Sedimentology of a Late Quaternary lacustrine record from the south‐eastern Carpathian Basin
Hambach, Ulrich
Klasen, Nicole
Fischer, Peter
Schulte, Philipp
Nett, Janina J.
Veres, Daniel
Obreht, Igor
Chu, Wei
Papadopoulou, Maria
Viehberg, Finn
Schäbitz, Frank
Gavrilov, Milivoj B.
MarkoviĆ, Slobodan B.
Vött, Andreas
Lehmkuhl, Frank
DOI: https://doi.org/10.23689/fidgeo-4329
Klasen, Nicole; 4 Institute of Geography University of Cologne Germany
Fischer, Peter; 5 Institute for Geography Johannes Gutenberg‐Universität Mainz Germany
Schulte, Philipp; 1 Department of Geography RWTH Aachen University Germany
Nett, Janina J.; 1 Department of Geography RWTH Aachen University Germany
Veres, Daniel; 6 Institute of Speleology Romanian Academy Cluj‐Napoca Romania
Obreht, Igor; 1 Department of Geography RWTH Aachen University Germany
Chu, Wei; 8 Institute of Prehistoric Archaeology University of Cologne Germany
Papadopoulou, Maria; 9 Institute of Geography Education University of Cologne Cologne Germany
Viehberg, Finn; 10 Institute for Geography and Geology Universität Greifswald Germany
Schäbitz, Frank; 9 Institute of Geography Education University of Cologne Cologne Germany
Gavrilov, Milivoj B.; 11 Chair of Physical Geography, Faculty of Sciences University of Novi Sad Serbia
MarkoviĆ, Slobodan B.; 11 Chair of Physical Geography, Faculty of Sciences University of Novi Sad Serbia
Vött, Andreas; 5 Institute for Geography Johannes Gutenberg‐Universität Mainz Germany
Lehmkuhl, Frank; 1 Department of Geography RWTH Aachen University Germany
Abstract
The Upper Pleistocene geoarchives in the south‐eastern Carpathian Basin are represented predominantly by loess–palaeosol records. In 2015, a 10 m sediment core composed of clay‐rich lacustrine sediments was recovered by vibracoring a dry lake basin located between the Vršac Mountains (Serbia) and the Banat Sands in the south‐eastern Carpathian Basin; a location relevant for placing regional archaeological results in a palaeoenvironmental context. Here, we present results from geoelectrical prospection and a lithostratigraphic interpretation of this sequence supported by a detailed granulometric study supplemented by ostracod analysis. An age model based on luminescence dating is discussed against sedimentological proxy data and its implication for palaeoenvironmental change. The cores show a stratigraphy of lighter ochre‐coloured and darker greyish sediment, related to the deposition of clay and silt trapped in an aquatic environment. Geophysical measurements show ~20 m thick lacustrine sediments. The grain‐size distributions including the variability in fine clay are indicative of a lacustrine environment. Fine particles were brought into the depositional environments by aquatic input and settled from suspension; also, direct dust input is constrained by grain‐size results. Riverine input and aeolian dust input interplayed at the locality.
Subjects
Carpathian BasinLate Quaternary
lacustrine sediment
geoelectric analyses
luminescence dating
grain‐size analysis
environmental dynamics