Comparison of a coupled snow thermodynamic and radiative transfer model with in situ active microwave signatures of snow-covered smooth first-year sea ice

ther investigations of surface structure and snow cover on seasonal sea ice in parallel to measurements of driving pa- rameters like heat flux, radiation, ice temperature and

We utilize a multiphase model, CON-AIR ( Con densed Phase to Air Transfer Model), to show that the photochemistry of nitrate (NO − 3 ) in and on ice and snow sur- faces,

We used snow input data generated from three different snow measurement methods to run model simulations which are compared to backscatter measurements from ESA’s SnowS-

We were able to reproduce the results of the granular model using both the modified Coulombic yield curve of Hibler and Schulson (2000) and the elliptic yield curve of Hibler

We present model studies with the one-dimensional model MISTRA to investigate the potential role of frost flowers, re- cycling on snow, and open leads in the depletion of tropo-

Based on the model evaluation results, there are three recommendations with which the quality of the seNorge model results (and thus of the snow maps for Norway) could be increased

In this paper we develop a spatial sensitivity analysis method for spatial input data (snow cover fraction – SCF) for a distributed rainfall-runoff model to investigate when the

To establish the extent to which a snow cover will mitigate the albedo e ff ect of black carbon in sea ice two di ff erent Arctic snow types (also described by Grenfell and