AI Article Synopsis
- The study analyzes how body size and forelimb size in non-avian theropods evolved, noting a general trend where larger species have relatively shorter forelimbs, known as negative forelimb allometry, while some groups showed different patterns closer to isometry.
- By applying phylogenetic statistical testing, the research confirms the negative allometry trend but identifies exceptions among specific theropod subclades like Coelophysoidea, which may have lost this ancestral trait.
- The authors discuss the potential link between allometric trends and growth patterns in non-avian theropods, suggesting that some juvenile traits, like longer forelimbs, may have persisted into adulthood in evolving birds
Article Abstract
Background: The origin of birds is marked by a significant decrease in body size along with an increase in relative forelimb size. However, before the evolution of flight, both traits may have already been related: It has been proposed that an evolutionary trend of negative forelimb allometry existed in non-avian Theropoda, such that larger species often have relatively shorter forelimbs. Nevertheless, several exceptions exist, calling for rigorous phylogenetic statistical testing.
Results: Here, we re-assessed allometric patterns in the evolution of non-avian theropods, for the first time taking into account the non-independence among related species due to shared evolutionary history.We confirmed a main evolutionary trend of negative forelimb allometry for non-avian Theropoda, but also found support that some specific subclades (Coelophysoidea, Ornithomimosauria, and Oviraptorosauria) exhibit allometric trends that are closer to isometry, losing the ancestral negative forelimb allometry present in Theropoda as a whole.
Conclusions: Explanations for negative forelimb allometry in the evolution of non-avian theropods have not been discussed, yet evolutionary allometric trends often reflect ontogenetic allometries, which suggests negative allometry of the forelimb in the ontogeny of most non-avian theropods. In modern birds, allometric growth of the limbs is related to locomotor and behavioral changes along ontogeny. After reviewing the evidence for such changes during the ontogeny of non-avian dinosaurs, we propose that proportionally longer arms of juveniles became adult traits in the small-sized and paedomorphic Aves.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6889632 | PMC |
| http://dx.doi.org/10.1186/s12983-019-0342-9 | DOI Listing |
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