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10 results on '"Ćorić Stjepan"'

1. Environmental shifts in and around Lake Pannon during the Tortonian Thermal Maximum based on a multi-proxy record from the Vienna Basin (Austria, Late Miocene, Tortonian)

Author

Harzhauser, Mathias, Peresson, Mandana, Benold, Christian, Mandic, Oleg, Ćorić, Stjepan, De Lange, Gert J., Harzhauser, Mathias, Peresson, Mandana, Benold, Christian, Mandic, Oleg, Ćorić, Stjepan, and De Lange, Gert J.

Abstract

The Neogene Lake Pannon was the largest lake that ever existed in Europe. It attained its greatest extent during the Tortonian Thermal Maximum. For the first time, results from a detailed lake record documenting about 85 kyr of Late Miocene time in a continuously recovered, 60-m-long, clay-rich core of Lake Pannon are reported. This record includes the transition from the lake's maximum transgression into its highstand at around 10.4 Ma. The environmental development of Lake Pannon during its maximum extent is interpreted based on integrated paleontological, sedimentological, mineralogical and geochemical data. The maximum extent coincided with stable sedimentation of clay, little influx from the hinterland, low surface productivity and severe bottom-water anoxia. The clay mineralogy of the lower part of the core points to prevailing chemical weathering based on the illite/smectite ratios. Distinct Fe, Mn and Ba enrichments are interpreted to have formed close to sulfate-methane transition zones during the maximum flooding. The highstand phase was marked by rapid environmental shifts with frequent phases of well‑oxygenated bottom waters. These phases are reflected by rich benthic communities including stenohaline tunicates. The increased input of detritic kaolinite suggests a shift towards physical weathering and higher precipitation coinciding with a shift in the provenance of clay minerals. Increasing amounts of nutrients stimulated surface water productivity and nannoplankton blooms. Despite the offshore position of the core at ∼8 km from the mountainous ranges of the Alps, strong fluvial input is reflected from 32.5 to 30.3 m by coarser sediment and the occurrence of terrestrial and freshwater molluscs. The Rhenodanubian Flysch Unit was the main source of the siliciclastics of the core and was drained by the Paleo-Wien river. Drainage from the Calcareous Alps was limited to an exceptionally strong fluvial event and related deposits, which documents the presen

Published
2023

2. Environmental shifts in and around Lake Pannon during the Tortonian Thermal Maximum based on a multi-proxy record from the Vienna Basin (Austria, Late Miocene, Tortonian)

Author

Geochemistry, Marine geochemistry & chemical oceanography, Harzhauser, Mathias, Peresson, Mandana, Benold, Christian, Mandic, Oleg, Ćorić, Stjepan, De Lange, Gert J., Geochemistry, Marine geochemistry & chemical oceanography, Harzhauser, Mathias, Peresson, Mandana, Benold, Christian, Mandic, Oleg, Ćorić, Stjepan, and De Lange, Gert J.

Published
2023

3. Environmental shifts in and around Lake Pannon during the Tortonian Thermal Maximum based on a multi-proxy record from the Vienna Basin (Austria, Late Miocene, Tortonian)

Author

Geochemistry, Marine geochemistry & chemical oceanography, Harzhauser, Mathias, Peresson, Mandana, Benold, Christian, Mandic, Oleg, Ćorić, Stjepan, De Lange, Gert J., Geochemistry, Marine geochemistry & chemical oceanography, Harzhauser, Mathias, Peresson, Mandana, Benold, Christian, Mandic, Oleg, Ćorić, Stjepan, and De Lange, Gert J.

