A review of the non-semiaquatic adaptations of extinct crocodylomorphs throughout their fossil record
- PMID: 39587416
- DOI: 10.1002/ar.25586
A review of the non-semiaquatic adaptations of extinct crocodylomorphs throughout their fossil record
Abstract
Crocodylomorphs constitute a clade of archosaurs that have thrived since the Mesozoic until today and have survived numerous major biological crises. Contrary to historic belief, their semiaquatic extant representatives (crocodylians) are not living fossils, and, during their evolutionary history, crocodylomorphs have evolved to live in a variety of environments. This review aims to summarize the non-semiaquatic adaptations (i.e., either terrestrial or fully aquatic) of different groups from different periods, highlighting how exactly those different lifestyles are inferred for those animals, with regard to their geographic and temporal distribution and phylogenetic relationships. The ancestral condition for Crocodylomorpha seems to have been a terrestrial lifestyle, linked with several morphological adaptations such as an altirostral skull, long limbs allowing a fully erect posture and a specialized dentition for diets based on land. However, some members of this clade, such as thalattosuchians and dyrosaurids display adaptations for an opposite, aquatic lifestyle, interestingly inferred from the same type of morphological observations. Finally, new techniques for inferring the paleobiology of those extinct animals have been put forward in the last decade, appearing as a complementary approach to traditional morphological descriptions and comparisons. Such is the case of paleoneuroanatomical (CT scan data), histological, and geochemical studies.
Keywords: Crocodylomorpha; adaptation; aquatic; paleobiology; terrestriality.
© 2024 American Association for Anatomy.
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References
REFERENCES
-
- Abler, W. L. (1992). The serrated teeth of tyrannosaurid dinosaurs, and biting structures in other animals. Paleobiology, 18(2), 161–183. https://doi.org/10.1017/S0094837300013956
-
- Adams, T. L. (2014). Small crocodyliform from the Lower Cretaceous (late Aptian) of Central Texas and its systematic relationship to the evolution of Eusuchia. Journal of Paleontology, 88(5), 1031–1049. https://doi.org/10.1666/12-089
-
- Adams, T. L. (2019). Small terrestrial crocodyliform from the Lower Cretaceous (late Aptian) of central Texas and its implications on the paleoecology of the Proctor Lake dinosaur locality. Journal of Vertebrate Paleontology, 39(3), e1623226. https://doi.org/10.1080/02724634.2019.1623226
-
- Allain, R., Vullo, R., Rozada, L., Anquetin, J., Bourgeais, R., Goedert, J., Lasseron, M., Martin, J. E., Pérez‐García, A., Peyre de Fabrègues, C., Royo‐Torres, R., Augier, D., Bailly, G., Cazes, L., Despres, Y., Gailliègue, A., Gomez, B., Goussard, F., Lenglet, T., … Tournepiche, J. F. (2022). Vertebrate paleobiodiversity of the Early Cretaceous (Berriasian) Angeac‐Charente Lagerstätte (southwestern France): Implications for continental faunal turnover at the J/K boundary. Geodiversitas, 44(25), 683–752. https://doi.org/10.5252/geodiversitas2022v44a25
-
- Amoudji, Y. Z., Guinot, G., Hautier, L., Kassegne, K. E., Chabrol, N., Charruault, A. L., Johnson, A. K. C., Sarr, R., Da Costa, P. W. D., & Martin, J. E. (2021). New data on the Dyrosauridae (Crocodylomorpha) from the Paleocene of Togo. Annales de Paléontologie, 107(2), 102472. https://doi.org/10.1016/j.annpal.2021.102472
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