The phylogeny of Anurognathidae is disputed. Both Alexander Kellner and David Unwin in 2003 defined the group as a node clade: the last common ancestor of Anurognathus and Batrachognathus and all its descendants. Some analyses, such as that of Kellner (2003), place them as the most basal group in the pterosaur tree.[12] Unwin also recovered the group as very basal, falling between Dimorphodontidae and Compylognathoididae.[12] However, anurognathids have some characteristics in common with the derivedPterodactyloidea, such as short and fused tail bones. More recent analyses, which include more fossils and taxa, support this observation and recover the group as substantially more derived than previously thought, but still basal to pterodactyloids. In 2010 an analysis by Brian Andres indicated the Anurognathidae and Pterodactyloidea were sister taxa. This conformed better to the fossil record because no early anurognathids were known at the time, and being the basalmost pterosaur clade would require a ghost lineage of over sixty million years.[13] However, the reassignment of "Dimorphodonweintraubi" to a basal position within Anurognathidae helps fill this gap and suggests this group appeared earlier than previously thought, possibly in the Early Jurassic Period.[14][15] Depending on where Anurognathidae falls within the Pterosauria, the existence of "Dimorphodonweintraubi" may have important implications for the timing of the evolution of major pterosaur clades, making further study of this specimen critical for pterosaur research.[15] In 2022, a phylogenetic analysis accompanying the description of Cascocauda recovered Anurognathidae as a sister clade to Breviquartossa.[16]
Lifestyle
Anurognathids are widely believed to have been nocturnal or crepuscular akin to bats. The fact that many anurognathids have large eye sockets supports the theory of operating in low-light environments. Anurognathid teeth suggest they were largely insectivorous, though some may have had more prey choices, such as Batrachognathus and Jeholopterus, which have been hypothesized to have been piscivorous.[17] At least some, such as Vesperopterylus, were arboreal, with claws suited for gripping tree branches.[4]
Feathers
A 2018 study of the remains of two small Jurassic-age pterosaurs from Inner Mongolia, China, named as the genus Cascocauda in 2022,[16] found that pterosaurs had a wide array of pycnofiber shapes and structures, as opposed to the homogeneous structures that had generally been assumed to cover them. Some of these had frayed ends, very similar in structure to four different feather types known from birds or other dinosaurs but almost never known from pterosaurs prior to the study, suggesting homology.[18][19] A response to this study was published in 2020, where it was suggested that the structures seen on the anurognathids were actually a result of the decomposition of aktinofibrils: a type of fibre used to strengthen and stiffen the wing.[20] However, in a response to this, the authors of the 2018 paper point to the fact that the presence of the structures extend past the patagium, and the presence of both aktinofibrils and filaments on Jeholopterus ningchengensis[21] and Sordes pilosus.[22] The various forms of filament structure present on the anurognathids in the 2018 study would also require a form of decomposition that would cause the different 'filament' forms seen. They therefore conclude that the most parsimonious interpretation of the structures is that they are filamentous proto-feathers.[23] But Liliana D’Alba points out that the description of the preserved integumentary structures on the two anurogmathid specimens is still based upon gross morphology. She also points out that Pterorhynchus was described to have feathers to support the claim that feathers had a common origin with Ornithodirans but was argued against by several authors. The only method to assure if it was homologous to feathers is to use a scanning electron microscope.[24]
^ abLü, J.; Meng, Q.; Wang, B.; Liu, D.; Shen, C.; Zhang, Y. (2017). "Short note on a new anurognathid pterosaur with evidence of perching behaviour from Jianchang of Liaoning Province, China". In Hone, D.W.E.; Witton, M.P.; Martill, D.M. (eds.). New Perspectives on Pterosaur Palaeobiology(PDF). Geological Society, London, Special Publications. Vol. 455. London: The Geological Society of London. pp. 95–104. doi:10.1144/SP455.16. S2CID219196969.
^Sprague, M. & McLain, M. A. (2018). Resolving the Mesadactylus Complex of Dry Mesa Quarry, Morrison Formation, Colorado. Journal of Vertebrate Paleontology, Program and Abstracts, 2018, p. 220.
^Unwin, D. M. & Bakhurina, N. N. (2000): Pterosaurs from Russia, Middle Asia and Mongolia. – In: M. J. Benton, M. A. Shishkin, D. M. Unwin & E. N. Kurochin (Eds), The age of dinosaurs in Russia and Mongolia; Cambridge (Cambridge University Press),
420–433.
^So, K. S.; Kim, P. H.; Won, C. G. (2024). "First Articulated Rhamphorhynchoid Pterosaur from the Early Cretaceous of the Democratic People's Republic of Korea". Paleontological Journal. 57 (1 supplement): S90–S94. doi:10.1134/S003103012360018X.
^Yang, Zixiao; Jiang, Baoyu; McNamara, Maria E.; Kearns, Stuart L.; Pittman, Michael; Kaye, Thomas G.; Orr, Patrick J.; Xu, Xing; Benton, Michael J. (December 2020). "Reply to: No protofeathers on pterosaurs". Nature Ecology & Evolution. 4 (12): 1592–1593. doi:10.1038/s41559-020-01309-8. hdl:10468/11874. PMID32989267. S2CID222163211.