Published
2023

4. Middle Miocene marine flooding: new 40Ar/39Ar age constraints with integrated biostratigraphy on tuffs from the North Croatian Basin

Author

Marković, Frane, Kuiper, Klaudia, Ćorić, Stjepan, Hajek-Tadesse, Valentina, Hernitz Kučenjak, Morana, Bakrač, Koraljka, Pezelj, Đurđica, Kovačić, Marijan, Marković, Frane, Kuiper, Klaudia, Ćorić, Stjepan, Hajek-Tadesse, Valentina, Hernitz Kučenjak, Morana, Bakrač, Koraljka, Pezelj, Đurđica, and Kovačić, Marijan

Abstract

In the North Croatian Basin which is located in the southwestern part of the Pannonian Basin System, Miocene tuff deposits have been observed at several localities in the area of Banovina, Medvednica Mt. and Slavonia. Here we present new 40Ar/39Ar age results obtained from volcanic glass from the Laz tuff (15.42 ± 0.15 Ma) intercalated with lacustrine freshwater/brackish deposits, the Jovac tuff (15.10 ± 0.06 Ma) intercalated with lacustrine freshwater deposits, the Čučerje tuff (14.81 ± 0.08 Ma) and the Nježić tuff (14.40 ± 0.03 Ma) both deposited in a marine environment. Fossil data (calcareous nannofossils/foraminifera) from the underlying and overlying beds of the tuffs from Čučerje and Nježić match the geochronological data i.e. NN5 zone and M6 zone were determined. Integration of biostratigraphic and geochronological data enable a better understanding of the NCB sedimentary evolution and constrain the Middle Miocene marine flooding event in the marginal areas of the western part of the NCB at ~15 Ma i.e. early/middle Badenian boundary. These results together with the existence of lower Badenian marine sediments in the Sava depression (in the southern part of NCB) suggest it is possible to conclude that during the early Badenian in the NCB, freshwater lacustrine and marine environments coexisted.

Published
2021

5. Middle Miocene marine flooding: new 40Ar/39Ar age constraints with integrated biostratigraphy on tuffs from the North Croatian Basin

Author

Marković, Frane, Kuiper, Klaudia, Ćorić, Stjepan, Hajek-Tadesse, Valentina, Hernitz Kučenjak, Morana, Bakrač, Koraljka, Pezelj, Đurđica, Kovačić, Marijan, Marković, Frane, Kuiper, Klaudia, Ćorić, Stjepan, Hajek-Tadesse, Valentina, Hernitz Kučenjak, Morana, Bakrač, Koraljka, Pezelj, Đurđica, and Kovačić, Marijan

Abstract

In the North Croatian Basin which is located in the southwestern part of the Pannonian Basin System, Miocene tuff deposits have been observed at several localities in the area of Banovina, Medvednica Mt. and Slavonia. Here we present new 40Ar/39Ar age results obtained from volcanic glass from the Laz tuff (15.42 ± 0.15 Ma) intercalated with lacustrine freshwater/brackish deposits, the Jovac tuff (15.10 ± 0.06 Ma) intercalated with lacustrine freshwater deposits, the Čučerje tuff (14.81 ± 0.08 Ma) and the Nježić tuff (14.40 ± 0.03 Ma) both deposited in a marine environment. Fossil data (calcareous nannofossils/foraminifera) from the underlying and overlying beds of the tuffs from Čučerje and Nježić match the geochronological data i.e. NN5 zone and M6 zone were determined. Integration of biostratigraphic and geochronological data enable a better understanding of the NCB sedimentary evolution and constrain the Middle Miocene marine flooding event in the marginal areas of the western part of the NCB at ~15 Ma i.e. early/middle Badenian boundary. These results together with the existence of lower Badenian marine sediments in the Sava depression (in the southern part of NCB) suggest it is possible to conclude that during the early Badenian in the NCB, freshwater lacustrine and marine environments coexisted.

