Soft tissues influence nasal airflow in diapsids: Implications for dinosaurs

Abstract

AbstractThe nasal passage performs multiple functions in amniotes, including olfaction and thermoregulation. These functions would have been present in extinct animals as well. However, fossils preserve only low‐resolution versions of the nasal passage due to loss of soft‐tissue structures after death. To test the effects of these lower resolution models on interpretations of nasal physiology, we performed a broadly comparative analysis of the nasal passages in extant diapsid representatives, e.g., alligator, turkey, ostrich, iguana, and a monitor lizard. Using computational fluid dynamics, we simulated airflow through 3D reconstructed models of the different nasal passages and compared these soft‐tissue‐bounded results to similar analyses of the same airways under the lower‐resolution limits imposed by fossilization. Airflow patterns in these bony‐bounded airways were more homogeneous and slower flowing than those of their soft‐tissue counterparts. These data indicate that bony‐bounded airway reconstructions of extinct animal nasal passages are far too conservative and place overly restrictive physiological limitations on extinct species. In spite of the diverse array of nasal passage shapes, distinct similarities in airflow were observed, including consistent areas of nasal passage constriction such as the junction of the olfactory region and main airway. These nasal constrictions can reasonably be inferred to have been present in extinct taxa such as dinosaurs.