Ulaanoosh
Description
Source: Wikipédia
The Ulaanoosh Formation, formerly Baruunbayan Formation, is a geologic formation in the Ömnögovi Province of southern Mongolia. The formation dates to the Albian to Cenomanian stages of the Cretaceous. The Ulaanoosh Formation has provided fossils of dinosaurs, turtles and dinosaur eggs assigned to Parafaveoloolithus sp.. In 2020, the neoceratopsian Beg tse was described from the alluvial sandstones, mudstones and conglomerates of the formation.
Découvertes
Source: The Paleobiology Database
Site(s) correspondant(s) à cette formation: 2
Ologoy Ulan Tsav (PIN coll. 4225) [MPE/SMPE/SMGE] : Dalanzagad - ? 14217 14221 18353 27284 33948 40523 43726 61563 62149 69233 76399 92749 92750 93111 93 km north of Dlan Dzadagad in the northern Gobi, at Ologoy Ulan Tsav (= Algui Ulaan Tsav)- Algui Ulan Tsav [MAS-AMNH] : Omnogov - ? 73869 ca. 14 km from Tsogt-Ovoo
Publication(s)
La base comprend 15 publication(s).
Source: The Paleobiology Database
- ↑1 2 A. V. Sochava. 1969. Dinosaur eggs from the Upper Cretaceous of the Gobi Desert. Paleontological Journal 1969(4):517-527
- ↑1 K. Mikhailov, K. Sabath, and S. Kurzanov. 1994. Eggs and nests from the Cretaceous of Mongolia. Dinosaur Eggs and Babies, Cambridge University Press, Cambridge
- ↑1 K. Carpenter and K. Alf. 1994. Global distribution of dinosaur eggs, nests, and babies. Dinosaur Eggs and Babies, Cambridge University Press, Cambridge
- ↑1 K. E. Mikhailov. 2000. Eggs and eggshells of dinosaurs and birds from the Cretaceous of Mongolia. The Age of Dinosaurs in Russia and Mongolia
- ↑1 K. E. Mikhailov. 1991. Classification of fossil eggshells of amniotic vertebrates. Acta Palaeontologica Polonica 36(2):193-238
- ↑1 S.-K. Zhang. 2010. [A parataxonomic revision of the Cretaceous faveoloolithid eggs of China]. Vertebrata PalAsiatica 48(3):203-219
- ↑1 G. Grellet-Tinner, C. M. Sim, and D. H. Kim, P. Trimby, A. Higa, S. L. An, H. S. Oh, T. Kim, N. Kardjilov. 2011. Description of the first lithostrotian titanosaur embryo in ovo with Neutron characterization and implications for lithostrotian Aptian migration and dispersion. Gondwana Research 20:621-629 (https://doi.org/10.1016/j.gr.2011.02.007)
- ↑1 M. D. D'Emic. 2012. The early evolution of titanosauriform sauropod dinosaurs. Zoological Journal of the Linnean Society 166:624-671 (https://doi.org/10.1111/j.1096-3642.2012.00853.x)
- ↑1 V. F. Shuvalov. 2000. The Cretaceous stratigraphy and palaeobiogeography of Mongolia. The Age of Dinosaurs in Russia and Mongolia
- ↑1 E. N. Kurochkin and R. Barsbold. 2000. The Russian-Mongolian expeditions and research in vertebrate palaeontology. The Age of Dinosaurs in Russia and Mongolia
- ↑1 G. Grellet-TInner, D. H. Kim, and C. M. Sim. 2010. Neutron image characterization of the first titanosaur dinosaur embryo in ovo from Algui Ulaan Tsav, Gobi Desert, Mongolia. XXV Jornadas Argentinas de Paleontología de Vertebrados. Resúmenes. Ameghiniana 47(4 (suppl.)):14R
- ↑1 K. Tanaka, D. K. Zelenitsky, and F. Therrien, Y. Lee, K. Kubota, Y. Kobayashi, G. F. Funston, T. Khishigjav. 2023. Description and review of non-avian dinosaur eggs from Cretaceous deposits of the Mongolian Gobi Desert. Windows into Sauropsid and Synapsid Evolution: Essays in Honor of Louis L. Jacobs
- ↑1 K. E. Mikhailov. 1994. Eggs of sauropod and ornithopod dinosaurs from the Cretaceous deposits of Mongolia. Paleontological Journal 28(3):141–159
- ↑1 K. E. Mikhailov. 1997. Fossil and recent eggshell in amniotic vertebrates: fine structure, comparative morphology and classification. Special Papers in Palaeontology 56:1–80
- ↑1 2 C. Yu, A. Prieto-Marquez, and T. Chinzorig, Z. Badamkhatan, M. Norell. 2020. A neoceratopsian dinosaur from the Early Cretaceous of Mongolia and the early evolution of Ceratopsia. Communications Biology 3:499:1-8 (https://doi.org/org/10.1038/s42003-020-01222-)
Galerie d'image
Pas d'image.