The response of fluvial systems to tectonic activity and climate change during the Late Pleistocene influenced sedimentary processes and hence the conditions of river terraces formation. The northern Alpine foreland is well adapted for such studies due to the high sediment input and the variety of depositional environments. This study focuses on sediments of a part of the Rhine River in the area of Basel, at the Border between Switzerland, Germany and France. A detailed evolution of the Lower Terrace is inferred from sedimentological, geomorphologic and pedological observations as well as historical documents, and calibrated using different dating methods (optically stimulated luminescence, uranium series disequilibrium, radiocarbon). The L...
The Roer is a small river which drains the Rhenish shield and confluences with the Meuse River. Up t...
International audienceThe French Upper Rhine alluvial plain is characterized by a complex system of ...
Cut-and-fill sequences are the result of climatically or tectonically induced alternating aggradatio...
The northern Upper Rhine Graben hosts a well-preserved Late Weichselian and Holocene fluvial terrace...
Pedological investigations in combination with luminescence dating have been used to reconstruct the...
The Rhine catchment experienced strong changes in upstream allogenic forcing during the last 20,000 ...
During the Pleistocene, the Rhine glacier system acted as a major south–north erosion and transport ...
The impact of transient climate change, for example at glacial-interglacial transitions, on the allu...
We present a new model of landscape evolution for the southern Upper Rhine Graben based on analysis ...
In the Weichselian, the Lower Rhine in the Dutch-German border region has used three courses, dissec...
This special issue contains the papers presented during the 2004 DEUQUA meeting. The papers provide ...
Abstract The Quaternary filling of the Upper Rhine Graben is an excellent archive to reconstruct se...
Fluvial systems are strongly responsive to changes in climate and land use — but take their time to ...
The Roer is a small river which drains the Rhenish shield and confluences with the Meuse River. Up t...
International audienceThe French Upper Rhine alluvial plain is characterized by a complex system of ...
Cut-and-fill sequences are the result of climatically or tectonically induced alternating aggradatio...
The northern Upper Rhine Graben hosts a well-preserved Late Weichselian and Holocene fluvial terrace...
Pedological investigations in combination with luminescence dating have been used to reconstruct the...
The Rhine catchment experienced strong changes in upstream allogenic forcing during the last 20,000 ...
During the Pleistocene, the Rhine glacier system acted as a major south–north erosion and transport ...
The impact of transient climate change, for example at glacial-interglacial transitions, on the allu...
We present a new model of landscape evolution for the southern Upper Rhine Graben based on analysis ...
In the Weichselian, the Lower Rhine in the Dutch-German border region has used three courses, dissec...
This special issue contains the papers presented during the 2004 DEUQUA meeting. The papers provide ...
Abstract The Quaternary filling of the Upper Rhine Graben is an excellent archive to reconstruct se...
Fluvial systems are strongly responsive to changes in climate and land use — but take their time to ...
The Roer is a small river which drains the Rhenish shield and confluences with the Meuse River. Up t...
International audienceThe French Upper Rhine alluvial plain is characterized by a complex system of ...
Cut-and-fill sequences are the result of climatically or tectonically induced alternating aggradatio...
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