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1 November 2012 The Braincase and Inner Ear of Placodus gigas (Sauropterygia, Placodontia)—A New Reconstruction Based on Micro-Computed Tomographic Data
James M. Neenan, Torsten M. Scheyer
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Abstract

Placodus gigas is an unarmored placodont marine reptile (Diapsida, Sauropterygia) known from the Middle Triassic of Europe, most commonly found in the shallow marine carbonate facies of the German Muschelkalk (lower Anisian to middle Ladinian, approximately 243–235 Ma). Generally, the morphology of the skull is well understood, with the exception of the braincase, which is partially obscured by dermatocranial bone. Two skulls that display well-preserved and intact chondrocranial elements were scanned using industrial micro-computed tomography (µCT), thus revealing parts of the braincase that were previously obscured and allowing a new three-dimensional reconstruction of the region to be constructed. This includes a complete osteological description, the first reconstruction of a sauropterygian vestibular apparatus, and a new virtual cranial endocast. The morphology of the braincase and sphenoid region has been revised, revealing the position of the hypophyseal pit. The enigmatic ‘alisphenoid bridge’ has been reinterpreted as being a dorsally extended dorsum sellae. The vestibular apparatus is shown to have strongly dorsoventrally compressed vertical semicircular canals, a commonly observed morphology of other marine reptiles, and an ‘alert’ head position of about 20°, indicating a highly aquatic lifestyle. Because placodonts are the sister group to all other sauropterygians, these new data are of great comparative and phylogenetic significance, providing insight into some of the morphological and functional changes that occurred on the stem leading to the more derived sauropterygians.

© 2012 by the Society of Vertebrate Paleontology
James M. Neenan and Torsten M. Scheyer "The Braincase and Inner Ear of Placodus gigas (Sauropterygia, Placodontia)—A New Reconstruction Based on Micro-Computed Tomographic Data," Journal of Vertebrate Paleontology 32(6), 1350-1357, (1 November 2012). https://doi.org/10.1080/02724634.2012.695241
Received: 21 February 2012; Accepted: 7 May 2012; Published: 1 November 2012
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