Recent Acceleration of a Rock Glacier Complex, Ádjet, Norway, Documented by 62 Years of Remote Sensing Observations

Recent Acceleration of a Rock Glacier Complex, Ádjet, Norway, Documented by 62 Years of Remote Sensing Observations

Recent acceleration of rock glaciers is well recognized in the European Alps, but similar behavior is hardly documented elsewhere. Also, the controlling factors are not fully understood. Here we provide evidence for acceleration of a rock glacier complex in northern Norway, from 62 years of remote s...

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Bibliographic Details
Published in:Geophysical research letters 2018-08, Vol.45 (16), p.8314-8323
Main Authors: Eriksen, H. Ø., Rouyet, L., Lauknes, T. R., Berthling, I., Isaksen, K., Hindberg, H., Larsen, Y., Corner, G. D.
Format: Article
Language:eng
Subjects:
Acceleration
Access control
Climate change
Climate effects
Compression
Data
Detection
Evolution
Glacial drift
Glaciers
Kinematics
Landforms
mountain permafrost
Permafrost
Polar environments
Precipitation
Radar
Radar data
radar remote sensing
Radar tracking
Rainfall
rapidly moving rock glacier
Remote sensing
Rock glaciers
Rocks
SAR (radar)
Satellite tracking
Satellites
slope stability
Solifluction
Spatial analysis
Synthetic aperture radar
Uplift
warming
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Summary:Recent acceleration of rock glaciers is well recognized in the European Alps, but similar behavior is hardly documented elsewhere. Also, the controlling factors are not fully understood. Here we provide evidence for acceleration of a rock glacier complex in northern Norway, from 62 years of remote sensing data. Average annual horizontal velocity measured by aerial feature tracking increased from ~0.5 myr−1 (1954–1977) to ~3.6 myr−1 (2006–2014). Measured by satellite synthetic aperture radar offset‐tracking, averages increased from ~4.9 to ~9.8 myr−1 (2009–2016) and maximum velocities from ~12 to ~69 myr−1. Kinematic analysis reveals different spatial‐temporal trends in the upper and the lower parts of the rock glacier complex, suggesting progressive detachment of the faster front. We suggest that permafrost warming, topographic controls, and increased water access to deeper permafrost layers and internal shear zones can explain the kinematic behavior. Plain Language Summary Using remote sensing data we document unusual high surface displacement and accelerations on a rock glacier complex in a mountain hillside in northern Norway. Increasing creep rates have been reported from the European Alps, but an acceleration of this order has not been documented in Scandinavia before. Rock glaciers are permafrost landforms consisting of a mix of ice and debris. Using aerial photos, we document an acceleration from ~0.5 m per year (1954–1977) to ~3.6 m per year (2006–2014) for the lower parts of the rock glacier complex. For the same area, we observe an increase from ~4.9 to ~9.8 m per year, measured by satellite‐based radar between 2009 and 2016. Maximum velocities increased from ~12 to ~69 m per year. Results suggest that the fast lower part is detaching from the slower upper part. Radar data delineate areas with subsidence and uplift, compression, and extension. Increase in temperature and precipitation during the 62‐year period indicates possible permafrost degradation. Our work demonstrates the value of combining remote sensing data sources in documenting permafrost landforms in the Arctic. Important work still remains to document and understand their evolution and the effects of climate change. Key Points Sixty‐two years (1954–2016) of aerial photography and radar data document recent acceleration of a rock glacier complex in northern Norway Results show spatial and temporal variations as extension and compression, uplift, and subsidence in a permafrost landform
ISSN:0094-8276
1944-8007
1944-8007