Abstract
Abstract: The Gepatsch Glacier in Tirol (Austria) is a rapidly retreating valley glacier whose host valley and forefield reveal
subglacial, proglacial, and reworked sediment–landform assemblages. Structures include roches moutonées develop on gneiss,
compound bedrock-sediment bedforms (crag and tail structures), flutes, and small diamicton ridges. The glacial sediments and
landforms are undergoing incision and terrace development by meltwater streams. Glacial geomorphological and surface
geological maps, in concert with elevation models of difference between July 2019 and July 2020 highlight considerable
changes to the forefield over a 12-month time period. Till exposed within the last 20 years has undergone substantial mass
wasting and re-deposition as subaerial mass flows, or reworked into stream deposits. The lee sides of many roches moutonées
completely lack subglacial sediment, and instead contain a sand and gravel deposit interpreted to result from glaciofluvial
deposition. Thus, insights into the rates of erosion and deposition in a complex, proglacial setting, allow some of these
processes to be quantified for the first time. Repeated monitoring of glacier forefields is expected to yield a better understanding
of the preservation potential of proglacial sedimentary facies, and hence their preservation potential in Earth’s sedimentary
record.
subglacial, proglacial, and reworked sediment–landform assemblages. Structures include roches moutonées develop on gneiss,
compound bedrock-sediment bedforms (crag and tail structures), flutes, and small diamicton ridges. The glacial sediments and
landforms are undergoing incision and terrace development by meltwater streams. Glacial geomorphological and surface
geological maps, in concert with elevation models of difference between July 2019 and July 2020 highlight considerable
changes to the forefield over a 12-month time period. Till exposed within the last 20 years has undergone substantial mass
wasting and re-deposition as subaerial mass flows, or reworked into stream deposits. The lee sides of many roches moutonées
completely lack subglacial sediment, and instead contain a sand and gravel deposit interpreted to result from glaciofluvial
deposition. Thus, insights into the rates of erosion and deposition in a complex, proglacial setting, allow some of these
processes to be quantified for the first time. Repeated monitoring of glacier forefields is expected to yield a better understanding
of the preservation potential of proglacial sedimentary facies, and hence their preservation potential in Earth’s sedimentary
record.
Original language | English |
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Article number | jgs2021-052 |
Number of pages | 13 |
Journal | Journal of the Geological Society |
Volume | 179 |
Issue number | 3 |
DOIs | |
Publication status | Published - May 2022 |
Austrian Fields of Science 2012
- 105121 Sedimentology
- 105404 Geomorphology
Keywords
- BEDROCK
- PALEOFJORD
- PHOTOGRAMMETRY
- ROCKFALL