Biology:Tazoudasaurus

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Short description: Extinct genus of dinosaurs

Tazoudasaurus
Temporal range: Toarcian, 182–174 Ma
Uncertain allocation of the layers[1]
Tazoudasaurus.jpg
Representative vertebrae of Tazoudasaurus naimi
Scientific classification edit
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Saurischia
Clade: Sauropodomorpha
Clade: Sauropoda
Clade: Gravisauria
Family: Vulcanodontidae
Genus: Tazoudasaurus
Species:
T. naimi
Binomial name
Tazoudasaurus naimi
Allain et al., 2004

Tazoudasaurus is a genus of gravisaurian, probably a vulcanodontid sauropod dinosaurs hailing from the late Early Jurassic (Toarcian), that was recovered in the "Toundoute Continental Series" (Azilal Formation) located in the High Atlas Mountains of Morocco in North Africa. Along with Patagosaurus, Volkheimeria, Bagualia and Perijasaurus (as well maybe Barapasaurus and Kotasaurus) represents one of the few sauropods named from this stage on Gondwana, as well the only one from Africa.[2][3]

Discovery and naming

Back in the early 2000s, several excavations took place in the High Atlas near Toundoute, in the Province of Ouarzazate, where a series 300 m thick continental redbeds are exposed. In these redbeds, two main fossiliferous localities were initially denominated "To1 site" and excavated in the Duar of Tazouda, a hill near Toundoute, separated 30 m from each other.[1] The remains, consisting of the holotype, a partial adult skeleton and cranial material (specimen To 2000–1) including complete left mandible with teeth, quadrate, jugal, postorbital, parietal, frontal and exoccipital, as well an associated partial juvenile skeleton (specimen To 2000–2) found in continental detrital sediments of the Toarcian aged Azilal Formation, were described by Ronan Allain et al. in early 2004. The generic name derives from one of the localities, Tazouda, while the specific descriptor is a Latinization of the Berber term for "slender" due to the animal's small size for a sauropod.[1] Latter work on the same area yielded new dinosaurian material, with the new localities, with the original yielding another juvenile, "To1´" (one adult, a subadult and a juvenile specimen), "Pt haut-Pt" (adult and the Ceratosaurian Theropod Berberosaurus[4]) "O-R", with indeterminate amniote material and finally "To2", with a subadult Tazoudasaurus and a large-bodied theropod.[5] By 2010, 10 specimens where know. Additional material of the genus may have been discovered before the excavations on Toundoute, as material recovered in the 40 to 80s at the east of the Azilal Village in the province of the same name, include gravisaur material very similar to Tazoudasaurus, composed of a pelvis and other indeterminate remains.[6]

Tazouda Dinosaur Museum

The Tazouda Dinosaur Museum is dedicated to the beds where Tazoudasaurus was discovered. Some researchers, like Najat Akesbi, proposed the creation of a museum to house the local dinosaur fossils, as part of the "Dino Atlas" project. It is configured in complementarity with the Azilal museum and the M'goun Geopark to constitute what is called "the route of the dinosaurs".[7]

Description

Tazoudasaurus is one of the most complete basal sauropods known. Several specimens, representing ten different individuals, have been found. Both juveniles and adults are represented. As of 2010, the sites were not fully excavated and many of the bones had not been prepared for study. The skull is represented by a few disarticulated bones and a nearly complete lower jaw from the holotype individual.[5] The neck is known from eight cervical vertebrae, of which only three had been prepared as of 2008. Numerous dorsal and caudal vertebrae have been found.[8] A single scapula and coracoid, not from the same individual, have been found.[5] The humerus, radius, and ulna are known. The front foot is nearly completely known from a juvenile individual. The ilium, ischium, pubis, femur, tibia, fibula, and astragalus are all known. The hind foot is less completely known than the front foot, and its anatomy cannot be fully reconstructed from known material.[5]

Scaled type specimen

Tazoudasaurus, was a small sauropod at 11 meters (36 feet)-14 meters (46 feet) long, is characterized by rather primitive features such as the prosauropod-like mandible with spatulate and denticle-bearing teeth, lack of a U-shaped mandibular symphysis as other more derived sauropods. Teeth wear in V-shaped marks indicates tooth occlusion, suggesting that vulcanodontids processed food orally when feeding. The frontal and the parietal are incomplete, the former being broken anteriorly and the latter posteriorly. The neck is flexible with elongate vertebrae that lack true pleurocoels while dorsal and caudal vertebrae series tend to be more rigid. T. naimi bears the most complete fossil skeleton for Early Jurassic sauropod remains found to date due to the scarcity of exposed strata of that age.[5]

