Drepanosaur


Drepanosaurs are a group of strange reptiles that lived between the Carnian and Rhaetian stages of the late Triassic Period, approximately between 230 and 210 million years ago. The various species of drepanosaurid were characterized by odd specialized grasping limbs and often prehensile tails, adaptions for arboreal and/or possibly aquatic lifestyles. Fossils of drepanosaurs have been found in Arizona, New Mexico, New Jersey, Utah, England, and northern Italy. The name is taken from the family's namesake genus Drepanosaurus, which means "sickle lizard", a reference to their strongly curved claws.

Description

Drepanosaurs are notable for their distinctive, triangular skulls, which resemble the skulls of birds. Some drepanosaurs, such as Avicranium, had pointed, toothless, bird-like beaks. This similarity to birds may have led to the possible mis-attribution of a drepanosaur skull to the would-be "first bird", Proavis.
Drepanosaurs featured a suite of bizarre, almost chameleon-like skeletal features. Above the shoulders of most species was a specialized "hump" formed from fusion of the vertebrae, possibly used for advanced muscle attachments to the neck, and allowing for quick forward-striking movement of the head. Many had derived hands with two fingers opposed to the remaining three, an adaptation for grasping branches. Some individuals of Megalancosaurus had a primate-like opposable toe on each foot, perhaps used by one sex for extra grip during mating. Most species had broad, prehensile tails, sometimes tipped with a large "claw", again to aid in climbing. These tails, tall and flat like those of newts and crocodiles, have led some researches to conclude that they were aquatic rather than arboreal. In 2004, Senter dismissed this idea, while Colbert and Olsen, in their description of Hypuronector, state that while other drepanosaurs were probably arboreal, Hypuronector was uniquely adapted to aquatic life. The tail of this genus was extremely deep and non-prehensile – much more fin-like than members of the more exclusive group Drepanosauridae.
Aerial locomotion has been attributed to at least two drepanosaur genera: Megalancosaurus and Hypuronector. The first was originally suggested by Ruben et al. 1998 on the basis of bird-like characters and limb proportions, but while not ruled out entirely they have since been largely dismissed, due to the animal's more clunky, chameleon-like anatomy. The latter, however, is much more likely a glider or flyer, due to the elongated forelimbs.

History and classification

Drepanosaurs have been difficult to pin down in terms of their phylogenetic position. Various studies have proposed that drepanosaurs are protorosaurian archosauromorphs, lepidosauromorphs related to kuehneosaurids, non-saurian diapsids related to weigeltisaurids, or basal neodiapsids.

Early studies

When Drepanosaurus and Dolabrosaurus were first discovered, they were each considered early lepidosaurians, ancestral to modern lizards. Megalancosaurus was first believed to be a 'thecodont' upon its discovery in 1980, but later studies placed it as a 'prolacertiform', and perhaps even an ancestor to birds, although this latter hypothesis has not been supported by subsequent studies.

Drepanosaurs outside Neodiapsida: Avicephala and Simiosauria

A 2004 study by Senter placed drepanosaurs with the coelurosauravids.
Within Avicephala, Senter named the group Simiosauria for the extremely derived tree-dwelling forms. Simiosauria was defined as "all taxa more closely related to Drepanosauridae than to Coelurosauravus or Sauria." However, Renesto and colleagues found drepanosaurids to lie within Sauria, which would make the clade Simiosauria obsolete. Senter found that Hypuronector, originally described as a drepanosaurid, actually lies just outside that clade, along with the primitive drepanosaur Vallesaurus. He also recovered a close relationship between the drepanosaurids Dolabrosaurus and Megalancosaurus.
The following cladogram was found by Senter in his 2004 analysis.
A clade containing drepanosaurids, Longisquama and Coelurosauravus was also recovered in an earlier analysis conducted by John Merck ; however, in Merck's analysis this clade was nested within Neodiapsida, as the sister taxon of Sauria.
Renesto and Binelli found that when pterosaur Eudimorphodon was added to Senter's original matrix it was found to be a member of Senter's Avicephala. The authors also conducted a second analysis, this time based on a character set and matrix updated by scoring additional characters previously reported as unknown and by adding a few relevant characters. This analysis recovered drepanosaurids as the sister taxon of Eudimorphodon; the clade containing pterosaurs and drepanosaurids was recovered as the sister taxon of Archosauriformes. Longisquama and Coelurosauravus were not found to be closely related to drepanosaurids, but instead were recovered as non-neodiapsid diapsid as in Senter's analysis. However, according to Renesto and Binelli it is feasible that this might be a result of poor knowledge of Longisquama rather than a reflection of its true phylogenetic position. The authors did note that there are similarities in the structure of forelimb and shoulder region of Longisquama and all or some drepanosaurids ; they stressed that they could not rule out that at least some of the similarities are convergent due to similar mode of life, and that they did not examine Longisquama firsthand, but stated that further studies of drepanosaurids should take the hypothesis that Longisquama might be a drepanosaurid into consideration.

