TY - JOUR
T1 - Late Quaternary evolution of the sedimentary environment in Modrejce near Most na Soči (Soča Valley, Julian Alps)
AU - Rupnik, Petra JamŠek
AU - Žebre, Manja
AU - Monegato, Giovanni
N1 - Funding Information:
The study was carried out as part of program P1-0011, Regional Geology, and as a preliminary study for project J1-2479, Past climate change and glaciation at the Alps-Dinarides junction, both funded by the Slovenian Research Agency (ARRS). This work forms the basis for the ongoing structural investigation of the area. We would like to thank Jernej Jež from the Geological Survey of Slovenia for his feld assistance and constructive comments during the preparation of the manuscript. Two anonymous reviewers are acknowledged for their comments on the manuscript, which have contributed to the improvement of the manuscript.
Funding Information:
The study was carried out as part of program P1-0011, Regional Geology, and as a preliminary study for project J1-2479, Past climate change and glaciation at the Alps-Dinarides junction, both funded by the Slovenian Research Agency (ARRS). This work forms the basis for the ongoing structural investigation of the area. We would like to thank Jernej Jež from the Geological Survey of Slovenia for his field assistance and constructive comments during the preparation of the manuscript. Two anonymous reviewers are acknowledged for their comments on the manuscript, which have contributed to the improvement of the manuscript.
Publisher Copyright:
© Author(s) 2020. CC Atribution 4.0 License
PY - 2020/12/7
Y1 - 2020/12/7
N2 - Geomorphological and geological mapping have long been used to study the glacial history of the Slovenian Alps, but many uncertainties remain regarding the time and extent of Pleistocene glaciations there. Glacial landforms and undisturbed glacial deposits are rare in the areas of the former glacier terminus, especially in the Soča Valley, where large discrepancies in the interpretation of the extent of the former Soča Glacier have been reported. Early studies proved inconclusive as to whether one or two glaciations extended into the Soča Valley as far as Most na Soči. In order to answer this question, the Quaternary sedimentary succession and landforms in the Modrejce Valley near Most na Soči were investigated. New geological and geomorphological feld data allow the interpretation of the sedimentary environment and the stratigraphic relationships between different units. In response to glacial dynamics, the sedimentation developed from glaciofuvial and glaciolacustrine to fully glacial environments, followed by slope deposition. At higher altitudes lateral moraines are preserved, while the staircase-like slope below has been carved into older glacial, glaciofuvial and glaciolacustrine deposits by glacial and post-glacial processes, including fuvial erosion and slope dynamics. We conclude that the succession studied here was deposited over the course of two different glacial advances – LGM and pre-LGM. Our study thus suggests that the Soča Glacier extended as far as the area of Most na Soči twice over the course of the late Quaternary.
AB - Geomorphological and geological mapping have long been used to study the glacial history of the Slovenian Alps, but many uncertainties remain regarding the time and extent of Pleistocene glaciations there. Glacial landforms and undisturbed glacial deposits are rare in the areas of the former glacier terminus, especially in the Soča Valley, where large discrepancies in the interpretation of the extent of the former Soča Glacier have been reported. Early studies proved inconclusive as to whether one or two glaciations extended into the Soča Valley as far as Most na Soči. In order to answer this question, the Quaternary sedimentary succession and landforms in the Modrejce Valley near Most na Soči were investigated. New geological and geomorphological feld data allow the interpretation of the sedimentary environment and the stratigraphic relationships between different units. In response to glacial dynamics, the sedimentation developed from glaciofuvial and glaciolacustrine to fully glacial environments, followed by slope deposition. At higher altitudes lateral moraines are preserved, while the staircase-like slope below has been carved into older glacial, glaciofuvial and glaciolacustrine deposits by glacial and post-glacial processes, including fuvial erosion and slope dynamics. We conclude that the succession studied here was deposited over the course of two different glacial advances – LGM and pre-LGM. Our study thus suggests that the Soča Glacier extended as far as the area of Most na Soči twice over the course of the late Quaternary.
KW - glaciation
KW - glaciofluvial deposition
KW - glaciolacustrine deposits
KW - Quaternary
KW - Soča Glacier
KW - Soča Valley
KW - till
UR - http://www.scopus.com/inward/record.url?scp=85098567719&partnerID=8YFLogxK
U2 - 10.5474/GEOLOGIJA.2020.022
DO - 10.5474/GEOLOGIJA.2020.022
M3 - Article
AN - SCOPUS:85098567719
SN - 0016-7789
VL - 63
SP - 295
EP - 309
JO - Geologija
JF - Geologija
IS - 2
ER -