Cañadón Asfalto

Description

The Cañadón Asfalto Formation is a geological formation from the Lower Jurassic, with doubtful layers of Late Jurassic age previously referred to it. The Cañadón Asfalto Formation is located in the Cañadón Asfalto Basin, a rift basin in the Chubut Province of northwestern Patagonia, southern Argentina. The basin started forming in the earliest Jurassic.
The formation is composed of fluvial-lacustrine deposits, typically sandstones and shales with a saline paleolake carbonate evaporitic sequence of limestone in its lowest Las Chacritas Member. Interbedded with these are volcanic tuffites. It is divided into two members, the Las Chacritas Member, and the overlying Puesto Almada member, but the latter has also been assigned to the overlying Cañadón Calcáreo Formation by other authors.
The exact age of the formation has been controversial, with uranium-lead dating of the volcanic tuff beds having given various different ages. Recent work has suggested that the base of the formation was formed around 171 Ma, during the upper Aalenian, with the main age for the Lower Las Chacritas Member being around 168 Ma, during the Bajocian, Bathonian and Callovian, while the overlying Puesto Almada Member seems to be around 158 Ma, or Oxfordian in age. But that changed thanks to the discovery of zircons near the location of the discovery of Bagualia, allowing a precise dating of the Las Charcitas Member as Middle-Late Toarcian, 178-179 million years. And a more advanced dating constrained the age of the formation as Middle-Late Toarcian, contemporaneous to the Chon Aike volcanic activity, making it a local equivalent to Antarctica's Mawson Formation (Ferrar Volcanic Province) and the South African Drakensberg Group (Karoo Volcanic Province).
This unit belongs to the Patagonia-Antarctic Peninsula sequence, along with the Marifil, Lonco Trapial & Garamilla Formation in Central-Northern Patagonia. They form part of the wider first-stage event (V1) of the Chon Aike Province, proving connection with both areas in the Early Jurassic, with the closest unit in South America being the Bahía Laura Volcanic Complex (Deseado Massif), the Quemado Complex (Austral Patagonia) & the Tobífera and Lemaire Formations (Fuegian Andes). Other Units include Bajo Pobre, Cañadón Huemules and Roca Blanca Formations in Argentina. Finally in Antarctica the Mapple, Brennecke Formations & Ellsworth Land Volcanic Group and Ellsworth-Whitmore terrane isolated granitoids.
The Volcanic-Lacustrine interbeds found in units like the Ellsworth Land Volcanic Group of the Antarctic Peninsula are not only coeval with, but also continuations of the biozone seen in the Chacritas member.

Découvertes

Source: The Paleobiology Database

Site(s) correspondant(s) à cette formation: 10

1 km east of Cerro Cóndor : Chubut - ?⁷⁸⁵¹⁷⁸⁷⁹⁷⁸⁸⁰⁷⁸⁸¹¹³⁸⁶¹²⁵⁶⁷³³⁰⁶⁴⁶⁵⁵⁰⁹⁹⁷⁴³⁸³⁹⁰⁶²⁴

Cerro Cóndor North : Chubut - ?⁷⁸⁵¹⁷⁸⁷⁹⁷⁸⁸¹¹³⁸⁶¹¹⁷⁷⁶⁷³⁰⁶⁴⁶⁵⁵⁰⁹⁹⁶³⁵⁷³⁷⁴³⁸³⁷⁶⁶⁵⁸⁹⁰⁶²⁴

Patagosaurus fariasi

Las Chacritas, Cerro Cóndor : Chubut - ?¹²⁴¹⁸²⁵⁶⁷³

Cerro Cóndor : Chubut - ?¹³⁸⁶¹⁷⁴³⁸³

Patagosaurus fariasi

Queso Rallado, near Cerro Cóndor : Chubut - ?¹⁹²²⁶³⁶¹⁰⁷⁶⁴⁷³³⁶⁵⁷⁷⁸⁶⁹⁷⁹⁶⁷⁶³⁶²⁷⁶³⁶³

4 km west-northwest of Cerro Cóndor : Chubut - ?¹⁴¹⁹⁹²⁵⁶⁷³

Piatnitzkysauridae

Bagual Canyon : Chubut - ?³⁶¹⁰⁸⁴²³¹⁷⁷³⁷⁴⁸⁷⁴³⁸³⁷⁶³¹⁷

Jugo Loco site, near Cerro Cóndor : Chubut - ?⁴²³¹⁷

Eoabelisaurus mefi

Cerro Cóndor tracksite : Chubut - ?¹⁴⁶⁷⁷⁴⁸¹¹⁴

Theropoda

1.6 km northeast of Cerro Cóndor : Chubut - Paso de Indios⁷¹²⁹⁵

Asfaltovenator vialidadi

Publication(s)

La base comprend 29 publication(s).

