Pseudodontornis | |
---|---|
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Aves |
Order: | † Odontopterygiformes |
Family: | † Pelagornithidae |
Genus: | † Pseudodontornis Lambrecht, 1930 |
Species | |
P. longidentata Harrison & C.A.Walker, 1976 (disputed) Contents | |
Synonyms | |
Neodontornis Harrison & C.A.Walker, 1976 (but see text) |
Pseudodontornis is a rather disputed genus of the prehistoric pseudotooth birds. The pseudotooth birds or pelagornithids were probably rather close relatives of either pelicans and storks, or of waterfowl, and are here placed in the order Odontopterygiformes to account for this uncertainty. Up to five species are commonly recognized in this genus. [1]
But actually the genus Pseudodontornis is barely more than a nomen nudum . And though it served as the namesake for a popular alternate common name of the pseudotooth birds – "pseudodontorns" or "pseudodontornids" – that was extensively used in the 20th century, current authors prefer "pelagornithids" because this is less fraught with taxonomic dispute. Pelagornis , the type genus of the family Pelagornithidae, was long unrecognized as a pseudotooth bird as it was known mainly from arm bones. Thus, though the Pelagornithidae were long recognized as very distinct, they were allied with the cormorant and gannet in suborder Sulae (or superfamily Sulides in suborder Pelecanae) before it was recognized that they are actually pseudotooth birds. The presumed family "Pseudodontornithidae", deemed invalid nowadays, had been recognized as pseudotooth birds all along, as they were established based on skull fossils preserving parts of the "toothed" beak. [2]
One of the species typically placed here – though in fact one that is rather unlikely to actually belong in Pseudodontornis – is the only smallish pseudotooth bird species known with certainty from the Neogene as of 2009. However, the enigmatic Tympanonesiotes was of similar size and may also be of Neogene age. [3]
The type species P. longirostris (initially placed in Odontopteryx ) is known from an incomplete but quite well preserved [4] fossil skull of unknown age and origin; it was bought from a merchant who had acquired it from a sailor returning from Brazil, but the specimen is widely presumed to be actually from the North Sea region. It is tentatively assigned an Eocene age, if only due to the fact that suitable lagerstätten of different age were not known when the specimen was discovered. If not from Europe however, its age is truly undeterminable. A pseudotooth bird's lower right dentary piece (specimen YPM 4617) from near Charleston, South Carolina (United States) – apparently dredged up from near the source of the Stono River – was provisionally assigned to P. longirostris as it closely matches the holotype in size and appearance. At first the South Carolina fossil was believed to be from the Early Miocene Hawthorne Formation, but in fact no Hawthorne Formation sediments were known in the Charleston region when the fossil was found. Consequently, modern authors consider a Chattian (Late Oligocene) age more likely and suggest the fossil came from the Cooper or Chandler Bridge Formation. Some fossil remains from the Middle Miocene Bahía Inglesa Formation of Chile were prematurely affiliated with P. longirostris in error; they are, if anything, of Pelagornis. [5]
The holotype skull seems to have been lost, but judging from the description the genus might actually be a junior synonym of the (probably) Late Oligocene Palaeochenoides , or either or both might properly belong in the otherwise Miocene Pelagornis . Like in that latter genus, between each two of P. longirostris' large "teeth" was a single smaller one; whether there were even smaller points in addition as in Pelagornis' allopatric contemporary Osteodontornis cannot be ascertained. Its paroccipital process is not as markedly elongated back- and downwards as in the Ypresian (Early Eocene) Dasornis and Odontopteryx and seems to be in a more apomorphic condition, which would agree with a late Paleogene, possibly even (like Pelagornis) Neogene age for the holotype. Its quadrate bone had a broad main shaft like in Odontopteryx which like in that genus bore a broad lateral ridge that was not, however, curved, but straight as in Osteodontornis; like in that genus, the forward center of the quadrate's ventral articulation ridge extended upwards. Unlike in either Odontopteryx or Osteodontornis, the quadrate of P. longirostris had a socket for the quadratojugal that was displaced dorsally. However its relationships may be, there can be no doubt that the mysterious skull was from one of the large pelagornithids, and the living bird must have had a wingspan of more than 5, quite possibly as much as 6 m (16–20 ft). [6]
