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SOOKIAS RolandORCID_LOGO

  • Geologie (EDDy lab), Université de Liège, Liège, Belgium
  • Comparative anatomy, Evolutionary biology, Evolutionary patterns and dynamics, Evolutionary theory, Macroevolution, Methods, Paleobiology, Phylogenetics, Systematics, Taxonomy, Vertebrate paleontology
  • recommender

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Review:  1

Areas of expertise
I am an expert in archosaur and archosauromorph evolution, taxonomy and systematics, especially Triassic taxa. I am also an expert in quantitative palaeobiology, especially model fitting and evolutionary rates, and in phylogenetic methods using morphology, including use of 3D data.

Review:  1

14 Apr 2021
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The impact of allometry on vomer shape and its implications for the taxonomy and cranial kinesis of crown-group birds

Vomers aren't so different in crown group birds when considering allometric effects

Recommended by based on reviews by Sergio Martínez Nebreda and Roland Sookias

Today’s birds are divided into two deeply divergent and historically well-documented groups: Palaeognathae and Neognathae. Palaeognaths include both the flight-capable tinamous as well as the flightless ratites (ostriches, rheas, kiwis, cassowaries, and kin). Neognaths include all other modern birds, ranging from sparrows to penguins to hummingbirds. The clade names refer to the anatomy of the palate, with the “old jaws” (palaeognaths) originally thought to more closely resemble an ancestral reptilian condition and the “new jaws” (neognaths) showing a uniquely modified bony configuration. This particularly manifests in the pterygoid-palatine complex (PPC) in the palate, formed from pairs of pterygoids and palatines alongside a single midline vomer. In palaeognaths, the vomer is comparatively large and the pterygoid and palatine are relatively tightly connected. The PPC is more mobile in neognaths, with a variably shaped vomer, which is sometimes even absent. Although both groups of birds show cranial kinesis, neognaths exhibit a much more pronounced degree of kinesis versus palaeognaths, due in part to the tighter nature of the palaeognath pterygoid/palatine interfaces.

A previous paper (Hu et al. 2019) used 3D geometric morphometrics to compare the shape of the vomer across neognaths and palaeognaths. Among other findings, this work suggested that each clade had a distinct vomer morphology, with palaeognaths more similar to the ancestral condition (i.e., that of non-avian dinosaurs). This observation was extended to support inferences of limited vs. less limited cranial kinesis in various extinct species, based in part on observations of vomer shape. A new preprint by Plateau and Foth (2021) presents a reanalysis of Hu et al.’s data, specifically focusing on allometric effects. In short, the new analysis looks at how size correlates (or doesn't correlate) with vomer shape. 

Plateau and Foth (2021) found that when size effects are included, differences between palaeognaths and neognaths are less than the “raw” (uncorrected) shape data suggest. It is much harder to tell bird groups apart! Certainly, there are still some general differences, but some separations in morphospace close up when allometry—the interrelationship between shape and size—is considered. Plateau and Foth (2021) use this finding to suggest that 1) vomer shape alone is not a completely reliable proxy for inferring the phylogenetic affinities of a particular bird; and 2) the vomer is only one small component of the cranial kinetic system, and thus its shape is of limited utility for inferring cranial kinesis capabilities when considered independently from the rest of the relevant skull bones.

 

References

Hu, H., Sansalone, G., Wroe, S., McDonald, P. G., O’Connor, J. K., Li, Z., Xu, X., & Zhou, Z. (2019). Evolution of the vomer and its implications for cranial kinesis in Paraves. Proceedings of the National Academy of Sciences, 116(39), 19571–19578. doi: 10.1073/pnas.1907754116

Plateau, O., & Foth, C. (2021). The impact of allometry on vomer shape and its implications for the taxonomy and cranial kinesis of crown-group birds. BioRxiv, 184101, ver. 3 peer-reviewed by PCI Paleo. doi: 10.1101/2020.07.02.184101

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SOOKIAS RolandORCID_LOGO

  • Geologie (EDDy lab), Université de Liège, Liège, Belgium
  • Comparative anatomy, Evolutionary biology, Evolutionary patterns and dynamics, Evolutionary theory, Macroevolution, Methods, Paleobiology, Phylogenetics, Systematics, Taxonomy, Vertebrate paleontology
  • recommender

Recommendations:  0

Review:  1

Areas of expertise
I am an expert in archosaur and archosauromorph evolution, taxonomy and systematics, especially Triassic taxa. I am also an expert in quantitative palaeobiology, especially model fitting and evolutionary rates, and in phylogenetic methods using morphology, including use of 3D data.