Yuanjiawaornis
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Yuanjiawaornis Temporal range: Early Cretaceous
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Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Clade: | Dinosauria |
Clade: | Saurischia |
Clade: | Theropoda |
Clade: | Avialae |
Clade: | †Enantiornithes |
Genus: | †Yuanjiawaornis Hu et al., 2015 |
Type species | |
†Yuanjiawaornis viriosus Hu et al., 2015.
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Yuanjiawaornis is an extinct genus of large
History of Discovery
In 2005, near the village of Yuanjiawa, near the town of
In 2015, the type species Yuanjiawaornis viriosus was named and described by Hu Dongyu, Liu Ying, Li Jinhua, Xu Xing and Hou Lianhai. The genus name connects the name of the finding site with the Ancient Greek ornis, "bird". The species name means "powerful" in Latin and refers to its relatively large body size.[1]
The holotype, 'PMOL AB00032, has been found in the Yuanjiawa strata of the Jiufotang Formation dating to the Aptian, about 120 million years old. It consists of a skeleton without a skull, flattened on a plate. Apart from the skull, the cervical vertebrae, the frontal vertebrae, and most of the phalanges of the fingers and toes are missing. The fossil is largely in bandages, although the pelvis has shifted. Nothing of the plumage has been preserved, which is exceptional for bird fossils from Liaoning. However, the pelvis is partly covered by what appears to be a layer of preserved soft tissue. It is probably a young adult specimen. It is part of the collection of the Paleontological Museum of Liaoning, which also collected and prepared it.[1]
Description
Size and distinguishing characteristics
Yuanjiawaornis is a remarkably large species. Most enantiornithines are sparrow- or starling-sized birds, but Yuanjiawaornis must have had a wingspan of nearly half a metre. The femur has a length of forty-three millimetres. That makes the species about the same size as Zhouornis and only slightly smaller than Pengornis, considered to be a giant among the Chinese enantiornithines from the Lower Cretaceous.[1]
No
Skeleton
The fossil preserves seven vertebrae. These have spinous processes with tips touching each other. The sacrum is fully fused to a synsacrum that has been detached from the fossil and is clearly visible from the underside. Its convex anterior facet is wider than that of the middle sacral vertebrae, but the latter is not extremely transverse. The authors pay special attention to the fact that while in older theropods the middle of the sacrum is widened to bear the weight, it is narrower in enantiornithines. The synsacrum has a sharp longitudinal groove over its entire underside. The lateral protrusion of the posterior sacral vertebrae is robust but not extreme. The base of the tail consists of six amphictic "free" vertebrae with long lateral protrusions directed backwards. The tip is fused into a short tapering pygostyle.[1]
On the scapula, the processus acromialis is angled upwards instead of running in line with the blade, if the element is held horizontally, as was indeed the case in the living animal. The protrusion is about as long as the shoulder joint facet. On the wishbone, the branches make an angle of 45° with each other, whereas 60° is normal for relatives. Because the outer edge of each branch is hollowed out, the branches are much narrower at the top than at the bottom; in some relatives this is the other way round. The thin upper edges continue over the hypocleidium so that this protrusion has a cross-section like an inverted T.[1]
The fact that the branches are tapered does not mean that there is a weak connection with the scapulae: the top of the tip has a swelling and the processus acromialis of the scapula protrudes with its tip into a concave facet in that bulge, a morphology unique to Yuanjiawaornis. The sternum is wider than long, with a convex leading edge. The sword-shaped protrusion at the centre of the hind edge is wider than the protrusions at the outer corners; in most relatives, they are the same width. All three protrusions project to the rear at about the same distance. The outer protrusions are only slightly broadened at their ends, while they usually end in a fan shape. The intermediate protrusions at the rear edge are remarkably well developed. They end in a point and curve slightly inwards.[1]
Arm and hind leg have approximately the same length as in most Enantiornithes. That the upper surface of the humerus is flat is quite exceptional, but that the deltopectoral ridge gradually passes into the shaft is quite normal. The ulna is slightly longer than the humerus at fifty-three millimetres. The straight and half as wide radius has a groove on the side of the interspace with the ulna, as do some relatives. The hand is not fused in the holotype, a sign that it was a young adult specimen.[1]
The lower leg forms a fused tibiotarsus over five centimetres long. On the tibia is a prominent crista fibularis. The fibula is relatively short, lying along with the upper 30% of the tibia and ending in a tapering point below. The first metatarsal is P-shaped in internal view and not curved around the longitudinal axis. The second metatarsal is the widest element of the metatarsal and clearly longer than the fourth metatarsal. At the lower hinge joint of the third metatarsal, the inner edge projects more strongly towards the sole side than the outer edge, as in Soroavisaurus and Neuquenornis. The fourth metatarsal has no hinge joint but ends in a rounded tip that allows the toe more lateral freedom of movement. The first pedal ungual, which was directed backwards, is robust and strongly curved. Another preserved foot claw of uncertain position is straighter.[1]
Phylogeny
No exact