Remote sensing of accumulation over the Greenland and Antarctic ice sheets. Remote Sensing of the Cryosphere. 157.(2015).
Arctic-scale assessment of satellite passive microwave-derived snow depth on sea ice using Operation IceBridge airborne data. J. Geophys. Res. Oceans. 118(6), 2892-2905.(2013).
Changing Arctic snow cover: a review of recent developments and assessment of future needs for observations, modelling and impacts. Ambio. 45, 516-537.(2016).
Comparison of commonly-used microwave radiative transfer models for snow remote sensing. Remote Sensing of Environment. 190, 247-259.(2017).
A comparison of snow depth on sea ice retrievals using airborne atlimeters and an AMSR-E simulator.. IEEE Transactions on Geoscience & Remote Sensing. 50(8), 3027-3040.(2012).
Detection of rain-on-snow (ROS) events and ice layer formation using passive microwave radiometry: A context for Peary caribou habitat in the Canadian Arctic. Remote Sensing of Environment. 189, 84-95.(2017).
Development of a rain-on-snow detection algorithm using passive microwave radiometry. Hydrological Processes. 30, 3184-3196.(2016).
Drainage of Southeast Greenland firn aquifer water through crevasses to the bed. ront. Earth Sci. - Cryospheric Sciences. 5,(2017).
Effect of snow surface metamorphism on Aquarius L-band radiometer observations at Dome C, Antarctica. IEEE Transactions on Geoscience & Remote Sensing. 52(11), 7408-7417.(2014).
Emergent Rainy Winter Warm Spells May Promote Boreal Predator Expansion into the Arctic. Arctic. 69(2), 121-129.(2016).
Hourly simulations of the microwave brightness temperature of seasonal snow in Quebec, Canada, using a coupled snow evolution-emission model. Remote Sensing of Environment. 115(8), 1966-1977.(2011).
Hydraulic conductivity of a firn aquifer system in southeast Greenland determined with a heated piezometer. Front. Earth Science-Cryospheric Sciences. 5,(2017).
Initial in situ measurements of perennial meltwater storage in the Greenland firn aquifer. Geophys. Res. Lett.. 41, 81-85.(2014).
Intercomparison of snow depth retrievals over Arctic sea ice from radar data acquired by Operation IceBridge. The Cryosphere. 11, 2571-2593.(2017).
Modeling time series of microwave brightness temperature at Dome C, Antarctica, using vertically resolved snow temperature and microstructure measurements. Journal of Glaciology. 57(201), 171-182.(2011).
Modeling time series of microwave brightness temperature in Antarctica. Journal of Glaciology. 55(191),(2009).
Physical Models of Layered Polar Firn Brightness Temperatures from 0.5 GHz to 2 GHz. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 8(7), 3681-3691.(2015).
Rapid change of snow surface properties at Vostok, East Antarctica, revealed by altimetry and radiometry. Remote Sensing of Environment. 113(12), 2633-2641.(2009).
On the relationship between snow grain morphology and in-situ near infrared calibrated reflectance photographs. Cold Regions Science and Technology. 61(1), 34-42.(2010).
Simulation of snow water equivalent (SWE) using thermodynamic snow models in Québec, Canada. Journal of Hydrometeorology. 10(6), 1447-1463.(2009).
Simulation of the microwave emission of multi-layered snowpacks using the Dense Media Radiative transfer theory: the DMRT-ML model. Geosci. Model Dev.. 6, 1061-1078.(2013).
Snow grain size profile deduced from microwave snow emissivities in Antarctica. Journal of Glaciology. 56(197), 514-524.(2010).
Snow melting bias in microwave mapping of Antarctic snow accumulation. The Cryosphere. 2(2), 109-115.(2008).
Spatial extent and temporal variability of the Greenland firn aquifer detected by ground and airborne radars. J. Geophys. Res. Earth Surf.. 121,(2016).
Validation analysis of the GlobSnow-2 database over an eco-climatic latitudinal gradient in Eastern Canada. Remote Sensing of Environment. 194, 264-277.(2017).