Neuquensaurus (meaning "Neuquén lizard") is a genus of saltasaurid sauropod dinosaur that lived in the Late Cretaceous, about 80 million years ago in Argentina in South America. Its fossils were recovered from outcrops of the Anacleto Formation around Cinco Saltos, near the Neuquén river from which its name is derived.

Neuquensaurus
Temporal range: Late Cretaceous, 80 Ma
Neuquensaurus skeletal mount in the Dinosaurios más allá de la extinción exhibition
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Saurischia
Clade: Sauropodomorpha
Clade: Sauropoda
Clade: Macronaria
Clade: Titanosauria
Family: Saltasauridae
Tribe: Saltasaurini
Genus: Neuquensaurus
Powell, 1992
Type species
Titanosaurus australis
Lydekker, 1893
Species
  • N. australis (Lydekker, 1893)
  • N. robustus (Huene, 1929 [originally Titanosaurus]) (nomen dubium)
Synonyms
Genus synonymy
Species synonymy
  • Microcoelus patagonicus?
    Lydekker, 1893
  • Titanosaurus australis
    Lydekker, 1893
  • Titanosaurus nanus
    Lydekker, 1893
  • Titanosaurus robustus
    von Huene, 1929
  • Loricosaurus scutatus?
    von Huene, 1929
  • Saltasaurus australis
    (Lydekker, 1893 [originally Titanosaurus])
  • Saltasaurus robustus
    (von Huene, 1929 [originally Titanosaurus])

History

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Holotypic caudal vertebrae

In 1893, Richard Lydekker named Titanosaurus australis, based on a series of caudal vertebrae and limb elements. The remains had been found by Santiago Roth and F. Romero in the Neuquén Province of Argentina at the Neuquén River, and were by Lydekker assigned to a single individual.[1] Six caudal vertebrae, with the inventory numbers MLP Ly 1-6-V-28-1, were the holotype of the species. They had probably been found in a layer of the Anacleto Formation.

Some elements that had been referred to Titanosaurus australis were reassigned to Laplatasaurus araukanicus by Friedrich von Huene in 1929.[1] The same year, von Huene named a Titanosaurus robustus, and claimed it differed from T. australis in the limb material. Von Huene described all the slender limb material to T. australis, but did not identify any differentiating features between the vertebrae.[2] When describing T. robustus, von Huene did not really compare other genera and species to it.[1] From the syntype material assigned by von Huene to T. robustus José Fernando Bonaparte et al. in 1978 chose four lectotypes, specimens MLP 26-250, MLP 26-252, MLP 26-254, and MLP 26-259, a left femur, both ulnae, and a left radius.[3][1]

In 1986, Jaime Eduardo Powell, concluding that Titanosaurus australis was less similar than Laplatasaurus araukanicus to Titanosaurus indicus, named a separate genus: Neuquensaurus.[4] However, he did so in an unpublished dissertation which caused Neuquensaurus australis and Neuquensaurus robustus to remain invalid nomina ex dissertatione. In 1990, the two species were assigned to Saltasaurus by John Stanton McIntosh, as a Saltasaurus australis and a Saltasaurus robustus, claiming that the features found by Bonaparte were not of sufficient taxonomic importance to justify a generic separation.[1]

In 1992 Powell validly named Neuquensaurus, with as type species Titanosaurus australis of which the combinatio nova then is Neuquensaurus australis. He also found Titanosaurus robustus to be assignable to the new genus, but considered it non-diagnostical, and so a nomen dubium.[5]

Description

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Size comparison

This dinosaur is believed to have possessed armor-like osteoderms. A relatively small sauropod, with a femur only 0.75 metres (2.5 ft) long. It is one of the most completely known of Patagonian sauropods,[1] measuring 7–9 metres (23–30 ft) long and weighing 1.8–3.5 metric tons (2.0–3.9 short tons).[6][7] In addition to the original fossils described by Lydekker in 1893, it is represented by fossils collected in the early twentieth century, and more recent material, including a well preserved and partially articulated specimen described in 2005 (with two associated osteoderms).[8]

Cervical vertebrae are known from multiple specimens of Neuquensaurus, although few are definitively associated with any other material. The centra are elongate, compressed vertically, and strongly opisthocoelous, with an ovoid pleurocoel and rounded neural spine. Diagnostic of Saltasaurinae, the prezygapophyses are shortened and robust and the postzygapophyses extend far posteriorly to compensate. The lateral projections of the neural arch (transverse processes) are far more robust than in Isisaurus.[8] As in the cervicals, the dorsal vertebrae bear strongly opisthocoelous centra with lateral pneumatic openings. In the dorsals, however, the pleurocoels are posteriorly pinched and internally subdivided, a regular feature of titanosaurs. The pleurocoels of Neuquensaurus are proportionally taller than in Trigonosaurus or Lirainosaurus. A ventral keel is lost throughout the dorsal series of probably 10 vertebrae, although the total count is uncertain. The vertebrae also lean less posteriorly towards the pelvis, initially inclined far beyond their individual centrum. However, they lack the hyposphene-hypantrum articulations of non-titanosaurs that limit vertebral motion. Two accessory laminae are present in the dorsals of Neuquensaurus that are absent even in the close relatives Saltasaurus and Rocasaurus. Unique among all sauropods, the sacrum of Neuquensaurus is composed of seven vertebrae. The last vertebra is convex anteriorly and posteriorly, and diagnostically the middle vertebrae are strongly compressed in width.[8] Like other derived titanosaurs, all caudal vertebrae of Neuquensaurus are strongly procoelous and vertically compressed. There is a prominent ventral depression like in Saltasaurus and Rocasaurus, but contrasting the other genera there is no ridge dividing this depression. Additionally, the neural spines of vertebrae become progressively more reclined, and a prespinal lamina is present in all vertebrae.[8]

