Aublysodontinae, Leidy, 1868

Holtz, T. R., 2001, The phylogeny and taxonomy of the Tyrannosauridae, Mesozoic Vertebrate Life, Bloomington: Indiana University Press, pp. 64-83 : 67

publication ID

https://doi.org/ 10.5281/zenodo.3245327

DOI

https://doi.org/10.5281/zenodo.5204480

persistent identifier

https://treatment.plazi.org/id/03EE87AE-FFA6-FF8A-FEED-FBAC8E9C0DDE

treatment provided by

Jeremy

scientific name

Aublysodontinae
status

 

Aublysodontinae

is comprised at present of only incompletely known taxa. These forms are united by two dental synapomorphies: 76.I and 77.1 (unserrated premaxillary teeth with prominent vertical ridges on the caudal surface). These derived features are not present on other tyrannosaurids, including the oldest confirmed tyrannosaurid premaxillary tooth (from the Early Cretaceous Jobu Formation of Japan: Manabe 1999). Although Molnar and Carpenter (1989) separated Aublysodon from Tyrannosauridae as Family Aublysodontidae , the presence of Aublysodon-llke teeth in specimens of Alectrosaurus olseni , a taxon with tyrannosaurid synapomorphies ( Mader and Bradley 1989) led Currie et al. (1990) to include this group as a subfamily within Tyrannosauridae , a nomenclatural practice followed here. Other than the specialized premaxillary teeth, aublysodontines generally retain more primitive coelurosaurian features lost in other tyrannosaurids: for example, the skulls of aublysodontines are longer and lower, the tooth count higher, and the lateral teeth less labiolingually expanded than in derived tyrannosaurines ( Currie in press). Aublysodon and Alectrosaurus (but not the Kirtland Shale taxon) are smaller than typical tyrannosaurines: however the ontogenetic status of known aublysodontine specimens is hindered by the incompleteness of their fossils, and these might represent juvenile individuals of taxa which reached larger sizes. Aithough Aublysodon is provisionally recognized as a valid name here, Currie et al. (1990) caution that this may not be a taxon, but instead an ontogenetic stage or a sexual dimorph. It might be further added that tooth wear in life, postmortem abrasion, and digestion might also conceivably render a typical tyrannosaurid premaxilla tooth into a nonserrated one. In such a case, the synapomorphies uniting " Aublysodontinae " would be lost, and the remaining resemblances between these taxa would be symplesiomorphies.

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