An integrative insight into the synsacral canal of fossil and extant Antarctic penguins

Abstract The lumbosacral‐canal system in birds most likely operates as a sense organ involved in the control of balanced walking and perching, but our knowledge of it is superficial. Penguins constitute interesting objects for the study of this system due to their upright walking, but only the Humbo...

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Bibliographic Details
Published in:Integrative Zoology
Main Authors: JADWISZCZAK, Piotr, SVENSSON‐MARCIAL, Anders, MÖRS, Thomas
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2022
Subjects:
Antarctic
Adelie penguin
Antarc*
Aptenodytes forsteri
Pygoscelis adeliae
Online Access:http://dx.doi.org/10.1111/1749-4877.12689
https://onlinelibrary.wiley.com/doi/pdf/10.1111/1749-4877.12689
https://onlinelibrary.wiley.com/doi/full-xml/10.1111/1749-4877.12689
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Summary:Abstract The lumbosacral‐canal system in birds most likely operates as a sense organ involved in the control of balanced walking and perching, but our knowledge of it is superficial. Penguins constitute interesting objects for the study of this system due to their upright walking, but only the Humboldt penguin, Spheniscus humboldti , and some incomplete fossil penguin synsacra have been studied in this respect. Here, we give an integrative comparative insight into the synsacral canal of extant Emperor penguin, Aptenodytes forsteri , Adelie penguin, Pygoscelis adeliae , and Eocene giant Anthropornis and/or Palaeeudyptes Antarctic penguins, using computed tomography imaging and associated data‐extraction methodologies, complemented by analytical approaches ranging from geometric morphometrics to modularity, curvature, and wavelet analyses. We document that the variability in the number of synsacro‐lumbar vertebrae is evolutionarily conserved, and all studied synsacra possess osteological correlates of the lumbosacral‐canal system. We also found that Eocene and extant Antarctic penguins were separable on the basis of the main direction of the shape‐related (size‐independent) variability within said system, and A. forsteri was unique in the entire studied set in terms of the relative cranial shift of this compound structure. Moreover, we suggest that the evolutionary processes, shaping both the terrestrial posture and gait, were responsible, in extant penguins, for the increased simplicity and stability of the synsacral canal cross‐sectional periodic patterns, as well as pave the way for the lumbosacral‐canal system modularity characterized by reduced atomization/complexity.

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