss, JJ Fürst, J Landmann, H Machguth, F Maussion, ...
Nature Geoscience 12 (3), 168-173, 2019
|Attribution of streamflow trends in snow and glacier melt‐dominated catchments of the T arim R iver, Central A sia|
D Duethmann, T Bolch, D Farinotti, D Kriegel, S Vorogushyn, B Merz, ...
Water Resources Research 51 (6), 4727-4750, 2015
|Snow accumulation distribution inferred from time‐lapse photography and simple modelling|
D Farinotti, J Magnusson, M Huss, A Bauder
Hydrological Processes 24 (15), 2087-2097, 2010
|Changes in glacierisation, climate and runoff in the second half of the 20th century in the Naryn basin, Central Asia|
D Kriegel, C Mayer, W Hagg, S Vorogushyn, D Duethmann, A Gafurov, ...
Global and planetary change 110, 51-61, 2013
|Massive collapse of two glaciers in western Tibet in 2016 after surge-like instability|
A Kääb, S Leinss, A Gilbert, Y Bühler, S Gascoin, SG Evans, P Bartelt, ...
Nature Geoscience 11 (2), 114-120, 2018
|Modelling the future evolution of glaciers in the European Alps under the EURO-CORDEX RCM ensemble|
H Zekollari, M Huss, D Farinotti
The Cryosphere 13 (4), 1125-1146, 2019
|Quantitative evaluation of different hydrological modelling approaches in a partly glacierized Swiss watershed|
J Magnusson, D Farinotti, T Jonas, M Bavay
Hydrological Processes 25 (13), 2071-2084, 2011
|Ice volume distribution and implications on runoff projections in a glacierized catchment|
J Gabbi, D Farinotti, A Bauder, H Maurer
Hydrology and Earth System Sciences 16 (12), 4543-4556, 2012