Abstract
Since its discovery, Euparkeria capensis has been a key taxon for understanding the early evolution of archosaurs. The braincase of Euparkeria was described based on a single specimen, but much uncertainty remained. For the first time, all available braincase material of Euparkeria is re-examined using micro-computed tomography scanning. Contrary to previous work, the parabasisphenoid does not form the posterior border of the fenestra ovalis in lateral view, but it does bear a dorsal projection that forms the anteroventral half of the fenestra. No bone pneumatization was found, but the lateral depression of the parabasisphenoid may have been pneumatic. We propose that the lateral depression likely corresponds to the anterior tympanic recess present in crown archosaurs. The presence of a laterosphenoid is confirmed for Euparkeria. It largely conforms to the crocodilian condition, but shows some features which make it more similar to the avemetatarsalian laterosphenoid. The cochlea of Euparkeria is elongated, forming a deep cochlear recess. In comparison with other basal archosauromorphs, the metotic foramen is much enlarged and regionalized into vagus and recessus scalae tympani areas, indicating an increase in its pressure-relief mechanism. The anterior semicircular canal is extended and corresponds to an enlarged floccular fossa. These aspects of the braincase morphology may be related to the development of a more upright posture and active lifestyle. They also indicate further adaptations of the hearing system of Euparkeria to terrestriality.
Highlights
Archosauria, a crown group of diapsid reptiles represented today by birds and crocodilians and including the extinct dinosaurs, is highly speciose and has been so since its origin in the Late Triassic
Euparkeria capensis is a small stem archosaur represented by the remains of over 10 individuals collected from a single locality in Subzone B of the Cynognathus Assemblage Zone [15,16], close to Aliwal North, Eastern Cape, South Africa [14,17]
In the light of the new data provided by computed tomography (CT) scanning, and re-examination of all available material of Euparkeria, it is possible to clarify a number of points of uncertainty remaining from previous studies regarding the braincase anatomy of Euparkeria
Summary
Archosauria, a crown group of diapsid reptiles represented today by birds and crocodilians and including the extinct dinosaurs, is highly speciose (with over 9000 species of modern birds and crocodilians [1]) and has been so since its origin in the Late Triassic. Euparkeria is nearly universally found to be either the sister taxon to, or a very close relative of, Archosauria in phylogenetic analyses [3,18,19,20,21,22,23,24,25,26,27,28]. For this reason Euparkeria is often used as an outgroup in phylogenetic and evolutionary analyses of crown taxa For this reason Euparkeria is often used as an outgroup in phylogenetic and evolutionary analyses of crown taxa (e.g. [29,30,31,32,33,34,35,36,37,38,39,40,41]), allowing the sequence and direction of morphological changes during the radiation of Archosauria to be understood
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
