The effect of a snow cover on sea ice upon radar backscatter at microwave frequencies ( - and -baud) can be important. The effect of scattering from the snow cover on the of first-year ice is shown to be severe (5 cm of dry snow can raise by 8 dB at 9 GHz), while that on of multiyear ice is shown to be smaller. The low thermal conductivity of snow compared to that of sea ice effectively raises the temperature of the upper surface of the ice, resulting in higher dielectric constants for the ice, thereby modifying the backscatter both from the ice surface and from the scattering volume. The temperature effect of a 10-cm snow cover on 3-m-thick multiyear ice is to lower the by only about 0.3 dB for air temperature of C. The effect on 1-m-thick first-year ice is even less. Hence, the volume-scattering effect of snow is more important than the temperature effect. The presence of a wet snow cover can block the volume-scattering contribution of the multiyear ice. The effect of wet snow cover on first-year ice should be smaller than that Of dry, snow, because of wet snow is lower than that of dry snow.