Add to ORKGSeveral palaeoclimatic archives have documented the pronounced climatic and environmental change associated with the Lateglacial–Holocene transition in the European Alps. However, the geomorphic response to this major environmental transition has only been punctually investigated. In this study, we propose a detailed reconstruction of post‐Last Glacial Maximum palaeoenvironmental conditions and geomorphic connectivity in the Sanetsch Pass area (2252 m a.s.l., western Swiss Alps) based on a multi‐method approach combining geomorphological and sedimentological field investigations with quantitative sedimentology and geochronology. Samples for sediment characterization (grain size, micromorphology and X‐ray diffraction) and geochronol...
The stage, financially supported by AIGeo, by Swiss Geomorphological Society (SGmG), by Dep. of Theo...
International audienceIn this paper we review the scientific efforts that were led over the last dec...
The European Alps are a geomorphologically active region and experience a number of gravity-driven h...
International audienceGeomorphic response to the Lateglacial-Holocene transition in high Alpine regi...
The deglaciation following the Last Glacial Maximum (LGM) is one of the most important climate-drive...
This research assesses the morphological consequences of recent (post-‘Little Ice Age’) paraglacial ...
We reconstruct the timing of ice flow reconfiguration and deglaciation of the Central Alpine Gotthar...
Across the northern European Alps, a long tradition of Quaternary studies has constrained post-LGM (...
To develop a more precise understanding of Alpine glacier fluctuations during the Holocene, the glac...
Since the end of the Little Ice Age, alpine geosystems have been subject to changes due to the effec...
International audienceHolocene palaeoenvironmental evolution and glacial fluctuations at high-altitu...
Abstract. Mid-latitude mountain glaciers sensitively respond to local summer temperature changes. Ch...
International audienceSome of Earth's greatest relief occurs where glacial processes act on mountain...
The stage, financially supported by AIGeo, by Swiss Geomorphological Society (SGmG), by Dep. of Theo...
International audienceIn this paper we review the scientific efforts that were led over the last dec...
The European Alps are a geomorphologically active region and experience a number of gravity-driven h...
International audienceGeomorphic response to the Lateglacial-Holocene transition in high Alpine regi...
The deglaciation following the Last Glacial Maximum (LGM) is one of the most important climate-drive...
This research assesses the morphological consequences of recent (post-‘Little Ice Age’) paraglacial ...
We reconstruct the timing of ice flow reconfiguration and deglaciation of the Central Alpine Gotthar...
Across the northern European Alps, a long tradition of Quaternary studies has constrained post-LGM (...
To develop a more precise understanding of Alpine glacier fluctuations during the Holocene, the glac...
Since the end of the Little Ice Age, alpine geosystems have been subject to changes due to the effec...
International audienceHolocene palaeoenvironmental evolution and glacial fluctuations at high-altitu...
Abstract. Mid-latitude mountain glaciers sensitively respond to local summer temperature changes. Ch...
International audienceSome of Earth's greatest relief occurs where glacial processes act on mountain...
The stage, financially supported by AIGeo, by Swiss Geomorphological Society (SGmG), by Dep. of Theo...
International audienceIn this paper we review the scientific efforts that were led over the last dec...
The European Alps are a geomorphologically active region and experience a number of gravity-driven h...