Upward-looking ground-penetrating radar for measuring wet-snow properties

摘要

Snow stratigraphy information is among other sources the key data for assessing avalanche danger-not only for dry snow but also for wet-snow conditions. Until now this information is obtained by traditional snow pit observations or more recently by applying more quantitative methods such as the snow micro-penetrometer or dielectric devices. All these methods are destructive and only provide a snap shot in time of snowpack evolution. We used an upward-looking ground-penetrating radar system (upGPR) to monitor snowpack evolution on a daily or, whenever necessary, hourly basis to obtain information on wet-snow properties. We focused on determining the volumetric liquid water content (θ_W) by calculating the effective permittivity (ε_(efr)) of the wet snow above the radar antennas, the advance of a wetting front and the wet-snow stratigraphy. ε_(eff) was obtained using the signal velocity and snow depth recorded with nearby ultrasonic gauges; θ_W was calculated with different mixing model approaches. Results were compared to in-situ measured permittivity, modelled wetting front advance and modelled and measured outflow at the bottom of the snowpack. The upGPR system clearly showed the advance of a wetting front and the arrival time was similar to the one recorded with a nearby lysimeter. Possibly weak wet layers with high liquid water content (θ_W>6%) were detected within the radar signal by multiple reflections. However, determining the exact amount of liquid water for each layer separately is still a task for future research.