Variation in the shape and mechanical performance of the lower jaws in ceratopsid dinosaurs (Ornithischia, Ceratopsia)

Ceratopsidae represents a group of quadrupedal herbivorous dinosaurs that inhabited western North America and eastern Asia during the Late Cretaceous. Although horns and frills of the cranium are highly variable across species, the lower jaw historically has been considered to be relatively conserva...

Full description

Saved in:
Bibliographic Details
Published in:Journal of anatomy 2015-11, Vol.227 (5), p.631-646
Main Authors: Maiorino, Leonardo, Farke, Andrew A., Kotsakis, Tassos, Teresi, Luciano, Piras, Paolo
Format: Article
Language:English
Subjects:
Anatomic Landmarks - anatomy & histology
Animals
Biomechanical Phenomena - physiology
Ceratopsidae
Dinosaurs
Dinosaurs - anatomy & histology
Dinosaurs - physiology
Finite Element Analysis
Fossils
geometric morphometrics
Herbivory - physiology
lower jaw
Mandible - anatomy & histology
Mandible - physiology
Morphology
Original
Phylogeny
Principal Component Analysis
Stress, Mechanical
Tooth - anatomy & histology
Triceratopsini
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Ceratopsidae represents a group of quadrupedal herbivorous dinosaurs that inhabited western North America and eastern Asia during the Late Cretaceous. Although horns and frills of the cranium are highly variable across species, the lower jaw historically has been considered to be relatively conservative in morphology. Here, the lower jaws from 58 specimens representing 21 ceratopsoid taxa were sampled, using geometric morphometrics and 2D finite element analysis (FEA) to explore differences in morphology and mechanical performance across Ceratopsoidea (the clade including Ceratopsidae, Turanoceratops and Zuniceratops). Principal component analyses and non‐parametric permuted manovas highlight Triceratopsini as a morphologically distinct clade within the sample. A relatively robust and elongate dentary, a larger and more elongated coronoid process, and a small and dorso‐ventrally compressed angular characterize this clade, as well as the absolutely larger size. By contrast, non‐triceratopsin chasmosaurines, Centrosaurini and Pachyrhinosaurini have similar morphologies to each other. Zuniceratops and Avaceratops are distinct from other taxa. No differences in size between Pachyrhinosaurini and Centrosaurini are recovered using non‐parametric permuted anovas. Structural performance, as evaluated using a 2D FEA, is similar across all groups as measured by overall stress, with the exception of Triceratopsini. Shape, size and stress are phylogenetically constrained. A longer dentary as well as a long coronoid process result in a lower jaw that is reconstructed as relatively much more stressed in triceratopsins.
ISSN:0021-8782
1469-7580
DOI:10.1111/joa.12374