Disarticulated elements of the skull roof and of the braincase have been recovered, showing an incomplete Fronto-parietal firmly fused together, with the frontals suggesting a larger than wider shape, and the parietal lacking an anterolateral process, something more akin to non-Sauropod Sauropodomorphs.[8] The postorbital shows a bony plate contact with the squamosal, something unseen in the more typical "tongue-and-groove" contact of other Sauropods. The quadrate bends laterally in the posterior half in a similar way to the one of Plateosaurus. The lower jaws are know thanks to one dentary CPSGM To1-275 suggesting a weak connection between the left and right lower jaws. The associated teeth show features typical of Sauropodomorphs and basal sauropods, such as conical denticles on the mesial and distal margins.[8]

The Cervical Vertebrae have an axis and neural arch that lacks the marked external pneumatic structures of more advanced sauropods. The ratio of length/height for the two main preserved cervicals are about 2.5, which is less than genera such as Omeisaurus, Mamenchisaurus or Euhelopus. They also lack cpol, seen in taxa such as Patagosaurus. The dorsal vertebrae are higher than the cervicals, showing an arched upwards ventral surface of the centrum, like in the Rutland Cetiosaurus. The middle dorsals have a greater centra, neural spines more prominent posteriorly and transverse processes with a more dorsal direction than both anterior and posterior vertebrae. The caudals lack the deep groove in the ventral suface seen in Vulcanodon.[8]

The coracoid is massive with an oval outline, lacking the glenoid notch seen in Cetiosaurus or Suuwassea. The humerus is expanded in both directions, and the unla shows an olecranon region wider than in Vulcanodon. The front feet are intermediate in form between those of prosauropods and later sauropods.[5] The femora femora are straight and anteroposteriorly compressed, having a tibia/femur length ratio around 0.58, expected for sauropods. The fibula is also similar to other sauropods having the same inturned anterior trochanter seen in Vulcanodon. The metacarpals were more spread out and held less vertically than in later sauropods, and did not form the tight, tubular arrangement seen in later sauropods. The phalangeal formula was probably 2-3-2-2-2,[lower-alpha 1] fewer than in prosauropods but more than in other sauropods, and a prominent thumb claw was present.[8] Each hind foot bore four claws. The claw on the first toe was large and sickle-like, as in other sauropods, whereas the other three claws were flattened, wide, and blunt-tipped, an unusual shape otherwise seen only in Vulcanodon.[8]

The pelvic material includes and ilium lacking the curved preacetabular process seen in other sauropods and a pubis with very similar proportions of the one recovered in Vulcanodon, yet more slender than the usual model seen on latter sauropods.[8]

Classification

At it´s description, Tazoudasaurus was found to be a sister taxon of Vulcanodon, based mostly on features such as a proximal dimensions of pedal digits II and III significantly broader then deep, considered an autapomorphy of the second genus, and differing only in caudal vertebrae features while it also possesses characters that place it outside Eusauropoda, both on the family Vulcanodontidae, sometimes rendered invalid and paraphyletic, as was meant to include taxa such as the Indian Barapasaurus, that was excluded upon Tazoudasaurus description.[8] A latter deeper osteological redescription of the genus provided a whole new group, Gravisauria, meant to include Vulcanodontidae and Eusauropoda.[8] Several latter works have agreed on the non Eusauropodan classification of Tazoudasaurus, finding it usually closer with Vulcanodon. A recent cladogram after Pol and colleagues, in 2021, summarizes it:[9]

Sauropodiformes

Aardonyx

Leonerasaurus

Mussaurus

Yizhousaurus

NMQR1551

NMQR3314

Sauropoda

Camelotia

Lessemsauridae

Lessemsaurus

Antetonitrus

Ingentia

Meroktenos

Kholumolumo

Ledumahadi

Gongxianosaurus

Pulanesaura

Schleitheimia

Isanosaurus

Sauropoda

Tazoudasaurus

Vulcanodon

Eusauropoda

(sensu Salgado et al. (1997))
(sensu Yates (2007))

Paleoecology and paleobiology

Tazouda CS are a unique section due to its evidenced volcanic influence. Similar environments are found in modern Pisgah cinder cone of Mojave Desert. Local floodplains alternated humid and dry periods, where in the last hypersaline Chotts and gypsium dunes likely developed

Tazoudasaurus had likely a gregarious behaviour, based on the agrupation of juvenile, adult and subadult speciments coexisting together in a herd, representing a large plant-eating taxon, originally claimed to be around 10 meters (33 feet)-11 meters (36 feet) long, more recent estimations suggest a maximum length close to 13 meters (43 feet)-14 meters (46 feet) and a weight around 7–8 metric tons (7.7–8.8 short tons).[10]

