This phylogeny of pterosaurs entails the various phylogenetic trees used to classify pterosaurs throughout the years and varying views of these animals. Pterosaur phylogeny is currently highly contested and several hypotheses are presented below.

Highly simplified pterosaur phylogeny – topology based on that recovered by Unwin[1]

Unwin (2003)

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The matrix includes 19 pterosaur groups (most of which are supra-specific) plus a single outgroup (Euparkeria capensis). The taxa were coded for 60 characters.

Pterosauria 

Kellner (2003)

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The matrix includes 39 valid pterosaur species, although Rhamphorhynchus longicaudus and Nyctosaurus bonneri are usually considered to be synonymous with R. muensteri and N. gracilis respectively, plus a three outgroup species (Ornithosuchus longidens, Herrerasaurus ischigualastensis and Scleromochlus taylori). The taxa were coded for 74 characters.

Andres and Myers (2013)

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In 2010, Brian Blake Andres wrote a review of pterosaur phylogeny in his dissertation. His phylogenetic analysis combined data mainly from three different matrixes: Kellner's original analysis (2003) and its updates (Kellner (2004), Wang et al. (2005) and Wang et al. (2009)), Unwin's original analysis (2003) and its updates (Unwin (2002), Unwin (2004), Lu et al. (2008) and Lu et al. (2009)) and previous analyses by Andres et al. (2005), Andres and Ji (2008) and Andres et al. (2010). Additional characters are taken from DallaVecchia (2009), Bennett' analyses (1993–1994) and various older, non-phylogenetic, papers.[2]

The matrix includes 100 valid pterosaur species plus a single outgroup (Euparkeria capensis). This represents 70.4% of 142 known pterosaur species back then. These were scored for 183 morphological characters (compared to 3 outgroups plus 57 ingroups which were scored for 89 characters of Wang et al. 2009 [the latest version of Kellner's analysis] and to 1 outgroups plus 59 ingroups which were scored for 117 characters of Lu et al. 2012 [the latest version of Unwin's analysis]).[3] The resultant topology is well supported and more resolved than previous analyses. Furthermore, it codes only species as terminal taxa, (unlike some analyses, e.g., Unwin (2003) who used mainly families) and uses the holotype specimens for the codings (unlike some analyses, e.g., Kellner (2003)).[2] This phylogenetic analysis was used by Richard J. Butler, Stephen L. Brusatte, Brian B. Andres and Roger B. J. Benson (2012) to assess the morphological diversity and fossil sampling biases of the Pterosauria.[3] A paper focusing on the pterosaur phylogeny (Andres) was published in a book named "The Pterosauria".[4] An updated and more resolved version of this phylogeny was published formally by Andres and Timothy Myers in 2013, containing 185 characters and 109 ingroup taxa. Below is a cladogram showing these results after the exclusion of three taxa that can be coded only for one character (clade names follow Andres & Myers, 2013).[5]

Pterosauria 

Sordes pilosus

Changchengopterus pani

 Anurognathidae 

Haopterus gracilis

Ornithocheiroidea

See also

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References

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  1. ^ Naish D, Simpson M, Dyke G (2013) A New Small-Bodied Azhdarchoid Pterosaur from the Lower Cretaceous of England and Its Implications for Pterosaur Anatomy, Diversity and Phylogeny. PLoS ONE 8(3): e58451. https://doi.org/10.1371/journal.pone.0058451
  2. ^ a b Andres, Brian Blake (2010). Systematics of the Pterosauria. Yale University. p. 366. A preview that shows the cladogram without clade names
  3. ^ a b Richard J. Butler; Stephen L. Brusatte; Brian B. Andres; Roger B. J. Benson (2012). "How do geological sampling biases affect studies of morphological evolution in deep time? A case study of the Pterosauria (Reptilia: Archosauria)". Evolution. 66 (1): 147–162. doi:10.1111/j.1558-5646.2011.01415.x. PMID 22220871. S2CID 205783384.
  4. ^ Andres, Brian Blake (2014). "A review of pterosaur phylogeny". In Martill, D.; Unwin, D.; Loveridge, R. F. (eds.). The Pterosauria. Cambridge University Press.
  5. ^ Andres, B.; Myers, T. S. (2013). "Lone Star Pterosaurs". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 103 (3–4): 383–398. Bibcode:2012EESTR.103..383A. doi:10.1017/S1755691013000303. S2CID 84617119.
  • Pterosauria @ Mikko's Phylogeny Archive
  • Kellner, A. W. A., (2003): Pterosaur phylogeny and comments on the evolutionary history of the group. pp. 105–137. — in Buffetaut, E. & Mazin, J.-M., (eds.) (2003): Evolution and Palaeobiology of Pterosaurs. Geological Society of London, Special Publications 217, London, 1–347
  • Peters, D., (2007): The origin and radiation of the Pterosauria — in Flugsaurier: The Wellnhofer pterosaur meeting, Munich, 2007, 27–28
  • Unwin, D. M., 2003: On the phylogeny and evolutionary history of pterosaurs. pp. 139–190. — in Buffetaut, E. & Mazin, J.-M., (eds.) (2003): Evolution and Palaeobiology of Pterosaurs. Geological Society of London, Special Publications 217, London, 1–347
  • Wellnhofer, P., (1991): The Illustrated Encyclopedia of Pterosaurs. Salamander Books Ltd., London, pp. 192