It is not entirely resolved whether the other four Pseudodontornis are indeed valid and distinct species. P. tenuirostris was proposed for a Late Paleocene-Early Eocene [7] pseudotooth bird from Herne Bay, Kent (England), and P. tshulensis[ verification needed ] is an approximately contemporary species from Zhylga (Kazakhstan) that is sometimes placed in Odontopteryx. P. longidentata was described from the Ypresian London Clay of the Isle of Sheppey (England); it is probably a junior synonym of Macrodontopteryx oweni (or Odontopteryx oweni) or – more likely due to its size – Dasornis emuinus . [8]
"P." stirtoni is a supposed Neogene member of this lineage. It was described from a crushed skull and femur found on Motunau Beach on the eastern coast of the South Island, New Zealand. It, too, lacks crucial data; though there are suggestions that it is from the Greta Siltstone Formation or elsewhere in the Late Pliocene [9] (Waitotaran) and dates back only 3.5 Ma (million years ago) – which would make it one of the last of the pseudotooth birds –, its age can only be constrained to some time during the Miocene or Pliocene, i.e. a period of 20 million years. The Motunau Beach skull resembles the roughly contemporary Osteodontornis of the North Pacific in having a jugal arch that is short and very stout behind the orbital process of the prefrontal bone – apparently unlike in P. longirostris. But the fossil femur measures 12.95 cm (5.10 in) – only half as large as that of Osteodontornis (or P. longirostris, for that matter). "P." stirtoni was thus marginally larger than the Australian pelican (Pelecanus conspicillatus) of our time, or about the size of the small Paleogene pseudotooth bird Odontopteryx toliapica . Also of this species might be a proximal right radius and a distal right humerus – McKee collection A080 183 and A111 182, respectively – from the Waipipian (around 3 Ma) Tangahoe Mudstone Formation at Hāwera on New Zealand's North Island. They are a fairly good match in size for the "P." stirtoni holotype. Though the proposed separation of this species in a monotypic genus Neodontornis has been generally rejected, given the fossils' distinctness from P. longirostris in age, features, occurrence and size, it may just as well be appropriate. [10]
Pseudotooth bird fossils from Early to Middle Miocene Astoria and perhaps also Nye Formations of Oregon have also been assigned to Pseudodontornis. This is due to a writer's error, however, and should be "pseudodontornids". These remains are probably referrable to Osteodontornis. [11]
Anseriformes is an order of birds also known as waterfowl that comprises about 180 living species of birds in three families: Anhimidae, Anseranatidae, and Anatidae, the largest family, which includes over 170 species of waterfowl, among them the ducks, geese, and swans. Most modern species in the order are highly adapted for an aquatic existence at the water surface. With the exception of screamers, males have penises, a trait that has been lost in the Neoaves. Due to their aquatic nature, most species are web-footed.
The mousebirds are birds in the order Coliiformes. They are the sister group to the clade Cavitaves, which includes the Leptosomiformes, Trogoniformes (trogons), Bucerotiformes, Piciformes and Coraciformes. This group is now confined to sub-Saharan Africa, and it is the only bird order confined entirely to that continent, with the possible exception of turacos which are considered by some as the distinct order Musophagiformes, and the cuckoo roller, which is the only member of the order Leptosomiformes, and which is found in Madagascar but not mainland Africa. Mousebirds had a wider range in the Paleogene, with a widespread distribution in Europe and North America during the Paleocene.
Plotopteridae is an extinct family of flightless seabirds with uncertain placement, generally considered as member of order Suliformes. They exhibited remarkable convergent evolution with the penguins, particularly with the now extinct giant penguins. That they lived in the North Pacific, the other side of the world from the penguins, has led to them being described at times as the Northern Hemisphere's penguins, though they were not closely related. More recent studies have shown, however, that the shoulder-girdle, forelimb and sternum of plotopterids differ significantly from those of penguins, so comparisons in terms of function may not be entirely accurate. Plotopterids are regarded as closely related to Anhingidae (darters) and Phalacrocoracidae (cormorants). On the other hand, there is a theory that this group may have a common ancestor with penguins due to the similarity of forelimb and brain morphology. However, the endocast morphology of stem group Sphenisciformes differs from both Plotopteridae and modern penguins.
