In 2003, Alexander Kellner gave the exact definition as a clade:[10] the group was composed out of the latest common ancestor of Dsungaripterus, Noripterus and “Phobetor”, and all its descendants. As synapomorphies he gave the next six characteristics: a relatively small eye-socket, which is placed high up the skull; an opening below the eye-socket; a high ridge across the snout, which starts in front of the nasal opening and ends behind the eye-sockets; the maxilla reaches out down- and backwards; the absence of teeth in the first part of the jaws; the teeth in the back of the upper jaw are the biggest; the teeth have a wide oval basis. Kellner pointed out all members of the group, except for Dsungaripterus itself, were known from fragmentary remains, so only the last characteristic could be established for sure in all members.[10]
In the same year, David Unwin gave a slightly different definition: the last common ancestor of Dsungaripterus weii and Noripterus complicidens, and all its descendants.[11] The group belongs to the Dsungaripteroideasensu Unwin and is presumably relatively closely related to the Azhdarchoidea. According to Unwin, Germanodactylus is the sister taxon to the group, but his analyses have this outcome as the only ones. According to an analysis by Brian Andres from 2008, the Dsungaripteridae are closely related to the Tapejaridae, what would actually make them members of the Azhdarchoidea.[12] Recent examinations of the palate of Dsungaripterus support an azhdarchoid interpretation.[13]
Below is a cladogram showing the results of a phylogenetic analysis presented by Andres and colleagues in 2014. They recovered Dsungaripteridae within the Dsungaripteromorpha (a subgroup within the Azhdarchoidea), sister taxon to the subfamily Thalassodrominae. The found Dsungaripteridae to consist of two subfamilies called Dsungaripterinae and Noripterinae (which consists only of Noripterus species). Their cladogram is shown below.[19]
In 2019, a different topology, this time by Kellner and colleagues, was published. In this study, Dsungaripteridae was recovered outside the Azhdarchoidea, within the larger group Tapejaroidea. The cladogram of the analysis is shown below.[20]
^Bonaparte, J.F., and Sanchez, T.M. (1975). Restos de un pterosaurio Puntanipterus globosus de la formación La Cruz provincia San Luis, Argentina. Actas Primo Congresso Argentino de Paleontologia e Biostratigraphica2:105-113. [Spanish]
^Unwin, David M. (2006). The Pterosaurs: From Deep Time. New York: Pi Press. p. 273. ISBN0-13-146308-X.
^Witton, Mark (2013). Pterosaurs: Natural History, Evolution, Anatomy. Princeton University Press. p. 51. ISBN978-0691150611.
^Yang, S.Y. (2015). "Study history and research ethics of the dinosaur, pterosaur and bird tracks from Korea". Journal of the Geological Society of Korea. 51 (2): 127–140. doi:10.14770/jgsk.2015.51.2.127.
^Lü, J.; Azuma, Y.; Dong, Z.; Barsbold, R.; Kobayashi, Y.; Lee, Y.-N. (2009). "New material of dsungaripterid pterosaurs (Pterosauria: Pterodactyloidea) from western Mongolia and its palaeoecological implications". Geological Magazine. 146 (5): 690–700. doi:10.1017/S0016756809006414.
^ abKellner, A.W.A., 2003. Pterosaur phylogeny and comments on the evolutionary history of the AN group. In: Buffetaut, E., Mazin, J.M. (Eds.), Evolution and Palaeobiology of Pterosaurs. Geological Society, London, Special Publication 217, 105–137.
^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.