Estudios preliminares de la relación entre la morfología del encéfalo y los patrones ecológicos en los batoideos (Rajidae): la raya marmorada, Sympterygia bonapartii

MOYA, A. C; AWRUCH, C. A.; GALÍNDEZ, E. J.; SOMOZA, G. M.

Congreso; Congreso Latinoamericano de tiburones, rayas y quimeras; 2019

Elasmobranchs are an evolutionarily conserved group, with very high impact on aquatic ecosystems. They are the first group to exhibit brain morphology homologous to those of tetrapods and they are excellent models that provide new perspectives on the evolution of ancestral neural systems link to their habitat. The batoids are unique amongst elasmobrachs that have morphological specializations to a benthic niche. In this context, the aim is this study was to use Sympterygia bonapartii as a study model to describe the brain organization and to explore the relationships between the neuronal organization and the ecological patterns in this group. This species extends from Southern Brazil to Argentina, from shoreline down to 100 m depth and is one of the most disembarked elasmobranch in the commercial harbors. They are oviparous and use mainly the estuarine waters for mating, giving birth and as a breeding ground. This work describes the macroscopical and microscopial morphology of the brain in S. bonapartii. Samples were fixed in Bouin?s fixative in seawater, dehydrated and embedded in Paraplast®. Sections of 5-7 µm were stained with hematoxylin-eosin and Bielschowsky silver stain. Macroscopically, the brain included telencephalon, diencephalon, mesencephalon, smooth unfoliated cerebellum, and a large medulla oblongata. Microscopically, the telencephalon is a solid structure, with groups of granular cells interspersed in a mass of glial cells that conform the nervous tissue. In the diencephalon area, hypothalamus is enlarged and well developed. The pituitary gland is divided into three regions: the rostral and proximal pars distalis, with acidophilic and basophilic cells and a large neuro-intermediate lobe, close to the saccus vasculosus. The cerebellum architecture is similar to other vertebrates. This first brain morphology analysis shows that the pattern of organization in S. bonapartii, agrees with that seen in other Batoids with similar ecological arranges included them in a ?benthic cerebrotype?.