Snow Thickness on Austre Grønfjordbreen, Svalbard, From Radar Measurements and Standard Snow Surveys

Abstract: Comparison of two methods of measurements of snow cover thickness on the glacier Austre Grønfjordbreen, Svalbard was performed in the spring of 2014. These methods were the radar (500 MHz) observations and standard snow surveys. Measurements were conducted in 77 different points on the surface of the glacier. A good correlation (R 2 = 0.98) was revealed. In comparison with the data of snow surveys, the radar measurements show a similar but more detailed pattern of the distribution of the snow cover depth. The … Show more

“…Results of previous snow surveys on the glacier (1979,(2011)(2012)(2013)(2014) show that the mean snow thickness there varies in range from 140 to 165 cm (0.55 to 0.70 m water equivalent (w.e.)). Ground-based radar (GPR) measurements at 500 MHz of snow cover depth in spring of 2014 showed A close relationship (R 2 = 0.98) with data from manual measurements [8]. Now the firn zone is observed only as small patches at the ice divide and in A small area in the head of the eastern branch.…”

“…To convert two-way travel times of reflected radar waves to snow depths we used our data of snow density measurements in 12 snow pits and Looyenga's formula [31] for heterogeneous mixtures that gives the best estimation compared with other solutions as we found earlier [8]. The averaged mean snow density in snow pits varies from 359 to 580 kg m −3 .…”

“…Snow deposition increases with elevation, but it is also observed that this altitudinal trend is highly variable due to the drifting wind and other local topoclimatological factors in Svalbard. Recent investigations [8][9][10][11][12] suggest that the altitudinal gradient of snow accumulation has decreased, and the average snow thickness on the Austre Grønfjordbreen has increased by 17 cm compared to average snow thickness in 1979. Spatial variability has also increased over the region.…”

“…Hence, continuous monitoring of the spatial and temporal variability of snow cover depth is the need of the hour, which can be used to understand the state of the glacier and the changes and processes taking place in it.An alternative method to field-based manual measurements of snow depth is A ground penetrating radar (GPR) survey. This survey is an optimal technique to provide A spatial profile over large areas for understanding snow depth variability [8,9]. Apart from the spatial variability, snow accumulation and its parameters also change with time which require frequent large area observations to monitor their spatial and temporal variabilities.…”

Retrieval of Spatial and Temporal Variability in Snowpack Depth over Glaciers in Svalbard Using GPR and Spaceborne POLSAR Measurements

“…Results of previous snow surveys on the glacier (1979,(2011)(2012)(2013)(2014) show that the mean snow thickness there varies in range from 140 to 165 cm (0.55 to 0.70 m water equivalent (w.e.)). Ground-based radar (GPR) measurements at 500 MHz of snow cover depth in spring of 2014 showed A close relationship (R 2 = 0.98) with data from manual measurements [8]. Now the firn zone is observed only as small patches at the ice divide and in A small area in the head of the eastern branch.…”

“…To convert two-way travel times of reflected radar waves to snow depths we used our data of snow density measurements in 12 snow pits and Looyenga's formula [31] for heterogeneous mixtures that gives the best estimation compared with other solutions as we found earlier [8]. The averaged mean snow density in snow pits varies from 359 to 580 kg m −3 .…”

“…Snow deposition increases with elevation, but it is also observed that this altitudinal trend is highly variable due to the drifting wind and other local topoclimatological factors in Svalbard. Recent investigations [8][9][10][11][12] suggest that the altitudinal gradient of snow accumulation has decreased, and the average snow thickness on the Austre Grønfjordbreen has increased by 17 cm compared to average snow thickness in 1979. Spatial variability has also increased over the region.…”

“…Hence, continuous monitoring of the spatial and temporal variability of snow cover depth is the need of the hour, which can be used to understand the state of the glacier and the changes and processes taking place in it.An alternative method to field-based manual measurements of snow depth is A ground penetrating radar (GPR) survey. This survey is an optimal technique to provide A spatial profile over large areas for understanding snow depth variability [8,9]. Apart from the spatial variability, snow accumulation and its parameters also change with time which require frequent large area observations to monitor their spatial and temporal variabilities.…”

Retrieval of Spatial and Temporal Variability in Snowpack Depth over Glaciers in Svalbard Using GPR and Spaceborne POLSAR Measurements

“…The system was deployed on the glacier surface using a snowmobile. The results of GPR and standard manual snow accumulation surveys along with the comparison of the methods are presented in Lavrentiev et al [17].…”

Mass Balance of Austre Grønfjordbreen, Svalbard, 2006–2020, Estimated by Glaciological, Geodetic and Modeling Aproaches

Spatial and Temporal Variations of Snow Accumulation on the Western Elbrus Plateau, the Central Caucasus