A comparison of the larval and juvenile dentition in Polypterus senegalus

Summary Polypterus senegalus is a freshwater fish belonging to the earliest diverged group of the actinopterygian lineage with currently living representatives. Its dentition has been well characterized in terms of distribution and shape of teeth in different life stages. Additionally, structural features of the first‐generation teeth have been briefly described. However, at present it is not known how the primary dentition is patterned and if this pattern is similar to that found in juveniles. In this preliminary study, to answer this question we investigate the tooth pattern of a larval P. senegalus based on serial sections and 3D reconstructions, and compare dental features in larvae and juveniles. Polypterus senegalus passive apterolarvae possess a well developed primary dentition. Dentigerous bones develop either prior to the teeth (dentary, retroarticular), or as an attachment site concomitant with the expanding dentition (coronoid 1). Most teeth are attached and erupted, and thus considered functional, and their pulp houses a blood vessel, two features that contrast with earlier findings. The primary teeth do not display a level of maturation that could reflect a particular order of development. New teeth are added anteriorly, and likely also posteriorly, to allow the tooth row to grow to keep pace with the growing jaw. Replacement teeth are absent at this stage. Thus, the pattern observed in juveniles, with alternate (odd and even) positions displaying a different level of tooth maturation, is not present in the larva. Most strikingly, in the larva, considerable symmetry exists between apparently random patterns on both dentaries, eliciting intriguing questions on left‐right control to be addressed in future studies.