Osteodontornis is an extinct seabird genus. It contains a single named species, Osteodontornis orri, which was described quite exactly one century after the first species of the Pelagornithidae was. O. orri was named after Santa Barbara Museum of Natural History paleontologist Phil C. Orr, for his recognition of the importance of the specimen.
The Pelagornithidae, commonly called pelagornithids, pseudodontorns, bony-toothed birds, false-toothed birds or pseudotooth birds, are a prehistoric family of large seabirds. Their fossil remains have been found all over the world in rocks dating between the Early Paleocene and the Pliocene-Pleistocene boundary.
Paleontology or palaeontology is the study of prehistoric life forms on Earth through the examination of plant and animal fossils. This includes the study of body fossils, tracks (ichnites), burrows, cast-off parts, fossilised feces (coprolites), palynomorphs and chemical residues. Because humans have encountered fossils for millennia, paleontology has a long history both before and after becoming formalized as a science. This article records significant discoveries and events related to paleontology that occurred or were published in the year 1976.
Odontopteryx is a genus of the extinct pseudotooth birds or pelagornithids. These were probably rather close relatives of either pelicans and storks, or of waterfowl, and are here placed in the order Odontopterygiformes to account for this uncertainty.
Caspiodontornis is a genus of the prehistoric pseudotooth birds of somewhat doubtful validity. These were probably rather close relatives of either pelicans and storks, or of waterfowl, and are here placed in the order Odontopterygiformes to account for this uncertainty.
Cyphornis is a genus of the prehistoric pseudotooth birds. These were probably rather close relatives of either pelicans and storks, or of waterfowl, and are here placed in the order Odontopterygiformes to account for this uncertainty.
Dasornis is a genus of prehistoric pseudotooth birds. These were probably close relatives of either pelicans and storks or waterfowl; they are placed in the order Odontopterygiformes to account for this uncertainty.
Gigantornis eaglesomei is a very large prehistoric bird described from a fragmentary specimen from the Eocene of Nigeria. It was originally described as a representative of the albatross family, Diomedeidae, but was later referred to the pseudotooth or bony-toothed bird family, Pelagornithidae. Gigantornis is one of the largest pseudotooth birds, with an inferred wingspan of about 6 m (20 ft) it is among the largest birds ever.
Palaeochenoides is a genus of the prehistoric pseudotooth birds of somewhat doubtful validity. These were probably rather close relatives of either pelicans and storks, or of waterfowl, and are here placed in the order Odontopterygiformes to account for this uncertainty.
Pelagornis is a widespread genus of prehistoric pseudotooth birds. These were probably rather close relatives of either pelicans and storks, or waterfowl, and are placed here in the order Odontopterygiformes to account for this uncertainty.
Tympanonesiotes is a somewhat doubtfully valid genus of the prehistoric pseudotooth birds. These were probably rather close relatives of either pelicans and storks, or of waterfowl, and are here placed in the order Odontopterygiformes to account for this uncertainty.
Macrodontopteryx is a genus of the prehistoric pseudotooth birds of somewhat doubtful validity. These animals were probably rather close relatives of either pelicans and storks, or of waterfowl, and are here placed in the order Odontopterygiformes to account for this uncertainty.
The Odontoanserae is a proposed clade that includes the family Pelagornithidae and the clade Anserimorphae. The placement of the pseudo-toothed birds in the evolutionary tree of birds has been problematic, with some supporting the placement of them near the orders Procellariformes and Pelecaniformes based on features in the sternum.
Plotopterum is an extinct genus of flightless seabird of the family Plotopteridae, native to the North Pacific during the Late Oligocene and the Early Miocene. The only described species is Plotopterum joaquinensis.
Tonsala is an extinct genus of Plotopteridae, a family of flightless seabird similar in biology with penguins, but more closely related to modern cormorants. The genus is known from terrains dated from the Late Oligocene of the State of Washington and Japan.
Phocavis is an extinct genus of flightless seabird, belonging to the family Plotopteridae, and distantly related with modern cormorants. Its fossils, found in the Keasey Formation in Oregon, are dated from the Late Eocene.