High-resolution inventory to capture glacier disintegration in the Austrian Silvretta

A new high-resolution glacier inventory captures the rapid decay of the glaciers in the Austrian Silvretta for the years 2017 and 2018. Identifying the glacier outlines offers a wide range of possible interpretations of glaciers that have evolved into small and now totally debris-covered cryogenic structures. In previous inventories, a high proportion of active bare ice allowed a clear delineation of the glacier margins even by optical imagery. In contrast, in the current state of the glacier only the patterns and amounts of volume change allow us to estimate the area of the buried glacier remnants. We mapped the glacier outlines manually based on lidar elevation models and patterns of volume change at 1 to 0.5m spatial resolution. The vertical accuracy of the digital elevation models (DEMs) generated from six to eight lidar points per square metre is of the order of centimetres. Between 2004/2006 and 2017/2018, the 46 glaciers of the Austrian Silvretta lost 29 +/- 4% of their area and now cover 13.1 +/- 0.4 km(2). This is only 32 +/- 2% of their Little Ice Age (LIA) extent of 40.9 +/- 4.1 km(2). The area change rate increased from 0.6 %/yr (1969-2002) to 2.4 %/yr (2004/2006-2017/2018). The Sentinel-2-based glacier inventory of 2018 deviates by just 1% of the area. The annual geodetic mass balance referring to the area at the beginning of the period showed a loss increasing from -.2 +/- 0.1mw.e./yr (1969-2002) to -0.8 +/- 0.1mw.e./yr (2004/2006-2017/2018) with an interim peak in 2002-2004/2006 of -1.5 +/- 0.7mw.e./yr. To keep track of the buried ice and its fate and to distinguish increasing debris cover from ice loss, we recommend inventory repeat frequencies of 3 to 5 years and surface elevation data with a spatial resolution of 1 m.

Automated summary

The high-resolution glacier inventory in the Austrian Silvretta reveals a rapid decay in glacier area for the years 2017 and 2018, with a substantial loss compared to the Little Ice Age extent. Manual mapping of glacier outlines based on lidar elevation models and volume change patterns allowed for a detailed analysis of the buried glacier remnants. The findings suggest an increased area change rate and a recommendation for inventory repeat frequencies to track the fate of buried ice.