Drepanosaurs as relatives of kuehneosaurids

Drepanosaurids were also found to be non-saurian neodiapsids in an analysis conducted by Johannes Müller ; however, in this analysis Drepanosauridae were not found to be closely related to Coelurosauravus, but rather they were recovered as the sister taxon of Kuehneosauridae. In a 2009 study Susan E. Evans conducted a phylogenetic analysis using a modified version of Müller's matrix. Evans also recovered Drepanosauridae as the sister taxon of the clade containing basal kuehneosaurid Pamelina and the rest of Kuehneosauridae; however, unlike in Müller's analysis, drepanosaurids and kuehneosaurids were recovered as non-lepidosaurian lepidosauromorphs. Evans did note that the two families share few synapomorphies, with Müller citing only two. One of them is the increased angulation of the zygapophyses in the posterior dorsal vertebrae; Evans noted that this character is also present in the skeletons of lizards belonging to the genus Draco, "and is likely to be functional ". The other one, the enclosed thyroid fenestra in the pelvis, "may be variable in the British kuehneosaurs and remains unknown in Pamelina", according to Evans. The author also noted that there are many differences between the skull of drepanosaurids and kuehneosaurids, and that the only skull characters shared by members of both families are primitive neodiapsid characters.

Drepanosaurs as archosauromorphs and the abandonment of Avicephala

Dilkes argued that drepanosaurs were close relatives of tanystropheids, and his phylogenetic analysis has been used by many other authors since his study. Gottmann-Quesada and Sander included one member of Drepanosauridae, Megalancosaurus, in their analysis of archosauromorph relationships; it was found to be one of the basalmost known members of Archosauromorpha and the sister taxon of Protorosaurus.
In a later study Renesto et al. demonstrated that Senter cladogram was based on poorly defined characters and dataset. The resulting phylogeny was therefore very unusual compared to any other previous study on drepanosaurs or related taxa. The new cladogram proposed in this last study abandoned both Avicephala and Simiosauria. Senter's definition of Simiosauria included Sauria as an external specifier, causing the clade to become obsolete in Renesto et al.'s study. Renesto and colleagues instead defined a new clade, Drepanosauromorpha, as the least inclusive clade containing Hypuronector limnaios and Megalancosaurus pronenesis. Another more inclusive taxon, Elyurosauria, was erected, in order to include all the drepanosaurs with coiled tails, Vallesaurus is thus more derived than Hypuronector. Drepanosaurus and Megalancosaurus are also in a new taxon named Megalancosaurinae.
The alternative cladogram presented in Renesto et al..
Renesto et al. used modified versions of the matrices from the analyses of Laurin and Dilkes in order to determine the phylogenetic position of Drepanosauromorpha within Diapsida. The analyses using Laurin's matrix recovered drepanosaurs either as the sister group of the clade containing Prolacerta, Trilophosaurus and Hyperodapedon, i.e. Archosauromorpha, or in unresolved polytomy with Archosauromorpha and Lepidosauromorpha. The analyses using Dilkes's matrix recovered drepanosaurs either as "protorosaur" archosauromorphs and the sister taxon to the clade containing Tanystropheus, Langobardisaurus and Macrocnemus, or in unresolved polytomy with Lepidosauromorpha, Choristodera and several archosauromorph clades. Renesto et al. concluded that avicephalan synapomorphies proposed by Senter are merely evolutionary convergences caused by common lifestyle shared by drepanosaurids, coelurosauravids and Longisquama. The authors did not rule out the possibility that drepanosaurs and Longisquama might really be close relatives, but stated that additional data about Longisquama needs to be reported to test that.

Drepanosaurs as basal diapsids

Pritchard and Nesbitt employed a phylogenetic analysis in their description of Avicranium, a new genus of drepanosaur. This phylogenetic analysis found that Drepanosauromorpha was one of the earliest diverging groups of diapsids in the analysis, even more basal than weigeltisaurids, tangasaurids, and younginids. However, they were not found to be as basal as Petrolacosaurus, one of the earliest and most primitive diapsids known. Although drepanosaurs are only known from the late Triassic, this new finding suggests that the first members of the drepanosauromorph lineage evolved much earlier, in the Permian.