Source: The Paleobiology Database

↑^{1 2 3 4}J. F. Bonaparte. 1979. Dinosaurs: a Jurassic assemblage from Patagonia. Science 205:1377-1378 (https://doi.org/10.1126/science.205.4413.1377)
↑^{1 2}J. F. Bonaparte. 1980. Jurassic tetrapods from South America and dispersal routes. Aspects of Vertebrate History: Essays in Honor of Edwin Harris Colbert
↑¹J. F. Bonaparte. 1986. Les dinosaures (Carnosaures, Allosauridés, Sauropodes, Cétosauridés) du Jurassique Moyen de Cerro Cóndor (Chubut, Argentina) [The dinosaurs (carnosaurs, allosaurids, sauropods, cetiosaurids) from the Middle Jurassic of Cerro Cóndor (Chubut, Argentina)]. Annales de Paléontologie (Vert.-Invert.) 72(3):247-289
↑^{1 2}J. F. Bonaparte. 1986. Les dinosaures (Carnosaures, Allosauridés, Sauropodes, Cétosauridés) du Jurassique Moyen de Cerro Cóndor (Chubut, Argentina) [The dinosaurs (carnosaurs, allosaurids, sauropods, cetiosaurids) from the Middle Jurassic of Cerro Cóndor (Chubut, Argentina)]. Annales de Paléontologie (Vert.-Invert.) 72(3):325-386
↑^{1 2 3 4}O. W. M. Rauhut. 2003. A dentary of Patagosaurus (Sauropoda) from the Middle Jurassic of Patagonia. Ameghiniana 40(3):425-432
↑^{1 2 3 4}O. W. M. Rauhut. 2007. A fragmentary theropod skull from the Middle Jurassic of Patagonia. Ameghiniana 44(2):479-483
↑^{1 2}J. F. Bonaparte. 1984. Jurassic and Cretaceous terrestrial vertebrates of South America. National Geographic Society Research Reports (1975) 16:115-125
↑^{1 2}J. F. Bonaparte. 1981. Inventario de los vertebrados Jurásicos de América del Sur [Inventory of the Jurassic vertebrates of South America]. Cuencas Sedimentarias del Jurásico y Cretácico de América del Sur 2:661-684
↑^{1 2 3 4}D. Pol, J. Ramezani, and K. Gomez, J. L. Carballido, A. Paulina Carabajal, O. W. M. Rauhut, I. H. Escapa, N. R. Cúneo. 2020. Extinction of herbivorous dinosaurs linked to Early Jurassic global warming event. Proceedings of the Royal Society of London B 287:20202310:1-7 (https://doi.org/10.1098/rspb.2020.2310)
↑^{1 2}F. M. Holwerda, O. W. M. Rauhut, and D. Pol. 2021. Osteological revision of the holotype of the Middle Jurassic sauropod dinosaur Patagosaurus fariasi Bonaparte, 1979 (Sauropoda: Cetiosauridae). Geodiversitas 43(16):575–643 (https://doi.org/10.5252/geodiversitas2021v43a16)
↑¹R. A. Coria. 1995. On a monospecific assemblage of sauropod dinosaurs from Patagonia: implications for gregarious behavior. Aspects of Sauropod Paleobiology. GAIA 10:209-213
↑¹J. F. Bonaparte. 1984. I dinosauri dell’Argentina [. Sulle Orme dei Dinosauri
↑¹T. S. Myers and A. R. Fiorillo. 2009. Evidence for gregarious behavior and age segregation in sauropod dinosaurs. Palaeogeography, Palaeoclimatology, Palaeoecology 274:96-104 (https://doi.org/10.1016/j.palaeo.2009.01.002)
↑^{1 2}O. W. M. Rauhut. 2005. Osteology and relationships of a new theropod dinosaur from the Middle Jurassic of Patagonia. Palaeontology 48(1):87-110 (https://doi.org/10.1111/j.1475-4983.2004.00436.x)
↑^{1 2}O. W. M. Rauhut, T. Martin, and E. Ortíz-Jaureguizar, P. Puerta. 2002. A Jurassic mammal from South America. Nature 416:165-168 (https://doi.org/10.1038/416165a)
↑¹D. Pol, O. W. M. Rauhut, and M. Becerra. 2011. A Middle Jurassic heterodontosaurid dinosaur from Patagonia and the evolution of heterodontosaurids. Naturwissenschaften 98:369-379 (https://doi.org/10.1007/s00114-011-0780-5)
