Palaeochenoides Temporal range: Late Oligocene (see text) | |
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Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Aves |
Order: | † Odontopterygiformes |
Family: | † Pelagornithidae |
Genus: | † Palaeochenoides Shufeldt, 1916 |
Species: | †P. mioceanus |
Binomial name | |
†Palaeochenoides mioceanus Shufeldt, 1916 | |
Synonyms | |
Palaeochenoides miocaenus( lapsus ) |
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. [1]
Only a single species, Palaeochenoides mioceanus, is known to date. The first fossil assigned to it – a distal right femur piece – was found near the source of the Stono River in Charleston County, South Carolina (United States). At first it was believed to be from the Early Miocene Hawthorne Formation – its specific name, seemingly referring to the "Miocene ocean" as presumed habitat but actually a simple spelling error for "miocaenus", "from the Miocene", that was never corrected and hence became valid – alludes to this. But in fact no Hawthorne Formation rocks were known in the Charleston region when the fossil was found, and consequently modern authors consider a Chattian (Late Oligocene) age more likely and suggest the fossil came from the Cooper or Chandler Bridge Formation. Specimen MCZ 2514, a distal left tarsometatarsus fragment from the Ashley River, was more tentatively assigned to P. mioceanus later on; it was also erroneously believed to be from the Hawthorne Formation. [2]
The holotype femur's classification mirrors the recently renewed uncertainties about the pseudotooth birds' placement. At the time of its description, when it was still much surrounded by matrix, it was believed to be from a giant goose or swan. This is referred to in the genus name, which means "ancient goose-like [bird]". But only one year later, the bone had been prepared from the matrix and was submitted to an improvised phenetic analysis of its details. It was compared to that of Anserinae and Dendrocygninae (other Anseriformes were either similar to these or too unlike P. mioceanus), as well as with Pelecanidae, Phaethontidae and Phalacrocoraciformes [3] of the "higher waterbird" radiation, and found to resemble the former in one, the latter in 4 out of 5 traits. Some minor details of the femur were also unlike in the Anseriformes. The study proposed the fossil bird to have been "a large steganopod [...] somewhat larger than Pelecanus erythrorhynchos or P. onocrotalus ," [4] and not securely assignable to a known family. But as cladistic analysis had not yet been developed, it was of course not studied whether the similarities between P. mioceanus and the "higher waterbirds" are apomorphies. It has been noted, however, that adaptation to oceanic habits, has induced in pseudotooth bird legs and feet features convergent to other seabirds. Still, the fossil is a rather good specimen, considering how little humerus material known from pseudotooth birds; a recent cladistic analysis (which did not include P. mioceanus) did not put much emphasis on humerus traits, for example, as so few good fossils are known. [5]
When Witmer Stone, then editor of The Auk , commented on the taxonomic confusion that the bird caused during less than 25 months after its description, he noted:
"It would seem desirable that those who name fossil birds should not fashion their generic names on those of existing birds as it is embarrassing to find them shifted into other families or orders where the name becomes somewhat of a misnomer!" [6]
Of the tarsometatarsus, only the end remains, but this is complete and even not very much abraded. Only on the edges of the outer trochleae does significant material seem to be lost. Altogether, the bone is very similar to that of the sympatric and probably contemporary Tympanonesiotes wetmorei , only appearing a bit less albatross-like. The spread of the toes must have resembled that found in a fulmar quite a lot, by contrast. The thin-walled bone has a second toe trochlea that attaches notably kneewards from the others and is angled slightly outwards while the hallux was vestigial or missing, as is typical for the pseudotooth birds. The fossil is about one-quarter larger than that of Tympanonesiotes, with a maximum end width of 34.7 mm (1.37 in)– probably a bit more in life, as the trochlea rims are eroded away. The shaft is 22.3 mm (0.88 in) wide at the point where it flares into the trochleae. It was thus more than twice as large as "Odontoptila inexpectata" [7] from the Late Paleocene/Early Eocene of the Ouled Abdoul Basin (Morocco), and – like Osteodontornis orri – thus belonged to the large pseudotooth birds, with a wingspan of more than 5, perhaps as much as 6 m (16–20 ft). Its bill was presumably long and massive as in its relatives, and in length the bird exceeded the largest pelicans. [8]