The "Toundoute Continental Series" is unlike other members of the Azilal Formation, due to the presence of volcanic material of coeval age, probably coming from a nearby source of Strombolian-type eruptions. The Azilal Formation recovers a Terrestrial progradation that happened in the Central High Atlas Basin towards the Toarcian, where the older Pliensbachian Carbonate Platform retreated to the east. The lithology of this unit at Tundoute is divided in 5 units from D to H, (A-C represent the units of the underlying marine dolomite, C representing a transition to a terrestrial environment).[11] These layers have been referred to a Pliensbachian-Toarcian age, based on outdated data, as the underliying Carbonates where quoted to be a continuation with less thickess of the ones found in Todhra, that reach the Late Pliensbachian, being eveidence of a latter progradation than the one seen in the N, for example at Béni-Mellal.[12][13] The section including the bones of Tazoudasaurus and Berberosaurus was likely deposited on a channel/floodplain type fluvial system, with sand-filled channels abundant in plant roots (mostly located in fine limestone, probably from the channel margins), developed in the near E-W direction of transit. These layers also recover the presence of thick (up to 6 m) gypsium facies, which suggest the presence of a local Chott, indicating a succession of humid and dry seasons.[11] Based on mesofossils, local vegetation was apparently dominated by ferns, cycads and conifers.[11] The low-diversity multitaxic assemblage of the Toundoute bonebeds suggest a deposition and burial in nearly instantaneous period of time, probably a sudden flood or mudflow. Apart from Berberosaurus, Tazoudasaurus and a large-bodied theropod of uncertain affinities, a possible Coelophysidae with juvenile & adult specimens and a small sauropod have been recovered from Acforcid, E of Demnate, as well Gravisaurian (Tazoudasaurus?[14]) remains at the E of Azilal village, Medium-Sized Sauropod remains at Mizaguène Hill (SW Azilal) and indeterminate Dinosaur remains from other locations around Azilal and Demnate.[15]

See also

Footnotes

  1. Only two phalanges have been preserved for the second digit, but the second phalanx has an articular surface for a third phalanx.[8]

