2021
DOI: 10.5194/tc-15-5345-2021
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Multi-decadal (1953–2017) rock glacier kinematics analysed by high-resolution topographic data in the upper Kaunertal, Austria

Abstract: Abstract. Permafrost is being degraded worldwide due to the change in external forcing caused by climate change. This has also been shown to affect the morphodynamics of active rock glaciers. We studied these changes, depending on the analysis, on nine or eight active rock glaciers, respectively, with different characteristics in multiple epochs between 1953 and 2017 in Kaunertal, Austria. A combination of historical aerial photographs and airborne laser scanning data and their derivatives were used to analyse… Show more

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Cited by 24 publications
(53 citation statements)
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“…Typically, rock glaciers creep downslope with velocities of several decimetres up to some metres per year (e.g. Roer, 2007;Bodin et al, 2009;Fleischer et al, 2021;Kääb et al, 2021). This creep behaviour results from internal deformation of the frozen debris and shearing within narrow horizons at typical depths of around 20 m (Arenson et al, 2002;Cicoira et al, 2021).…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Typically, rock glaciers creep downslope with velocities of several decimetres up to some metres per year (e.g. Roer, 2007;Bodin et al, 2009;Fleischer et al, 2021;Kääb et al, 2021). This creep behaviour results from internal deformation of the frozen debris and shearing within narrow horizons at typical depths of around 20 m (Arenson et al, 2002;Cicoira et al, 2021).…”
Section: Introductionmentioning
confidence: 99%
“…Therefore, terrestrial as well as remote sensing techniques are applied to quantify the kinematics of permafrost creep, i.e. horizontal surface velocities and vertical surface changes, respectively (Lambiel and Delaloye, 2004;Kääb, 2005;Haeberli et al, 2006;Roer, 2007;Bodin et al, 2009;Strozzi et al, 2020;Cusicanqui et al, 2021;Fleischer et al, 2021;Kääb et al, 2021;Kaufmann et al, 2021).…”
Section: Introductionmentioning
confidence: 99%
“…Indeed, methods such as lidar (Micheletti et al, 2017), InSAR (e.g., Liu et al, 2013;Barboux et al, 2014;Strozzi et al, 2020), aerial photogrammetry (e.g., Kaab et al, 1997), and unpiloted aerial vehicle systems (e.g., Dall'Asta et al, 2017;Vivero and Lambiel, 2019) have made a remarkable improvement to the temporal and spatial resolution of surface velocity surveys for rock glaciers. Recent studies have shown the feasibility of using high-resolution digital elevation models (DEMs) and orthorectified images produced from historical aerial and satellite images to reconstruct the surface velocity of rock glaciers over the last 7 decades (Fleischer et al, 2021;Vivero et al, 2021;Kääb et al, 2021;Cusicanqui et al, 2021). Extrapolations from short-term surface velocities have been used to estimate the rock glacier formation time and to reconstruct their activity over longer timescales (Kaab et al, 1997;Frauenfelder and Kááb, 2000;Bodin, 2013).…”
Section: Introduction and Motivationsmentioning
confidence: 99%
“…Rock glacier kinematics have increasingly become of interest during approximately the last two decades, as accelerating trends became apparent at many rock glaciers in the Alps (Roer, 2005;Delaloye et al, 2008Delaloye et al, , 2010Kellerer-Pirklbauer et al, 2018;Fleischer et al, 2021). These general trends are broadly attributed to rising air and ground temperatures, although interannual variations of rock glacier velocities often cannot be explained with variations in mean annual or summer air temperatures alone, indicating a multifaceted and scale-dependent relationship between climate forcing and rock glacier response (Delaloye et al, 2008(Delaloye et al, , 2010Sorg et al, 2015;Hartl et al, 2016b;Kellerer-Pirklbauer et al, 2017;Müller et al, 2016;Cicoira et al, 2019a;Fleischer et al, 2021).…”
Section: Introductionmentioning
confidence: 99%