Login / Signup

The influence of the land-to-sea macroevolutionary transition on vertebral column disparification in Pinnipedia.

Juan Miguel EstebanAlberto Martín-SerraAlejandro Pérez-RamosNatalia RybczynskiKatrina JonesBorja Figueirido
Published in: Proceedings. Biological sciences (2024)
The repeated returns of vertebrates to the marine ecosystems since the Triassic serve as an evolutionary model to understand macroevolutionary change. Here we investigate the effects of the land-to-sea transition on disparity and constraint of the vertebral column in aquatic carnivorans (Carnivora; Pinnipedia) to assess how their functional diversity and evolutionary innovations influenced major radiations of crown pinnipeds. We use three-dimensional geometric morphometrics and multivariate analysis for high-dimensional data under a phylogenetic framework to quantify vertebral size and shape in living and extinct pinnipeds. Our analysis demonstrates an important shift in vertebral column evolution by 10-12 million years ago, from an unconstrained to a constrained evolutionary scenario, a point of time that coincides with the major radiation of crown pinnipeds. Moreover, we also demonstrate that the axial skeleton of phocids and otariids followed a different path of morphological evolution that was probably driven by their specialized locomotor strategies. Despite this, we found a significant effect of habitat preference (coastal versus pelagic) on vertebral morphology of crown taxa regardless of the family they belong. In summary, our analysis provides insights into how the land-to-sea transition influenced the complex evolutionary history of pinniped vertebral morphology.
Keyphrases
  • climate change
  • bone mineral density
  • genome wide
  • liquid chromatography
  • postmenopausal women
  • risk assessment
  • gene expression
  • dna methylation
  • big data