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[dinosaur] Carcharodontosauria forelimb shortening




Ben Creisler
bcreisler@gmail.com

A new paper:


Geoffrey Guinard (2020)
Forelimb shortening of Carcharodontosauria (Dinosauria: Theropoda): an update on evolutionary anterior micromelias in non-avian theropods.
Zoology Article 125756 (advance online publication)
doi: https://doi.org/10.1016/j.zool.2020.125756
https://www.sciencedirect.com/science/article/abs/pii/S0944200620300155

Highlights

Carcharodontosaurians are examined under the scope of evolutionary teratology.
The shortened forelimbs of Acrocanthosaurus are diagnosed as anterior micromelias.
Gualicho does not meet the micromelic diagnosis; it is regarded as a borderline case.
Yet Gualicho is diagnosed with a total hypophalangia on manual digit III.
Other body parts (ex: skull, neck) balance the forelimbs shortening for predation.

Abstract

Evolutionary teratology recognises certain anatomical modifications as developmental anomalies. Within non avian-theropod dinosaurs, the strong forelimb shortening of Tyrannosauridae, Carnotaurinae and Limusaurus -- associated with a reduction or loss of autonomy -- have been previously diagnosed as evolutionary anterior micromelias. The feature is here examined with Acrocanthosaurus atokensis (Carcharodontosauridae) and Gualicho shinyae (Neovenatoridae). The micromelic diagnosis is confirmed for Acrocanthosaurus, without supplementary malformations. Gualicho is considered as a borderline case, outside of the micromelic spectrum, but shows a total phalangeal loss on digit III. The reduction in the biomechanical range of Acrocanthosaurusâ forelimbs was compensated by the skull and jaws as main predatory organs. The same is assumed for Gualicho, but its robust first digit and raptorial claw are to be underlined. Other gigantic-sized and derived representatives of Carcharodontosauridae probably shared the anterior micromelia condition, potentially due to developmental modifications involving differential forelimbs/hindlimbs embryological growth rates, secondarily associated with post-natal growth rates leading to large and gigantic sizes; a converging state with Tyrannosauridae. Nevertheless, whereas developmental growth rates are also considered in the shortened condition of Gualicho, there is no association with post-natal gigantism. Finally, the digit III reduction likely followed the same evolutionary pathways as Tyrannosauridae, potentially involving BMPs, Fgfs and Shh signalling.