Bajadasaurus
Bajadasaurus | |
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Skeletal elements | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Clade: | Dinosauria |
Clade: | Saurischia |
Clade: | †Sauropodomorpha |
Clade: | †Sauropoda |
Superfamily: | †Diplodocoidea |
Family: | †Dicraeosauridae |
Genus: | †Bajadasaurus Gallina et al., 2019 |
Species: | †B. pronuspinax
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Binomial name | |
†Bajadasaurus pronuspinax Gallina et al., 2019
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Bajadasaurus is a
Bajadasaurus sported bifurcated (two-pronged), extremely elongated neural spines extending from the neck. Similarly elongated spines are known from the closely related and more completely known Amargasaurus. Several possible functions have been proposed for these spines in Amargasaurus; the 2019 description of Bajadasaurus suggested they could have served as a passive defense against predators in both genera. The skull was slender and equipped with around 48 teeth that were pencil-shaped and restricted to the front of the jaws. The eye openings of Bajadasaurus were exposed in top view, possibly allowing the animal to look forwards while feeding. Bajadasaurus was discovered in sedimentary rocks of the Bajada Colorada Formation, which were deposited by braided rivers. It shared its environment with other dinosaurs including the sauropods Leinkupal and Ninjatitan and different theropods.
Discovery and naming
The only specimen of the
The specimen was formally described as a new genus and species, Bajadasaurus pronuspinax, by Gallina and colleagues in 2019. The generic name is derived from the
Description
Bajadasaurus is classified as a member of the
Skull
As in other flagellicaudatans (the group to which dicraeosaurids and diplodocids belong), the skull was elongated with an overall slender built.[5] The preserved skull includes the pterygoid bones of the palate, most of the skull roof and braincase, as well as the lower jaws and parts of the upper jaws. As of 2019, it is the most complete skull of a dicraeosaurid known. The middle section of the skull is not preserved.[3] The holotype skull is affected by crushing (brittle deformation) that occurred during diagenesis, which resulted in a number of fractures. In addition, the braincase is deformed plastically (without causing fractures).[5]
All bones that surround the
The braincase is mostly hidden from view by overlying bones; only the occipital region (rear part) is exposed. The uppermost bone of the occipital region is the supraoccipital, which in Bajadasaurus was completely fused to the exoccipital-opisthotic bone below and featured a distinct and narrow longitudinal ridge, the sagittal nuchal crest. The posttemporal fenestrae, a pair of openings between the parietal and the occipital region, were extended medially (towards the mid-plane of the skull), which is an autapomorphy of Bajadasaurus (a unique feature not found in closely related genera). The occipital condyle, which articulated with the first vertebra of the neck, was wider than it was high. Its rear surface was not wider than its neck, which was different from Amargasaurus and Dicraeosaurus. The basisphenoid, which formed part of the underside of the braincase, had a pair of gracile bony extensions, the basipterygoid processes, which extended forwards and downwards to articulate with the pterygoid of the palate, bracing the braincase against the latter. An autapomorphy of the genus, these processes were longer and more slender than in Dicraeosaurus and Amargasaurus, being more than six times long than wide. The left and right pterygoids, the only elements of the palate that were preserved, featured a smooth crest that received the basipterygoid processes.[3]
The lower jaw was ca. 80% the length of the skull, which is similar to the proportions seen in diplodocids, but potentially questions previous reconstructions of other dicraeosaurids that assume a proportionally shorter lower jaw.[5] The teeth were restricted to the front parts of the jaws, were pencil-shaped and tilted forwards; their narrow crowns were nearly straight or curved slightly inwards. Of the upper jaw, only the front section of the left maxilla (the largest bone of the upper jaw) is preserved. It preserves eight alveoli (tooth sockets), a count similar to Suuwassea, but less than in Dicraeosaurus, which had 12 teeth in each maxilla. A seemingly complete tooth row of 24 teeth was found close to, but separated from, the left maxilla. This count corresponds to the tooth count of the lower jaw, where the teeth are still anchored within the left and right dentaries (the only tooth-bearing bones of the lower jaw). Bajadasaurus thus likely had 48 teeth in total. The dentary was slender, similar to Suuwassea but unlike the deep dentary of Dicraeosaurus. In top view, the dentaries do not form the box-shaped snout seen in diplodocids, but are more rounded with a J-shaped curvature, as is typical for dicraeosaurids. The front of the dentary had a hook-like "chin" projecting downwards, as seen in other flagellicaudatans. In the hind part of the lower jaw, the angular bone was very elongated and longer than the surangular bone, unlike in diplodocids.[3][5]
