4.6 Article

Kinematics of an Alpine rock glacier from multi-temporal UAV surveys and GNSS data

Journal

GEOMORPHOLOGY
Volume 402, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.geomorph.2022.108116

Keywords

Rock glacier; Permafrost creep; UAV; GNSS; Point clouds; Thermal effects

Funding

  1. Italian MIUR project Dipartimenti di Eccellenza
  2. EMMA (Geo Environmental Measuring and Monitoring from multiple plAtforms) laboratory of the University of Milano-Bicocca
  3. [2018-2022]

Ask authors/readers for more resources

The study investigates the flow patterns of Gran Sometta rock glacier in the Western Italian Alps using various methods including UAV surveys, GNSS campaigns, geophysical prospections, and ground surface temperature data. The results reveal surface lowering and accumulation processes, with higher horizontal velocities observed on the left side of the rock glacier tongue and thaw subsidence on the right side. Comparison with other rock glaciers in the European Alps shows an increase in flow velocity in recent years. The dynamics of the rock glacier can be explained by the distribution of permafrost and the thermal regime of the ground surface.
The quantification of rock glacier dynamics has gained increasing importance in recent years. In this study, the spatial and temporal flow patterns of perennially frozen debris in the active Gran Sometta rock glacier (Western Italian Alps) were investigated with repeated Unmanned Aerial Vehicle (UAV) surveys (2016-2019), Global Navigation Satellite System (GNSS) campaigns (2012-2020), geophysical prospections (2015) and ground surface temperature data (2014-2020).UAV data were used to generate maps of changes and elevation differences of the rock glacier surface by 3D point cloud comparison to evaluate surface lowering and accumulation processes. Horizontal velocities were quantified by an automatic image correlation technique and the results were then compared with horizontal surface velocities from GNSS measurements on selected points. The horizontal velocities estimated with the automatic method agree well with the GNSS velocities with an R-2 = 0.99 and a RMSE lower than 0.07 m/y.Point cloud comparisons show surface lowering in the orographic left-hand side of the terminal part and in the central body of the rock glacier. The upper part exhibits almost absence of subsidence and any movement. This is explained by the lack of permafrost in this sector due to its overriding by the development of a small glacier during the Little Ice Age. As a result of the downslope movement, zones of surface rising occurred at the advancing front and at the moving ridge and furrow complexes. Surface velocity decreases from the orographic left to the right-hand side of the rock glacier tongue, where a thaw subsidence of up to 0.05 m/y was also observed. According to the GNSS measurements, the range of flow velocity of the rock glacier increased from 0.17-1.1 m/y in 2013 to 0.21-1.45 m/y in 2015 and then decreased until 2018 when the smallest surface velocity is detected. Since 2018, the creep velocities gradually started to increase again reaching values of 0.23 m/y up to a maximum of 1.9 m/y in the orographic left-hand side of the rock glacier tongue. This agrees with observations from other rock glaciers in the European Alps in recent decades.The complex Gran Sometta rock glacier dynamics can be explained by the heterogeneous distribution of permafrost and related subsurface perennially frozen ground which is thick enough (about 20-30 m) for permafrost creep to occur. Creep rates of the rock glacier permafrost depend also on the ground thermal regime: annual warmer surface conditions promote an acceleration of the creep rates within the rock glacier permafrost, whereas ground surface cooling causes a slight deceleration.& nbsp;(c) 2022 Elsevier B.V. All rights reserved.

Authors

I am an author on this paper
Click your name to claim this paper and add it to your profile.

Reviews

Primary Rating

4.6
Not enough ratings

Secondary Ratings

Novelty
-
Significance
-
Scientific rigor
-
Rate this paper

Recommended

No Data Available
No Data Available