 
Life restoration

Neuquensaurus has an almost complete skeleton. Among the preserved elements are a scapula. The scapula is co-ossified with the coracoid, a feature also found in Opisthocoelicaudia. In general aspect, the scapula resembles Saltasaurus, Opisthocoelicaudia, Lirainosaurus, and Alamosaurus. The coracoids of the scapulae are roughly quadrangular in shape, and are alike Saltasaurus and Lirainosaurus, but not Opisthocoelicaudia, Rapetosaurus, or Isisaurus, all of which have a rounded coracoid.[1]

Many characters distinguish Neuquensaurus from other titanosaurians. The features found by Otero in 2010 are: the possession of posterior caudal centra that are dorsoventrally flattened, and strongly developed fibular lateral tuberosity.[1]

Classification

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Neuquensaurus is a derived saltasaurine. Its closest relatives were Saltasaurus, Rocasaurus, and Bonatitan, and together they made up Saltasaurinae.[1]

 
Humerus and replica skull
 
Restored skeleton of N. australis

The cladogram from Rubilar-Rogers et al. (2021) is shown below:[9]

Lithostrotia


Paleoecology

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Neuquensaurus is known from fossils from the Anacleto Formation.[1]

References

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  1. ^ a b c d e f g h i j Alejandro Otero (2010). "The appendicular skeleton of Neuquensaurus, a Late Cretaceous saltasaurine sauropod from Patagonia, Argentina" (PDF). Acta Palaeontologica Polonica. 55 (3): 399–426. doi:10.4202/app.2009.0099.
  2. ^ F. v. Huene, 1929, "Los sauriquios y ornitisquios del Cretáceo argentino", Anales del Museo de La Plata, serie 2 3: 1-196
  3. ^ Bonaparte, J.F. and Gasparini, Z., 1978, "The sauropods of the Neuquén and Chubut Groups and their chronological relations", VII Congreso Geologico Argentino, Neuquén 11 pp 393–406
  4. ^ Powell, J.E., 1986, Revisión del titanosáuridos de América del Sur, dissertation Universidad Nacional de Tucumán
  5. ^ J.E. Powell, 1992, "Osteologia de Saltasaurus loricatus (Sauropoda - Titanosauridae) del Cretácico Superior del noroeste Argentino" In: J.L. Sanz & A.D. Buscalioni (eds.), Los Dinosaurios y Su Entorno Biotico: Actas del Segundo Curso de Paleontologia in Cuenca. Institutio "Juan de Valdes", Cuenca, Argentina pp 165-230
  6. ^ Paul, Gregory S. (2016). The Princeton Field Guide to Dinosaurs 2nd edition. Oxford: Princeton University Press. p. 238. ISBN 9780691167664.
  7. ^ Stein, K.; Csiki, Z.; Curry Rogers, K.; Weishampel, D.B.; Redelstorff, R.; Carballidoa, J.L.; Sander, P.M. (2010). "Small body size and extreme cortical bone remodeling indicate phyletic dwarfism in Magyarosaurus dacus (Sauropoda: Titanosauria)". Proceedings of the National Academy of Sciences of the United States of America. 20. 107 (20): 9258–9263. Bibcode:2010PNAS..107.9258S. doi:10.1073/pnas.1000781107. PMC 2889090. PMID 20435913.
  8. ^ a b c d Salgado, L.; Apesteguía, S.; Heredia, S.E. (2005). "A New Specimen of Neuquensaurus australis, a Late Cretaceous Saltasaurine Titanosaur from North Patagonia". Journal of Vertebrate Paleontology. 25 (3): 623–634. doi:10.1671/0272-4634(2005)025[0623:ANSONA]2.0.CO;2. JSTOR 4524482.
  9. ^ Rubilar-Rogers, D.; Vargas, A. O.; González Riga, B.; Soto-Acuña, S.; Alarcón-Muñoz, J.; Iriarte-Díaz, J.; Arévalo, C.; Gutstein, C. S. (2021). "Arackar licanantay gen. et sp. nov. a new lithostrotian (Dinosauria, Sauropoda) from the Upper Cretaceous of the Atacama Region, northern Chile". Cretaceous Research. 124: Article 104802. Bibcode:2021CrRes.12404802R. doi:10.1016/j.cretres.2021.104802. S2CID 233780252.
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