Neck vertebrae
Both proatlases—small, triangular bones located between the first neck vertebra and the skull—were found in articulation with the skull. Of the first neck vertebra (the atlas), only the upper elements, the atlantal neurapophyses, are preserved. These were triangular and wing-like in Bajadasaurus. The second neck vertebra, the axis, is nearly complete. As in Dicraeosaurus, it was twice as high as it was long, while its centrum (or vertebral body) was twice as long as it was high. The diapophyses (sidewards projecting processes) were small and directed backwards as in Suuwassea rather than downwards as in Dicraeosaurus and Amargasaurus. The neural spine of the axis was narrow and not bifurcated; it differed from other sauropods in being vertically oriented (an autapomorphy of the genus), triangular in cross-section, and tapering towards its apex.[3]
Only a single vertebra is known from the remainder of the neck. This vertebra sported the most prominent feature of the genus, an extremely elongated neural spine that was deeply bifurcated into a left and right rod-like element. This neural spine is 58 cm (1 ft 11 in) long and made the vertebra four times taller than it was long. Among sauropods, it was only comparable to those of the related Amargasaurus, but the spine curved toward the front rather than being directed backwards as in that genus. The bases of the rod-like elements were triangular and compressed sideways; their cross-section along most of their length was egg-shaped. Their tips broadened slightly, unlike the acute tips in Amargasaurus. In Amargasaurus, the spines show striations on their surface that indicate that a keratin (horn) sheath was present in life. Although similar striations cannot be observed on the spines of Bajadasaurus due to poor preservation, Gallina and colleagues found it likely that the spines were covered by a horny sheath as well. The exact position of the single preserved vertebra in the neck is unclear: its morphology is comparable to the fifth neck vertebra of Dicraeosaurus, the probable sixth of Brachytrachelopan, and the seventh of Amargasaurus; based on these comparisons, it was tentatively described as the fifth neck vertebra. The centrum of this vertebra was twice as long as it was high and narrowed into a longitudinal keel on the underside; this keel was concave and broader in other dicraeosaurids.[3]
Classification
Dicraeosaurids are one of the three principal families comprising the Diplodocoidea, a major subdivision of sauropod dinosaurs. Within Diplodocoidea, dicraeosaurids form the sister group of the Diplodocidae, while the third family, the Rebbachisauridae, is more distantly related. Dicraeosaurids and diplodocids are united within the group Flagellicaudata, which is named after the whip-like tails characteristic of the group.[8] The number of genera classified within Dicraeosauridae varies between studies. Gallina and colleagues, in their 2019 description of Bajadasaurus, recognised seven additional genera. The earliest is Lingwulong from the late Early to early Middle Jurassic of China,[9] while three genera are known from the Late Jurassic—Brachytrachelopan from Argentina; Suuwassea from the United States; and the eponymous Dicraeosaurus from Tanzania. Early Cretaceous dicraeosaurids include Bajadasaurus as well as Amargatitanis, Pilmatueia, and Amargasaurus, all from Argentina.[10][11]
In their
Bajadasaurus itself can be differentiated from other dicraeosaurids by a unique combination of features, which includes four autapomorphies (a medially extended posttemporal fenestra; slender and long basipterygoid processes; vertically oriented neural spines of the second neck vertebra; and elongated, forward-curved neural spines in the neck).[3]
Cladogram by Gallina and colleagues (2019)[3]
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Cladogram by Whitlock and colleagues (2020)[12]
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Cladogram by Windholz and colleagues (2022) showing their favored result of a clade of South American dicraeosaurids[13]
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Palaeobiology
Function of neural spines
Elongated and deeply bifurcated neural spines were common in dicraeosaurids. In Dicraeosaurus and Brachytrachelopan, they were inclined toward the front but remained much shorter than in Bajadasaurus. Only the spines of Amargasaurus were similarly elongated. The spines of Amargasaurus led to much speculation about their possible life appearance and function. As hypothesised by separate authors, they could have supported a sail or horny sheaths, and could have been used for display, defense, or thermoregulation.[3] Daniela Schwarz and colleagues, in 2007, found that the double-row formed by the bifurcated neural spines along the spine of dicraeosaurids would have enclosed an air sac, the so-called supravertebral diverticulum, that would have been connected to the lungs as part of the respiratory system. In Dicraeosaurus, this air sac would have occupied the entire space between the left and right parts of the spines, while it would have been restricted to the lower third of the spines in Amargasaurus. The upper two thirds would likely have been covered by a horny sheath, as is indicated by longitudinal striations on their surface.[14][3]
