Stem turtles Proganochelys and Proterochersis aquatic paleoecology from shell biomechanics (free pdf)pes
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Ben Creisler
Sep 21, 2024, 6:14:35 PMSep 21
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Ben Creisler
Not yet mentioned paper:
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Gabriel S. Ferreira, Guilherme Hermanson, Christina Kyriakouli, Dawid Dróżdż & Tomasz Szczygielski (2024)
Shell biomechanics suggests an aquatic palaeoecology at the dawn of turtle evolution
Scientific Reports 14: 21822
doi: https://doi.org/10.1038/s41598-024-72540-7
https://www.nature.com/articles/s41598-024-72540-7
The turtle shell is a remarkable structure that has intrigued not only evolutionary biologists but also engineering and material scientists because of its multi-scale complexity and various functions. Although protection is its most apparent role, the carapace and plastron are also related to many physiological functions and their shape influences hydrodynamics and self-righting ability. As such, analysing the functional morphology of the shell could help understanding the ecology of Triassic stem-turtles, which will contribute to the century-long debate on the evolutionary origins of turtles. Here, we used 3D imaging techniques to digitize the shells of two of the earliest stem-turtle taxa, Proganochelys and Proterochersis, and submitted their models to biomechanical and shape analyses. We analysed the strength performance under five predation scenarios and tested the function of two morphological traits found in stem-turtles, the epiplastral processes and an attached pelvic girdle. The latter, also present in the crown-lineage of side-necked turtles, has been suggested to increase load-bearing capacity of the shell or to improve swimming in pleurodires. Our results do not confirm the shell-strengthening hypothesis and, together with the results of our shape analyses, suggest that at least one of the first stem-turtles (Proterochersis) was an aquatic animal.
Gabriel S. Ferreira, Guilherme Hermanson, Christina Kyriakouli, Dawid Dróżdż & Tomasz Szczygielski (2024)
Shell biomechanics suggests an aquatic palaeoecology at the dawn of turtle evolution
Scientific Reports 14: 21822
doi: https://doi.org/10.1038/s41598-024-72540-7
https://www.nature.com/articles/s41598-024-72540-7
The turtle shell is a remarkable structure that has intrigued not only evolutionary biologists but also engineering and material scientists because of its multi-scale complexity and various functions. Although protection is its most apparent role, the carapace and plastron are also related to many physiological functions and their shape influences hydrodynamics and self-righting ability. As such, analysing the functional morphology of the shell could help understanding the ecology of Triassic stem-turtles, which will contribute to the century-long debate on the evolutionary origins of turtles. Here, we used 3D imaging techniques to digitize the shells of two of the earliest stem-turtle taxa, Proganochelys and Proterochersis, and submitted their models to biomechanical and shape analyses. We analysed the strength performance under five predation scenarios and tested the function of two morphological traits found in stem-turtles, the epiplastral processes and an attached pelvic girdle. The latter, also present in the crown-lineage of side-necked turtles, has been suggested to increase load-bearing capacity of the shell or to improve swimming in pleurodires. Our results do not confirm the shell-strengthening hypothesis and, together with the results of our shape analyses, suggest that at least one of the first stem-turtles (Proterochersis) was an aquatic animal.
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