↑¹J. L. Carballido, F. M. Holwerda, and D. Pol, O. W. Rauhut. 2017. An Early Jurassic sauropod tooth from Patagonia (Cañadón Asfalto Formation): implications for sauropod diversity. Publicación Electrónica de la Asociación Paleontológica Argentina 17(2):50-57 (https://doi.org/10.5710/PEAPA.17.11.2017.249)
↑¹M. G. Becerra, K. L. Gomez, and D. Pol. 2017. A sauropodomorph tooth increases the diversity of dental morphotypes in the Ca˜nadón Asfalto Formation (Early – Middle Jurassic) of Patagonia. Comptes Rendus Palevol 16:832-840 (https://doi.org/10.1016/j.crpv.2017.08.005)
↑¹I. H. Escapa, J. Sterli, and D. Pol, L. Nicoli. 2008. Jurassic tetrapods and flora of Cañadón Asfalto Formation in Cerro Cóndor area, Chubut Province. Revista de la Asociación Geológica Argentina 63(4):613-624
↑¹M. G. Becerra and M. A. Ramírez. 2018. Locomotor morphotypes, allometry, linear regressions and the smallest sizes in Ornithischia: estimating body length using hind limb variables. Ameghiniana 55(5):491-516 (https://doi.org/10.5710/AMGH.27.06.2018.3189)
↑¹M. G. Becerra, D. Pol, and O. W. M. Rauhut, I. A. Cerda. 2016. New heterodontosaurid remains from the Cañadón Asfalto Formation: cursoriality and the functional importance of the pes in small heterodontosaurids. Journal of Paleontology 90(3):555-577 (https://doi.org/10.1017/jpa.2016.24)
↑¹M. T. Carrano. 2025. Taxonomic opinions on the Dinosauria.
↑^{1 2}D. Pol, O. W. M. Rauhut, and J. L. Carballido. 2009. Skull anatomy of a new basal eusauropod from the Cañadón Asfalto Formation (Middle Jurassic) of central Patagonia. Journal of Vertebrate Paleontology 29(3, suppl):165A
↑^{1 2 3}D. Pol and O. W. M. Rauhut. 2012. A Middle Jurassic abelisaurid from Patagonia and the early diversification of theropod dinosaurs. Proceedings of the Royal Society of London, B 279:3170-3175 (https://doi.org/10.1098/rspb.2012.0660)
↑¹R. Royo-Torres, A. Cobos, and P. Mocho, L. Alcalá. 2021. Origin and evolution of turiasaur dinosaurs set by means of a new ‘rosetta’ specimen from Spain. Zoological Journal of the Linnean Society 191(1):201-227 (https://doi.org/10.1093/zoolinnean/zlaa091)
↑¹M. G. Becerra, J. L. Carballido, and D. Pol. 2016. Primer registro de un Sauropoda no-Eusauropoda del Toarciano bajo-medio de Cañadón Asfalto [First report of a non-Eusauropoda Sauropoda from the lower-middle Toarcian of Cañadón Asfalto]. XXX Jornadas Argentinas de Paleontología de Vertebrados. Resúmenes. Ameghiniana 53(6 (suppl.)):8
↑^{1 2}G. Leonardi. 1994. Annotated Atlas of South America Tetrapod Footprints (Devonian to Holocene) with an Appendix on Mexico and Central America. . República Federativa do Brasil, Ministério de Minas e Energia, Secretaria de Minas e Metalurgia, Companhia de Pesquisa de Recursos Minerais, Brasília
↑¹J. O. Calvo. 2007. Ichnology. Patagonian Mesozoic Reptiles
↑^{1 2}O. W. M. Rauhut and D. Pol. 2019. Probable basal allosauroid from the early Middle Jurassic Cañadón Asfalto Formation of Argentina highlights phylogenetic uncertainty in tetanuran theropod dinosaurs. Scientific Reports 9:18826:1-7 (https://doi.org/10.1038/s41598-019-53672-7)

Galerie d'image

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