Csehbánya
Description
Source: Wikipédia
The Csehbánya Formation is a geological formation in the Transdanubian Mountains of Veszprém County, Hungary. The formation dates to the Late Santonian (around 85-84 million years ago) of the Late Cretaceous. It represents a floodplain environment as opposed to the swampy lacustrine environment of the simultaneous Ajka Coal Formation, though there is complete overlap in terms of fauna. It underlies the Jákó Marl Formation, and laterally transitions to the Ajka Coal Formation.
Découvertes
Source: The Paleobiology Database
Site(s) correspondant(s) à cette formation: 1
Iharkút mine, Bakony mountains (Unit 1) : Veszprém - ? 12998 14093 15353 32498 32660 32758 43083 46669 49732 62444 68032 76284 80599 81824 81826 86530 93878 NE side of an open-pit bauxite mine, Iharkút,Veszprém County, Bakony Mtns., Transdanubian Range, western Hungary. An open-pit bauxite mine in the location of the former village of Iharkút in the Bakony Mountains, Veszprém county, western Hungary (Rabi et al. 2012). Note that not all of the fossils are from the same spot in the mine, but all are from the same stratigraphic level. Includes all the Unit 1 sites, e.g. SZ-6 (S part of the open pit).
Publication(s)
La base comprend 17 publication(s).
Source: The Paleobiology Database
- ↑1 2 A. Osi, C.-M. Jianu, and D. B. Weishampel. 2003. Dinosaurs from the Upper Cretaceous of Hungary. In A. Petculescu & E. Stiuca (eds.), Advances in Vertebrate Paleontology: Hen to Panta. Romanian Academy, "Emil Racovita" Institute of Speleology, Bucarest
- ↑1 A. Osi. 2004. The first dinosaur remains from the Upper Cretaceous of Hungary (Csehbánya Formation, Bakony Mts). Géobios 37:749-753 (https://doi.org/10.1016/j.geobios.2003.06.005)
- ↑1 A. Osi. 2005. Hungarosaurus tormai, a new ankylosaur (Dinosauria) from the Upper Cretaceous of Hungary. Journal of Vertebrate Paleontology 25(2):370-383 (https://doi.org/10.1671/0272-4634(2005)025[0370:htanad]2.0.co;2)
- ↑1 A. Osi and L. A. Makádi. 2009. New remains of Hungarosaurus tormai (Ankylosauria, Dinosauria) from the Upper Cretaceous of Hungary: skeletal reconstruction and body mass estimation. Palaeontologische Zeitschrift 83:227-245 (https://doi.org/10.1007/s12542-009-0017-5)
- ↑1 A. Osi, R. J. Butler, and D. B. Weishampel. 2010. A Late Cretaceous ceratopsian dinosaur from Europe with Asian affinities. Nature 465:466-468 (https://doi.org/10.1038/nature09019)
- ↑1 A. Osi, S. Apesteguia, and M. Kowalewski. 2010. Non-avian theropod dinosaurs from the early Late Cretaceous of central Europe. Cretaceous Research 31(3):304-320 (https://doi.org/10.1016/j.cretres.2010.01.001)
- ↑1 A. Osi, E. Prondvai, and R. Butler, D. B. Weishampel. 2012. Phylogeny, histology and inferred body size evolution in a new rhabdodontid dinosaur from the Late Cretaceous of Hungary. PLoS ONE 7(9):e44318. (https://doi.org/10.1371/journal.pone.0044318)
- ↑1 A. Ösi and E. Prondvai. 2013. Sympatry of two ankylosaurs (Hungarosaurus and cf. Struthiosaurus) in the Santonian of Hungary. Cretaceous Research 44:58-63 (https://doi.org/10.1016/j.cretres.2013.03.006)
- ↑1 A. Osi, X. Pereda-Suberbiola, and T. Foldes. 2014. Partial skull and endocranial cast of the ankylosaurian dinosaur Hungarosaurus from the Late Cretaceous of Hungary: implications for locomotion. Palaeontologia Electronica 17(1):1-18 (https://doi.org/10.26879/405)
- ↑1 A. Ősi, Z. Csiki-Sava, and E. Prondvai. 2017. A sauropod tooth from the Santonian of Hungary and the European Late Cretaceous ‘sauropod hiatus’. Scientific Reports 7:3261:1-8 (https://doi.org/10.1038/s41598-017-03602-2)
- ↑1 A. Osi and E. Buffetaut. 2011. Additional non-avian theropod and bird remains from the early Late Cretaceous (Santonian) of Hungary and a review of the European abelisauroid record. Annales de Paléontologie 97:34-49 (https://doi.org/10.1016/j.annpal.2011.07.001)
- ↑1 E. Puértolas-Pascual, A. Blanco, and C. A. Brochu, J. I. Canudo. 2016. Review of the Late Cretaceous-early Paleogene crocodylomorphs of Europe: Extinction patterns across the K-PG boundary. Cretaceous Research 57:565-590 (https://doi.org/10.1016/j.cretres.2015.08.002)
- ↑1 E. Isasmendi, A. Torices, and J. I. Canudo, P. J. Currie, X. Pereda-Suberbiola. 2022. Upper Cretaceous European theropod palaeobiodiversity, palaeobiogeography and the intra‐Maastrichtian faunal turnover: new contributions from the Iberian fossil site of Laño. Papers in Palaeontology 8(1):e1419:1-38 (https://doi.org/10.1002/spp2.1419)
- ↑1 S. Choi, M. Moreno-Azanza, and Z. Csiki-Sava, E. Prondvai, Y.-N. Lee. 2020. Comparative crystallography suggests maniraptoran theropod affinities for latest Cretaceous European ‘geckoid’ eggshell. Papers in Palaeontology 6(2):265-292 (https://doi.org/10.1002/spp2.1294)
- ↑1 E. Prondvai, G. Botfalvai, and K. Stein, Z. Szentesi, A. Osi. 2017. Collection of the thinnest: a unique eggshell assemblage from the Late Cretaceous vertebrate locality of Iharkút (Hungary). Central European Geology 60(1):73-133 (https://doi.org/10.1556/24.60.2017.004)
- ↑1 G. Botfalvai, E. Prondvai, and A. Ösi. 2021. Living alone or moving in herds? A holistic approach highlights complexity in the social lifestyle of Cretaceous ankylosaurs. Cretaceous Research 118:104633 (https://doi.org/10.1016/j.cretres.2020.104633)
- ↑1 S. C. R. Maidment, R. J. Butler, and S. L. Brusatte, L. E. Meade, F. J. Augustin, Z. Csiki-Sava, A. Ősi. 2026. A hidden diversity of ceratopsian dinosaurs in Late Cretaceous Europe. Nature (https://doi.org/10.1038/s41586-025-09897-w)
Galerie d'image
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