Found 27 resultsAuthor [ Title] Type Year
Filters: First Letter Of Last Name is B and Author is L Brucker [Clear All Filters]
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).
Remote sensing of accumulation over the Greenland and Antarctic ice sheets. Remote Sensing of the Cryosphere. 157.(2015).
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).