Abstract
Jurassic ichthyosaurs dominated upper trophic levels of marine ecosystems. Many species coexisted alongside each another, and it is uncertain whether they competed for the same array of food or divided dietary resources, each specializing in different kinds of prey. Here, we test whether feeding differences existed between species, applying finite element analysis to ichthyosaurs for the first time. We examine two juvenile ichthyosaur specimens, referred to Hauffiopteryx typicus and Stenopterygius triscissus, from the Strawberry Bank Lagerstätte, a shallow marine environment from the Early Jurassic of southern England (Toarcian, ~183 Ma). Snout and cranial robusticity differ between the species, with S. triscissus having a more robust snout and cranium and specializing in slow biting of hard prey, and H. typicus with its slender snout specializing in fast, but weaker bites on fast-moving, but soft prey. The two species did not differ in muscle forces, but stress distributions varied in the nasal area, reflecting differences when biting at different points along the tooth row: the more robustly snouted Stenopterygius resisted increases or shifts in stress distribution when the bite point was shifted from the posterior to the mid-point of the tooth row, but the slender-snouted Hauffiopteryx showed shifts and increases in stress distributions between these two bite points. The differences in cranial morphology, dentition and inferred stresses between the two species suggest adaptations for dietary niche partitioning.
| Original language | English |
|---|---|
| Pages (from-to) | 1409-1423 |
| Number of pages | 15 |
| Journal | Journal of Anatomy |
| Volume | 241 |
| Issue number | 6 |
| Early online date | 29 Sept 2022 |
| DOIs | |
| Publication status | Published - 9 Nov 2022 |
Bibliographical note
Funding Information:We thank Antonio Ballell-Mayoral for help with software and technical problem solving, Tom Farrell for draft feedback, and Liz Martin-Silverstone for computer lab logistical help and access. We thank Matt Williams (BRLSI) for providing access to and loaning of specimens for CT scanning. We thank Erin Maxwell and Stephan Lautenschlager for their very helpful reviews. This paper is based on a thesis submitted as part of the MSc in Palaeobiology at the University of Bristol.
Funding Information:
Benjamin C. Moon, Andre J. Rowe and Michael J. Benton designed and supervised the study, Sarah Jamison‐Todd carried out the analyses and wrote the first draft of the paper, Benjamin C. Moon provided code and training in 3D segmentation model‐building, Andre J. Rowe provided training and technical help with the FEA work. Matt Williams curated and loaned specimens and made them available for scanning and study. All authors contributed to drafting the manuscript. We also Kelly Vargas and Robert Wood for early segmentation work on BRLSI M1409. This project was supported by Leverhulme Trust Research Project Grant RPG‐2015‐126, NERC BETR grant NE/P013724/1 and ERC grant 788,203 (INNOVATION).
Publisher Copyright:
© 2022 The Authors. Journal of Anatomy published by John Wiley & Sons Ltd on behalf of Anatomical Society.
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