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Abstract
The armoured dinosaurs (Thyreophora) were a significant component of Mesozoic terrestrial ecosystems, appearing in the earliest Jurassic and surviving until the latest Cretaceous, and fossils of the group have been found on all continents, including Antarctica. However, a patchy fossil record and highly modified anatomy has hindered reconstruction of their evolutionary history. For example, the relationships of many early-diverging taxa are labile and the degree of convergence between the two major clades, Ankylosauria and Stegosauria, has been difficult to assess. There has never been a species-level phylogenetic analysis of the thyreophoran dinosaurs; until recently, the computational ability to analyse such a dataset did not exist and, consequently, the interrelationships of taxa within the group are debated. Here, we address these issues with a new phylogenetic dataset that includes the majority of named thyreophoran taxa (340 characters, 91 taxa). This dataset was analysed using equal- and implied-weights parsimony and Bayesian inference, and further explored using constraint trees and partitioned datasets. Stratigraphical congruence was used to identify a ‘preferred tree’ and these analyses reveal a novel hypothesis for thyreophoran relationships. The traditional ankylosaurian dichotomy is not supported: instead, four distinct ankylosaur clades are identified, with the long-standing ‘traditional’ clade Nodosauridae rendered paraphyletic. Ankylosauridae, Panoplosauridae, Polacanthidae and Struthiosauridae have distinct morphotypes, typified by Euoplocephalus, Edmontonia/Panoplosaurus, Gastonia and Struthiosaurus, respectively. Isaberrysaura is an early stegosaur and Scelidosaurus is a non-eurypodan. Many characters related to feeding and quadrupedality are coincident with the diversification of Eurypoda. Unstable taxa in the analyses are generally highly incomplete but other better-known taxa are also unstable, suggesting the need for taxonomic revisions. Partitioned datasets show a high degree of convergence in thyreophoran postcrania and that osteoderm characters do not contain a strong phylogenetic signal.
Acknowledgements
TJR was funded by a University of Brighton Science Scholarship, the SYNTHESYS Project Research Infrastructure Action under the FP7 “Capacities” Program, the Palaeontological Association Whittington Award, the Natural History Museum Earth Sciences Departmental Investment Fund, an M A Fritz Travel Grant from the Royal Ontario Museum, the Society of Systematic Biologists Graduate Research Award, the Jurassic Foundation, the Universities’ China Committee in London Grant, the Geological Society Daniel Pidgeon Fund, the Geologists’ Association New Researcher’s Award, and the Palaeontographical Society Richard Owen Award. We thank C. Mehling (AMNH), J. Porter (BEXHM), D. Hutchinson (BRSMG), J. Cooper and L. Ismail (BMB), M. Riley (CAMSM), K. Corneli (CEUM), M. Currie, K. Shepherd and J. Mallon (CMN), M. Munt and A. Peaker (IWCMS), K. MacKenzie and J. Sertich (DMNH), B. Simpson, P. Makovicky, P. Viglietti and E. Gorscak (FMNH), J. Knight (HORSM), Z. Szentesi, M. Gasparik, D. Bernadett and A. Ösi (MTM), J. Jobylinska (ZPAL), X. Xing and Z. Fang (IVPP), K. Purevorj and K. Tsogtbaatar (MPC), J. Gillette and D. Gillette (MNA), R. Irmis and C. Levitt-Bussian (UMNH), T. Tumanova, V. Alifanov and A. Sennikov (PIN), K. Seymour and D. Evans (ROM), A. Millhouse, M. Carrano and A. Jukar (USNM), P. Sereno (University of Chicago), J. Kriwet and S. Stumpf (University of Vienna), and D. Brinkman (YPM) for access to specimens and help during museum trips. This work has benefitted from the authors’ involvement in the London Palaeobiology Research Group and the NHM Fossil Reptile Group, and we thank D. Button in particular for discussion. We thank three anonymous referees and the Associate Editor (V. Arbour) for their valuable comments, which helped to improve this contribution.
Supplemental material
Supplemental material for this article can be accessed here: http://dx.doi.org/10.1080/14772019.2023.2205433.
Associate Editor: Victoria Arbour