Baptiste Vandecrux
Baptiste Vandecrux
Verified email at
Cited by
Cited by
Liquid water flow and retention on the Greenland ice sheet in the regional climate model HIRHAM5: Local and large-scale impacts
PL Langen, RS Fausto, B Vandecrux, RH Mottram, JE Box
Frontiers in Earth Science 4, 110, 2017
Application of low-cost UASs and digital photogrammetry for high-resolution snow depth mapping in the Arctic
E Cimoli, M Marcer, B Vandecrux, CE Bøggild, G Williams, SB Simonsen
Remote Sensing 9 (11), 1144, 2017
Rapid expansion of Greenland’s low-permeability ice slabs
M MacFerrin, H Machguth, D van As, C Charalampidis, CM Stevens, ...
Nature 573 (7774), 403-407, 2019
Retrieval of snow properties from the Sentinel-3 Ocean and Land Colour Instrument
A Kokhanovsky, M Lamare, O Danne, C Brockmann, M Dumont, G Picard, ...
Remote Sensing 11 (19), 2280, 2019
Firn data compilation reveals widespread decrease of firn air content in western Greenland
B Vandecrux, M MacFerrin, H Machguth, WT Colgan, D As, A Heilig, ...
The Cryosphere 13 (3), 845-859, 2019
A snow density dataset for improving surface boundary conditions in Greenland ice sheet firn modeling
RS Fausto, JE Box, B Vandecrux, D Van As, K Steffen, MJ MacFerrin, ...
Frontiers in Earth Science 6, 51, 2018
Programme for Monitoring of the Greenland Ice Sheet (PROMICE) automatic weather station data
RS Fausto, D van As, KD Mankoff, B Vandecrux, M Citterio, AP Ahlstrøm, ...
Earth System Science Data 13 (8), 3819-3845, 2021
Drivers of firn density on the Greenland ice sheet revealed by weather station observations and modeling
B Vandecrux, RS Fausto, PL Langen, D Van As, M MacFerrin, WT Colgan, ...
Journal of Geophysical Research: Earth Surface 123 (10), 2563-2576, 2018
The firn meltwater Retention Model Intercomparison Project (RetMIP): Evaluation of nine firn models at four weather station sites on the Greenland ice sheet
B Vandecrux, R Mottram, PL Langen, RS Fausto, M Olesen, CM Stevens, ...
The Cryosphere 14 (11), 3785-3810, 2020
The determination of snow albedo from satellite measurements using fast atmospheric correction technique
A Kokhanovsky, JE Box, B Vandecrux, KD Mankoff, M Lamare, A Smirnov, ...
Remote Sensing 12 (2), 234, 2020
Firn cold content evolution at nine sites on the Greenland ice sheet between 1998 and 2017
B Vandecrux, RS Fausto, D Van As, W Colgan, PL Langen, K Haubner, ...
Journal of Glaciology 66 (258), 591-602, 2020
The Greenland ice sheet–snowline elevations at the end of the melt seasons from 2000 to 2017
RS Fausto
GEUS Bulletin 41, 71-74, 2018
Regional climate-model performance in Greenland firn derived from in situ observations
C Charalampidis, D van As, PL Langen, RS Fausto, B Vandecrux, JE Box
GEUS Bulletin 35, 75-78, 2016
Downscaled surface mass balance in Antarctica: impacts of subsurface processes and large-scale atmospheric circulation
N Hansen, PL Langen, F Boberg, R Forsberg, SB Simonsen, P Thejll, ...
The Cryosphere 15 (9), 4315-4333, 2021
Firn Evolution at Camp Century, Greenland: 1966–2100
B Vandecrux, W Colgan, AM Solgaard, JP Steffensen, NB Karlsson
Frontiers in Earth Science 9, 67, 2021
Relating regional and point measurements of accumulation in southwest Greenland
A Heilig, O Eisen, M Schneebeli, M MacFerrin, CM Stevens, B Vandecrux, ...
The Cryosphere 14 (1), 385-402, 2020
Quantitative analysis of firn meltwater retention on the Greenland ice sheet
B Vandecrux
DTU Civil Engineering, 2019
Snow Distribution Statistical Modelling and UAV-borne Remote Sensing of Snow Reflectance in the Arctic
M Marcer, B Vandecrux
Technical University of Denmark and Greenland - UNIS, 2015
The system can't perform the operation now. Try again later.
Articles 1–18