Current transition from glacial to periglacial processes in the Dolomites (South-Eastern Alps)

A close relationship between glacial and periglacial landforms is frequently observed in alpine environments, where a transition from glacial to periglacial processes often took place after the end of the Little Ice Age (LIA). Understanding the origin of these landforms is challenging, and assessing...

Full description

Bibliographic Details
Published in:Geomorphology
Main Authors: R. Seppi, R. Francese, M. Zumiani, M. Giorgi, ZANONER, THOMAS, CARTON, ALBERTO, BONDESAN, ALDINO, CARTURAN, LUCA, NINFO, ANDREA
Other Authors: R., Seppi, Zanoner, Thoma, Carton, Alberto, Bondesan, Aldino, R., Francese, Carturan, Luca, M., Zumiani, M., Giorgi, Ninfo, Andrea
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2014
Subjects:
Composite lanorm
Dolomite
geophysical survey
ground temperature
Permafrost
debris covered glacier
Ice
permafrost
Online Access:http://hdl.handle.net/11577/3033987
https://doi.org/10.1016/j.geomorph.2014.08.025
Description
Summary:A close relationship between glacial and periglacial landforms is frequently observed in alpine environments, where a transition from glacial to periglacial processes often took place after the end of the Little Ice Age (LIA). Understanding the origin of these landforms is challenging, and assessing the current spatial domain of glacial and periglacial processes may be a difficult task in high-relief areas, where thick and widespread debris cover often characterize rapidly decaying glaciers. Here we present a comprehensive study of a composite landform located in the Dolomites (South-Eastern Alps), combining geomorphological, geophysical and topographic surveys with ground surface temperature measurements. Results indicate that a debris-covered glacier persists in the upper part, rather large compared to the LIA extent, but currently inactive and rapidly losing mass. An active rock glacier exists in the lower part, surrounded by discontinuous permafrost. A frozen body about 10 m thick was detected in the rock glacier and geomorphological evidence suggests that this ice mass is completely detached from the debris-covered glacier. Our findings suggest that the lower part of the composite landform is probably a remnant of the ancient glacier tongue and is currently evolving under periglacial conditions. Periglacial processes are therefore replacing glacial processes which dominated in this site during the LIA.

Similar Items