Abstract
The fossil record provides compelling examples of heterochrony at macroevolutionary scales such as the peramorphic giant antlers of the Irish elk. Heterochrony has also been invoked in the evolution of the distinctive cranial frill of ceratopsian dinosaurs such as Triceratops. Although ceratopsian frills vary in size, shape, and ornamentation, quantitative analyses that would allow for testing hypotheses of heterochrony are lacking. Here, we use geometric morphometrics to examine frill shape variation across ceratopsian diversity and within four species preserving growth series. We then test whether the frill constitutes an evolvable module both across and within species, and compare growth trajectories of taxa with ontogenetic growth series to identify heterochronic processes. Evolution of the ceratopsian frill consisted primarily of progressive expansion of its caudal and caudolateral margins, with morphospace occupation following taxonomic groups. Although taphonomic distortion represents a complicating factor, our data support modularity both across and within species. Peramorphosis played an important role in frill evolution, with acceleration operating early in neoceratopsian evolution followed by progenesis in later diverging cornosaurian ceratopsians. Peramorphic evolution of the ceratopsian frill may have been facilitated by the decoupling of this structure from the jaw musculature, an inference that predicts an expansion of morphospace occupation and higher evolutionary rates among ceratopsids as indeed borne out by our data. However, denser sampling of the meager record of early‐diverging taxa is required to test this further.
Highlights
The fossil record provides ample opportunities for the study of the role of heterochrony at macroevolutionary scales, due to the presence of taxa with larger body sizes and more extreme morphologies than those known in extant biota
Because the ceratopsian frill is a neomorphic structure among archosaurs and exhibits considerable variation in shape, size, and ornamentation among species that otherwise exhibit reltively minor differences in postcranial and dental characters, we hypothesize that it may have evolved in modular fashion, that is, relatively independent of the rest of the skull
We demonstrate that frill shapes vary by clade and that the highly variable frills of later diverging ceratopsids occupy a greater area of morphospace relative to the more constrained occupation of earlier diverging taxa
Summary
The fossil record provides ample opportunities for the study of the role of heterochrony at macroevolutionary scales, due to the presence of taxa with larger body sizes and more extreme morphologies than those known in extant biota. Heterochronic processes have been invoked to explain this phylogenetic variation and its general relationship with the evolution of body size (~5 kg–10 tons), with various authors interpreting frill evolution as a peramorphic process (e.g., Long & McNamara, 1995, 1997; McNamara, 2012; Tumarkin & Dodson, 1998). These studies have only dealt with scant quantification of either frill size or shape, and are based on simple linear measurements or qualitative observations.
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