References

  1. 1.0 1.1 1.2 Allain, Ronan; Najat Aquesbi; Jean Dejax; Christian Meyer; Michel Monbaron; Christian Montenat; Philippe Richir; Mohammed Rochdy et al. (2004). "A basal sauropod dinosaur from the Early Jurassic of Morocco". Comptes Rendus Palevol 3 (3): 199–208. doi:10.1016/j.crpv.2004.03.001. ISSN 1631-0683. Bibcode2004CRPal...3..199A. http://doc.rero.ch/record/5034/files/1_monbaron_bsd.pdf. 
  2. Pol, D.; Gomez, K.; Holwerda, F.H.; Rauhut, O.W.M.; Carballido, J.L. (2022). "Sauropods from the Early Jurassic of South America and the Radiation of Eusauropoda". in Otero, A.; Carballido, J.L.; Pol, D.. South American Sauropodomorph Dinosaurs. Record, Diversity and Evolution. Springer. pp. 131–163. doi:10.1007/978-3-030-95959-3. ISBN 978-3-030-95958-6. 
  3. Rincón, Aldo F.; Raad Pájaro, Daniel A.; Jiménez Velandia, Harold F.; Ezcurra, Martín D.; Wilson Mantilla, Jeffrey A. (2022). "A sauropod from the Lower Jurassic La Quinta Formation (Dept. Cesar, Colombia) and the initial diversification of eusauropods at low latitudes". Journal of Vertebrate Paleontology 42 (1): e2077112. doi:10.1080/02724634.2021.2077112. Bibcode2022JVPal..42E7112R. https://figshare.com/articles/dataset/A_sauropod_from_the_Lower_Jurassic_La_Quinta_formation_Dept_Cesar_Colombia_and_the_initial_diversification_of_eusauropods_at_low_latitudes/20464696. 
  4. Allain, Ronan; Tykoski, Ronald; Aquesbi, Najat; Jalil, Nour-Eddine; Monbaron, Michel; Russell, Dale; Taquet, Philippe (2007). "A basal abelisauroid from the late Early Jurassic of the High Atlas Mountains, Morocco, and the radiation of ceratosaurs". Journal of Vertebrate Paleontology 27 (3): 610–624. doi:10.1671/0272-4634(2007)27[610:AADTFT2.0.CO;2]. http://doc.rero.ch/record/8145/files/monbaron_adt.pdf. 
  5. 5.0 5.1 5.2 5.3 5.4 5.5 Peyer, Karin; Allain, Ronan (2010). "A reconstruction of Tazoudasaurus naimi (Dinosauria, Sauropoda) from the late Early Jurassic of Morocco". Historical Biology 22 (1–3): 134–141. doi:10.1080/08912960903562317. ISSN 0891-2963. 
  6. Ibrahim, N.; Sereno, P. C.; Zouhri, S.; Zouhri, S. (2017). "Les dinosaures du Maroc–aperçu historique et travaux récents.". Mémoires de la Societé géologique de France 180 (4): 249–284. https://www.researchgate.net/publication/361228488. Retrieved 21 April 2023. 
  7. Jalil, N. E.; Allain, R.; Monbaron, M.; Ricqlès, A. D.; Taquet, P. (2022). "Un musée de dinosaures à Tazouda". EDP Sciences 2 (1): 140–142. doi:10.1051/978-2-7598-2718-3.c066. https://www.degruyter.com/document/doi/10.1051/978-2-7598-2718-3.c066/html. Retrieved 21 April 2023. 
  8. 8.0 8.1 8.2 8.3 8.4 8.5 8.6 8.7 8.8 8.9 Allain, Ronan; Aquesbi, Najat (2008). "Anatomy and phylogenetic relationships of Tazoudasaurus naimi (Dinosauria, Sauropoda) from the late Early Jurassic of Morocco". Geodiversitas 30 (2): 345–424. http://sciencepress.mnhn.fr/sites/default/files/articles/pdf/g2008n2a5.pdf. 
  9. Pol, D.; Otero, A.; Apaldetti, C.; Martínez, R. N. (2021). "Triassic sauropodomorph dinosaurs from South America: The origin and diversification of dinosaur dominated herbivorous faunas". Journal of South American Earth Sciences 107: 103145. doi:10.1016/j.jsames.2020.103145. Bibcode2021JSAES.10703145P. 
  10. Molina-Perez & Larramendi (2020). Dinosaur Facts and Figures: The Sauropods and Other Sauropodomorphs. New Jersey: Princeton University Press. pp. 55 & 251. Bibcode2020dffs.book.....M. 
  11. 11.0 11.1 11.2 Montenat, C.; Monbaron, M.; Allain, R.; Aquesbi, N.; Dejax, J.; Hernandez, J.; Taquet, P. (2005). "Stratigraphie et paléoenvironnement des dépôts volcano-détritiques à dinosauriens du Jurassique inférieur de Toundoute (Province de Ouarzazate, Haut-Atlas–Maroc)". Eclogae Geologicae Helvetiae 98 (2): 261–270. doi:10.1007/s00015-005-1161-x. https://sjg.springeropen.com/track/pdf/10.1007/s00015-005-1161-x.pdf. Retrieved January 25, 2022. 
  12. Ettaki, M.; Ibouh, H.; Chellaï, E. H. (2007-12-30). "Tectono-sedimentary events during Lias-Dogger at the southern margin of the Central High-Atlas, Morocco". Estudios Geológicos 63 (2): 103–125. doi:10.3989/egeol.07632196. ISSN 0367-0449. http://estudiosgeol.revistas.csic.es/index.php/estudiosgeol/article/view/196/196. 
  13. Ettaki, M.; Chellaï, E. H. (2005). "Le Toarcien inférieur du Haut-Atlas de Todrha-Dadès (Maroc) : sédimentologie et lithostratigraphie". C. R. Géosciences, Paris 337 (1): 814–823. doi:10.1016/j.crte.2005.04.007. Bibcode2005CRGeo.337..814E. https://www.academia.edu/4685032. Retrieved 25 January 2022. 
  14. Allain, R. (2012). Histoire des dinosaures. Paris: Perrin. p. 112. ISBN 978-2081353053. https://books.google.com/books?id=n-QtMPTyDsoC&dq=Tazoudasaurus&pg=PT40. Retrieved 25 January 2022. 
  15. Jenny, J.; Jenny-Deshusses, C.; Le Marrec, A.; Taquet, P. (1980). "Découverte d'ossements de Dinosauriens dans le Jurassique inférieur (Toarcien) du Haut Atlas central (Maroc) [Discovery of dinosaur bones in the Lower Jurassic (Toarcian) of the central High Atlas (Morocco)"]. Comptes Rendus de l'Académie des Sciences, Série D 290 (1): 839–842. https://gallica.bnf.fr/ark:/12148/bpt6k5497484p/f247.item.r=Taquet?fbclid=IwAR1TmegyACkDfyC6tFyvmOH1N6i1DYOjo1agM7O7_VXh0wEvPyQuMusGtDw. Retrieved 25 January 2022. 

Wikidata ☰ Q139286 entry