Spatial learning and geometry. Amphibians in the evolution of the brain cognitive systems

This article presents a comparative review of the works that have studied the spatial learning in vertebrates using geometry information and visual cues from the environment. We describe experiments conducted in our laboratory showing spatial navigation learning in amphibians and their dependence on...

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Detalles Bibliográficos
Autores principales: Sotelo, María Inés, Muzio, Rubén Néstor
Formato: Artículo revista
Lenguaje:Español
Publicado: Universidad Nacional de Córdoba 2015
Materias:
aprendizaje espacial y geometría
anfibios
pallium medial
hipocampo
evolución de sistemas cognitivos cerebrales
Psicobiología
Psicología Experimental
spatial learning and geometry
amphibians
medial pallium
hippocampus
evolution of brain cognitive systems
Acceso en línea:https://revistas.unc.edu.ar/index.php/racc/article/view/11370
Aporte de:
Revista Argentina de Ciencias del Comportamiento de Universidad Nacional de Córdoba
Descripción
Sumario:This article presents a comparative review of the works that have studied the spatial learning in vertebrates using geometry information and visual cues from the environment. We describe experiments conducted in our laboratory showing spatial navigation learning in amphibians and their dependence on a functional medial pallium (homologous area to the mammalian hippocampus). The results indicate that these animals use both the information provided by the geometry as visual cues, but when both types of reference are presented in conflict they prefer geometry to orient (as results found in amniotes). Broadly, these findings suggest that the ability to orient in space is a characteristic evolutionarily preserved and support the idea that the role of the hippocampus in spatial cognition precedes the evolution of fully terrestrial vertebrates.

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