Variation in vertebrae shape across small‐bodied newts reveals functional and developmental constraints acting upon the trunk region

The salamander vertebral column is largely undifferentiated with a series of more or less uniform rib‐bearing presacral vertebrae traditionally designated as the trunk region. We explored regionalization of the salamander trunk in seven species and two subspecies of the salamander genus Lissotriton...

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Bibliographic Details
Published in:Journal of anatomy 2022-04, Vol.240 (4), p.639-646
Main Authors: Scholtes, Stefan J., Arntzen, Jan W., Ajduković, Maja, Ivanović, Ana
Format: Article
Language:English
Subjects:
Animals
Biological Evolution
Computed tomography
Divergence
geometric morphometrics
high‐dimensional clustering analysis
Lissotriton
micro computed tomography
Morphometry
Original Paper
Original Papers
Pattern formation
phenotypic trajectory analysis
regionalization
Salamandridae
Species
Spine
Spine - anatomy & histology
Spine - diagnostic imaging
Torso
trunk vertebrae
Vertebrae
X-Ray Microtomography
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Summary:The salamander vertebral column is largely undifferentiated with a series of more or less uniform rib‐bearing presacral vertebrae traditionally designated as the trunk region. We explored regionalization of the salamander trunk in seven species and two subspecies of the salamander genus Lissotriton by the combination of microcomputed tomography scanning and geometric morphometrics. The detailed information on trunk vertebral shape was subjected to a multidimensional cluster analysis and a phenotypic trajectory analysis. With these complementary approaches, we observed a clear morphological regionalization. Clustering analysis showed that the anterior trunk vertebrae (T1 and T2) have distinct morphologies that are shared by all taxa, whereas the subsequent, more posterior vertebrae show significant disparity between species. The phenotypic trajectory analysis revealed that all taxa share a common pattern and amount of shape change along the trunk region. Altogether, our results support the hypothesis of a conserved anterior‐posterior developmental patterning which can be associated with different functional demands, reflecting (sub)species’ and, possibly, regional ecological divergences within species. We explored regionalization of the salamander trunk in seven species and two subspecies of the salamander genus Lissotriton by the combination of microcomputed tomography scanning and geometric morphometrics. Our results support the hypothesis of a conserved anterior‐posterior developmental patterning that can be associated with different functional demands, reflecting (sub)species’ and, possibly, regional ecological divergences within species.
ISSN:0021-8782
1469-7580
DOI:10.1111/joa.13591