The early systematic uncertainties have been noted again in recent times, in the scope of the debate whether the pseudotooth birds were Galloanseres closely related to waterfowl or Neoaves related to pelicans. Meanwhile, as a presumed pelican relative, P. mioceanus was allied with Cyphornis (another pseudotooth bird, known only from a proximal left tarsometatarsus) and placed in a family Cyphornithidae. This was subsequently assigned to a "pelecaniform" suborder Cladornithes. But the enigmatic Late Oligocene Cladornis – the type genus of that supposed suborder – from the Argentinian part of Patagonia is known from a distal right tarsometatarsus only, and thus was not directly comparable to Palaeochenoides and Cyphornis. Tympanonesiotes wetmorei , yet another pseudotooth bird, known from a distal right tarsometatarsus fragment, was initially presumed to be similar to Cladornis however, and also to Cyphornis; consequently, the three genera were allied simply because of their size and some similarities to the corresponding bones of pelicans. Today however, Cladornis is more generally held to be a terrestrial bird rather than a seabird. [9]
As regards the supposed Cyphornithidae, most if not all pseudotooth birds placed there are probably closely related to the better-known Pelagornis , type genus of the family Pelagornithidae. And even if Cyphornis is the senior synonym of Palaeochenoides and Tympanoneisiotes (which is not overly likely due to size differences), according to the rules of zoological nomenclature the family name Pelagornithidae would not be affected. Cyphornithidae would almost certainly be a junior synonym of Pelagornithidae even if the pseudotooth birds are (as some have proposed) divided into several families – rather than being all placed in the Pelagornithidae as is usual nowadays – as Cyphornis, Osteodontornis , Palaeochenoides, Pelagornis and perhaps the smaller Tympanoneisiotes appear to be very closely related and are probably part of a monophyletic lineage of (usually) giant pseudotooth birds. As at the time of its description no adequate comparative material was known, it was explicitly cautioned that P. mioceanus might include Pseudodontornis– which may actually be synonymous with Pelagornis. [10]
The darters, anhingas, or snakebirds are mainly tropical waterbirds in the family Anhingidae, which contains a single genus, Anhinga. There are four living species, three of which are very common and widespread while the fourth is rarer and classified as near-threatened by the IUCN. The term snakebird is usually used without any additions to signify whichever of the completely allopatric species occurs in any one region. It refers to their long thin neck, which has a snake-like appearance when they swim with their bodies submerged, or when mated pairs twist it during their bonding displays. "Darter" is used with a geographical term when referring to particular species. It alludes to their manner of procuring food, as they impale fishes with their thin, pointed beak. The American darter is more commonly known as the anhinga. It is sometimes called "water turkey" in the southern United States; though the anhinga is quite unrelated to the wild turkey, they are both large, blackish birds with long tails that are sometimes hunted for food.
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.
Anas is a genus of dabbling ducks. It includes the pintails, most teals, and the mallard and its close relatives. It formerly included additional species but following the publication of a molecular phylogenetic study in 2009 the genus was split into four separate genera. The genus now contains 31 living species. The name Anas is the Latin for "duck".
Frank Alexander Wetmore was an American ornithologist and avian paleontologist. He was the sixth Secretary of the Smithsonian Institution. He was also an elected member of both the American Philosophical Society and the United States National Academy of Sciences.
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.
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.
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.
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.
Titanohierax gloveralleni, also known as the Bahama eagle, is a large species of extinct hawk from the Late Quaternary of the Caribbean. Remains of the animal have been found on multiple islands in The Bahamas. The animal is known from a handful of bones found across multiple islands, including a tarsometatarsus, partial metacarpal, and nearly complete right ulna. The animal was described based off the former two by Alexander Wetmore in 1937, with all other currently referred material being assigned by Storrs Olson and colleagues in 1982.
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.