Gallina and colleagues, in 2019, considered this the most reasonable interpretation that may likewise be applied to Bajadasaurus. These researchers further argued that horn is more resistant to impact-related fractures than bone, and that a horny sheath would therefore have protected the delicate spines from damage. Fracturing of the spines might have been a critical threat, as the bases of the spines roofed the
Gallina and colleagues further speculated that the spines in both Amargasaurus and Bajadasaurus might have been used for defense. Due to its forward bend, the bifurcated neural spine of the supposed fifth neck vertebra would have reached past the head, and could therefore have been a barrier to predators. Similar, even larger spikes were postulated for the following neck vertebrae. Moderate damage would result in the break-off of the horny tips, leaving the bony spine intact. Amargasaurus lived around 15 million years later than Bajadasaurus, indicating that elongated neural spines were a long-lasting defense strategy.[3]
In 2022, a detailed study was published by Cerda et al. It analyzed the external morphology, internal microanatomy and bone microstructure of the hemispinous processes for the first time from the holotype of Amargasaurus and an indeterminate dicraeosaurid. Proximal, mid and distal portions of both cervical and dorsal hemispinous processes reveal that the cortical bone is formed by highly vascularized fibrolamellar bone interrupted with cyclical growth marks. Both anatomical and histological evidence does not support the presence of a keratinized sheath (i.e. horn) covering the hyperelongated hemispinous processes of Amargasaurus, and either, using a parsimonious criterion, in other dicraeosaurids with similar vertebral morphology. Osteohistology of the spines suggests that they were likely, if not exclusively, covered in a sail of skin. The spines are also highly vascularized and bear cyclical growth marks, adding credence to this theory. This could have applied to the structures possessed by Bajadasaurus as well.[16]
Senses and feeding
The orientation of the semicircular canals, ring-like structures in the inner ear that house the sense of balance, have been used to reconstruct habitual head postures in some dinosaurs and other extinct animals, although the reliability of this method has been repeatedly questioned.[17][18] Palaeontologist Paulina Carabajal Carballido, in 2015, inferred that Amargasaurus would have had its snout facing downwards.[19] Assuming a similar head orientation in Bajadasaurus, Gallina and colleagues hypothesised that the exposure of the eye openings in top view might have allowed the animal to look forward while feeding, while the sight of most other sauropods was limited to the sides. These researchers further speculated that this feature could have allowed for stereoscopic vision.[3] Such stereoscopic vision would only have come into effect when the snout was downturned.[20]
In a 2019 conference abstract reporting ongoing research, Garderes and colleagues estimated how frequently teeth were shed and replaced (tooth replacement rate) as well as the time required for teeth to form (tooth formation time) in Bajadasaurus.[21] Such information can be derived by counting and measuring daily growth lines seen in cross-sections of teeth, and may help to reconstruct feeding habits in extinct animals where direct observation is not possible.[22] Garderes and colleagues estimated that teeth were replaced at an average of 35.75 days in the maxilla, and that formation time was between 158 and 96 days in the maxilla, 176 and 144 days in the premaxilla, and between 138 and 77 days in the dentary. These values are similar to those found in other diplodocoids.[21]
In 2023, Garderes and colleagues suggested that Bajadasaurus might have had a beak-like structure supporting the tooth-bearing portions of the muzzle. As beaks are made out of keratin, which rarely fossilises, their presence can only be indirectly inferred. In Bajadasaurus, such indirect evidence includes, amongst other features, a step in the side surface of the maxilla, which is often present in beaked animals. A beak could have reduced stress on the jaws during feeding and provided an additional cutting edge. However, definitive evidence for the presence of a beak-like structure is missing, and future research is needed to confirm its assumed functional advantages.[5]
Paleoenvironment
Bajadasaurus was recovered from the
References
- ^ "Bajadasaurus pronuspinax". The Paleobiology Database. Archived from the original on 2021-01-22. Retrieved 2021-01-17.
- ^ Yong, Ed (5 February 2019). "This Dinosaur Had a Mohawk of Horns". The Atlantic.
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- ^ Leanza, Héctor A.; Hugo, Carlos A. (2001). "Cretaceous red beds from southern Neuquén Basin (Argentina): age, distribution and stratigraphic discontinuities". Publicación Electrónica de la Asociación Paleontológica Argentina. 7 (1).
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