EGU21-4124
https://doi.org/10.5194/egusphere-egu21-4124
EGU General Assembly 2021
© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Quaternary sediment sources, sinks and transport pathways in the Black Sea-Caspian Sea region

Chiara Költringer1, Thomas Stevens1, Martin Lindner2, Yunus Baykal1, and Redzhep Kurbanov3,4
Chiara Költringer et al.
  • 1Department of Earth Science, Uppsala University, Uppsala, Sweden (chiara.koltringer@geo.uu.se)
  • 2Department of Chemistry and Physics of Materials, University of Salzburg, Salzburg, Austria
  • 3Faculty of Geography, Lomonosov Moscow State University, Moscow, Russia
  • 4Institute of Geography, Laboratory of Evolutionary Geography, RAS, Moscow, Russia

The Black Sea-Caspian Sea region is a vast and geomorphologically variable area where sea level changes, large rivers and their migration, and numerous interacting climate systems and aeolian regimes lead to a highly dynamic and complex situation of sediment supply and reworking. The area is blanketed by extensive loessic and sandy aeolian deposits, extending from northern Iran, through the Caucasus piedmont, Caspian lowland, and into the Crimea and East European Plain, as well as marine, fluvial and alluvial sediments. While loess deposits are especially extensive adjacent to major rivers such as the Volga, Don and Dnieper, the provenance, transport and nature of loess in this complex and highly dynamic environment remains poorly known.

Both, the Black Sea and the Caspian Sea experienced several transgressive and regressive phases during the Pleistocene, with temporary connections occurring over the Manych passage and resulting in the formation of marine terraces over a wide area, which are dry at present. The sea levels of the Caspian and Black seas and long-range north to south sediment transport are heavily influenced by the great rivers draining the previously glaciated East European Plain, the Volga, Don and Dnieper. In addition, the Black Sea and Caspian Sea are surrounded by mountain ranges, with the Carpathians in the west, the North Anatolian Mountains south of the Black Sea, the Crimea-Caucasus orogen and the Alborz mountains extending from northeast of the Black Sea to south of the Caspian Sea, all of which may act as sediment source regions. Furthermore, more distal orogens lying to the east, such as the Ural, Altai, Pamir and Kopet-Dag, and their palaeo-drainage systems, also represent potential sediment source areas for the Caspian Sea basin. The Karakum desert lying to the east of the south Caspian combines the potential of being a sediment sink for material from these mountains, as well as a secondary source for the Caspian Sea and the large loess area in northern Iran.
Here we apply U-Pb dating of detrital zircons to constrain the major sediment generating regions in this large area, transport pathways, and to further address the implications for sediment generation and cycling. In addition to loess, we aim to constrain the sediment transport pathways both for fluvial, marine and aeolian systems more generally, and to reconstruct the network of sediment routing in the Black Sea-Caspian Sea region. Our results reveal great spatial variability in zircon provenance and indicate the contribution of multiple source regions and transport pathways for most analysed samples and sites. Rivers have the strongest control on sediment erosion and distribution and are also in control of aeolian deposits, while not much sediment mixing seems to occur within the sea basins.

How to cite: Költringer, C., Stevens, T., Lindner, M., Baykal, Y., and Kurbanov, R.: Quaternary sediment sources, sinks and transport pathways in the Black Sea-Caspian Sea region, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-4124, https://doi.org/10.5194/egusphere-egu21-4124, 2021.