The ecological diversification and evolution of Teleosauroidea (Crocodylomorpha, Thalattosuchia), with insights into their mandibular biomechanics

Michela M Johnson; Davide Foffa; Mark T Young; Stephen L Brusatte

doi:10.1002/ece3.9484

The ecological diversification and evolution of Teleosauroidea (Crocodylomorpha, Thalattosuchia), with insights into their mandibular biomechanics

Ecol Evol. 2022 Nov 18;12(11):e9484. doi: 10.1002/ece3.9484. eCollection 2022 Nov.

Authors

Michela M Johnson¹, Davide Foffa^{2

3

4}, Mark T Young^{5

6}, Stephen L Brusatte^{4

5}

Affiliations

¹ Staatliches Museum für Naturkunde, Museum am Löwentor Stuttgart Germany.
² Department of Geosciences Virginia Tech Blacksburg Virginia USA.
³ School of Geography, Earth and Environmental Sciences University of Birmingham Birmingham UK.
⁴ National Museum of Scotland Edinburgh UK.
⁵ School of GeoSciences, Grant Institute University of Edinburgh Edinburgh UK.
⁶ LWL-Museum für Naturkunde Münster Germany.

Abstract

Throughout the Jurassic, a plethora of marine reptiles dominated ocean waters, including ichthyosaurs, plesiosaurs and thalattosuchian crocodylomorphs. These Jurassic ecosystems were characterized by high niche partitioning and spatial variation in dietary ecology. However, while the ecological diversity of many marine reptile lineages is well known, the overall ecological diversification of Teleosauroidea (one of the two major groups within thalattosuchian crocodylomorphs) has never been explored. Teleosauroids were previously deemed to have a morphologically conservative body plan; however, they were in actuality morphofunctionally more diverse than previously thought. Here we investigate the ecology and feeding specializations of teleosauroids, using morphological and functional cranio-dental characteristics. We assembled the most comprehensive dataset to date of teleosauroid taxa (approximately 20 species) and ran a series of principal component analyses (PC) to categorize them into various feeding ecomorphotypes based on 17 dental characteristics (38 specimens) and 16 functionally significant mandibular characters (18 specimens). The results were examined in conjunction with a comprehensive thalattosuchian phylogeny (153 taxa and 502 characters) to evaluate macroevolutionary patterns and significant ecological shifts. Machimosaurids display a well-developed ecological shift from: (1) slender, pointed tooth apices and an elongate gracile mandible; to (2) more robust, pointed teeth with a slightly deeper mandible; and finally, (3) rounded teeth and a deep-set, shortened mandible with enlarged musculature. Overall, there is limited mandibular functional variability in teleosaurids and machimosaurids, despite differing cranial morphologies and habitat preferences in certain taxa. This suggests a narrow feeding ecological divide between teleosaurids and machimosaurids. Resource partitioning was primarily related to snout and skull length as well as habitat; only twice did teleosauroids manage to make a major evolutionary leap to feed distinctly differently, with only the derived machimosaurines successfully radiating into new feeding ecologies.

Keywords: Crocodylomorpha; Teleosauroidea; Thalattosuchia; ecology; functional morphology; mandibular biomechanics.