Hydrological isolation of the Paratethys in the late Middle-Late Miocene: Integrated stratigraphy, palaeoenvironments and biotic record of the Caspian Basin, Karagiye, Kazakhstan
DOKPE
- Lazarev, Sergei ORCID University of Fribourg
- Mandic, Oleg ORCID Natural History Museum Vienna, Austria
- Stoica, Marius ORCID University of Bucharest, Romania
- Gol'din, Pavel ORCID National Academy of Sciences of Ukraine, Kyiv, Ukraine
- Ćorić, Stjepan GeoSphere Austria, Vienna, Austria
- Harzhauser, Mathias Natural History Museum Vienna, Austria
- Krijgsman, Wout ORCID Utrecht University, The Netherlands
- Kadirbek, Dias School of Mining and Geosciences, Astana, Kazakhstan
- Vasilyan, Davit ORCID JURASSICA Museum, Porrentruy, Switzerland
- 2025
Published in:
- Marine and Petroleum Geology. - Elsevier BV. - 2025, vol. 173, p. 1-38
Caspian Basin
Eastern Paratethys
Serravallian-Tortonian
Magnetostratigraphy
Biostratigraphy
Vertebrate fauna
English
The hydrological connectivity of semi-isolated basins with the global ocean drives remarkable ecosystem turnover and regional climate shifts, making palaeoenvironmental and palaeohydrological studies of the epicontinental basins of high relevance. During the late Middle–Late Miocene, the Paratethys Sea, which occupied vast areas of the West Eurasian Interior, underwent a notable hydrological isolation from the global ocean. Between 12.65 and 7.65 Ma, the Paratethys experienced significant water level fluctuations and eventually near-total ecosystem collapse. The causes and timing of these hydrological and biotic changes remain unclear, especially in the understudied Caspian Sea region. Our study presents an integrated stratigraphic framework of the 136-m-thick Karagiye section on the east coast of the Caspian Sea (Mangystau region, Kazakhstan). The fauna-rich deposits document the pre- (Konkian), syn- (Volhynian, Bessarabian and Khersonian) and post-isolation (Maeotian) phases of Paratethys evolution at its eastern margin. We reconstruct the palaeoenvironmental history of the Caspian Basin by combining palaeomagnetic dating with biostratigraphic analyses of microfauna, molluscs, marine vertebrates and calcareous nannoplankton. Our key findings in the studied section include: 1. Konkian (incomplete): Open lagoonal environments with restricted connectivity to the global ocean in the early Konkian followed by a middle Konkian faunal influx and establishment of normal marine environments; 2. Volhynian (incomplete, 12.3–12.05 Ma): Onset of Paratethys hydrological isolation with marginal lagoonal environments, new endemic species, plus rare surviving Konkian taxa; 3. Bessarabian (12.05–9.9 Ma): Transgression and offshore setting at ~12.05 Ma with maximum flooding at 11.6 Ma and Intra-Bessarabian Carbonate Surge at ~10.7 Ma, followed by upper Bessarabian (10.7–9.9 Ma) carbonate platform interior settings; 4. Khersonian (9.9–7.65 Ma): Khersonian Ecological Crisis, carbonate platform to backshore environments with hiatus between 9.5 and ~8.0 Ma representing an extreme lowstand. 5. Maeotian (incomplete 7.65–7.0 Ma): Transgression at 7.65 Ma, followed by a delayed invasion of Maeotian faunas at 7.5 Ma, linked to the reconnection of the Caspian Basin with the rest of the Eastern Paratethys. The well-dated biotic record of Karagiye enhances understanding of Paratethyan hydrological and ecological events in the Caspian Basin and provides a foundation for further palaeoclimatic and palaeobiogeographic studies across Eurasia.
- Faculty
- Faculté des sciences et de médecine
- Department
- Département de Géosciences
- Language
-
- English
- Classification
- Palaeontology
- License
- CC BY-NC
- Open access status
- hybrid
- Identifiers
-
- DOI 10.1016/j.marpetgeo.2025.107288
- ISSN 0264-8172
- ISSN 1873-4073
- Persistent URL
- https://folia.unifr.ch/unifr/documents/331019
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