Published
2021

6. Integrated bio-magnetostratigraphy of the Badenian reference section Ugljevik in southern Pannonian Basin - implications for the Paratethys history (middle Miocene, Central Europe)

Author

Mandic, Oleg, Sant, Karin, Kallanxhi, Mădălina Elena, Ćorić, Stjepan, Theobalt, Dörte, Grunert, Patrick, de Leeuw, Arjan, Krijgsman, Wout, Mandic, Oleg, Sant, Karin, Kallanxhi, Mădălina Elena, Ćorić, Stjepan, Theobalt, Dörte, Grunert, Patrick, de Leeuw, Arjan, and Krijgsman, Wout

Abstract

The Central Paratethys was a large-scale Oligo-Miocene epicontinental sea located in Central and Eastern Europe. It was separated from the Mediterranean by the Alpine orogenic belt. The Paratethys progressively flooded the Pannonian back-arc basin that formed during the early to middle Miocene. Along the southern margin of the basin, the maximum extension of the Paratethys onto the flanks of the Dinarides Mountains occurred during the middle Miocene (Badenian). We have studied the most complete middle Miocene (Badenian-Sarmatian) Paratethys section located at this southern margin. It comprises a >1.5 Myr long, continuous marine depositional sequence, which is highly relevant for our understanding of the interplay between global climatic and regional geodynamic perturbations in this semi-isolated epicontinental basin. The investigated record is particularly important to assess the impact of the Middle Miocene Climate Transition, the Langhian-Serravallian glacial Mi-3b event, the syn-rift climax of the Pannonian Basin and the Badenian Salinity Crisis. Moreover, we present the first high resolution age model for the regional Badenian stage based on integrated biomagnetostratigraphy. According to our age model, the marine flooding reached the area at ~14.15 Ma, during the regional Badenian stage. Open marine conditions persisted until ~12.6 Ma when the extinction of the fully marine fauna marks the beginning of the regional Sarmatian stage. Sea-level fluctuations are reflected in the section by four transgressive regressive cycles coinciding roughly with 400-kyr-eccentricity periods. The largest sea-level fall occurred after the first cycle and corresponds to the end of the Middle Miocene Climate Transition marked by glacial event Mi-3b. Elsewhere in the Pannonian Basin, this marked drop in base-level triggered deposition of evaporites during the Badenian Salinity Crisis. At Ugljevik however, there are no evaporites and the short-term Mi-3b regression was followed

Published
2019

7. Integrated bio-magnetostratigraphy of the Badenian reference section Ugljevik in southern Pannonian Basin - implications for the Paratethys history (middle Miocene, Central Europe)

Author

Paleomagnetism, Mandic, Oleg, Sant, Karin, Kallanxhi, Mădălina Elena, Ćorić, Stjepan, Theobalt, Dörte, Grunert, Patrick, de Leeuw, Arjan, Krijgsman, Wout, Paleomagnetism, Mandic, Oleg, Sant, Karin, Kallanxhi, Mădălina Elena, Ćorić, Stjepan, Theobalt, Dörte, Grunert, Patrick, de Leeuw, Arjan, and Krijgsman, Wout

Published
2019

8. Integrated bio-magnetostratigraphy of the Badenian reference section Ugljevik in southern Pannonian Basin - implications for the Paratethys history (middle Miocene, Central Europe)

Author

Paleomagnetism, Mandic, Oleg, Sant, Karin, Kallanxhi, Mădălina Elena, Ćorić, Stjepan, Theobalt, Dörte, Grunert, Patrick, de Leeuw, Arjan, Krijgsman, Wout, Paleomagnetism, Mandic, Oleg, Sant, Karin, Kallanxhi, Mădălina Elena, Ćorić, Stjepan, Theobalt, Dörte, Grunert, Patrick, de Leeuw, Arjan, and Krijgsman, Wout

Published
2019

9. Integrated bio-magnetostratigraphy of the Badenian reference section Ugljevik in southern Pannonian Basin - implications for the Paratethys history (middle Miocene, Central Europe)

Author

Paleomagnetism, Mandic, Oleg, Sant, Karin, Kallanxhi, Mădălina Elena, Ćorić, Stjepan, Theobalt, Dörte, Grunert, Patrick, de Leeuw, Arjan, Krijgsman, Wout, Paleomagnetism, Mandic, Oleg, Sant, Karin, Kallanxhi, Mădălina Elena, Ćorić, Stjepan, Theobalt, Dörte, Grunert, Patrick, de Leeuw, Arjan, and Krijgsman, Wout

Published
2019

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