Litcius/Paper detail

Coordinated evolution of brain size, structure, and eye size in Trinidadian killifish

Kaitlyn J. Howell, Shannon M. Beston, Sara Stearns, Matthew Walsh

2020Ecology and Evolution20 citationsDOIOpen Access PDF

Abstract

, are found in sites that differ in the presence and absence of large predatory fish. Decreased rates of predation are associated with evolutionary shifts in brain size; males from sites without predators have evolved a relatively larger brain and eye size than males from sites with predators. Here, we evaluated the extent to which the evolution of brain size, brain structure, and eye size covary in male killifish. We utilized wild-caught and common garden-reared specimens to determine whether specific components of the brain have evolved in response to differences in predation and to determine if there is covariation between the evolution of brain size, brain structure, and eye size. We observed consistent shifts in brain architecture in second generation common garden reared, but not wild caught preserved fish. Male killifish from sites that lack predators exhibited a significantly larger telencephalon, optic tectum, cerebellum, and dorsal medulla when compared with fish from sites with predators. We also found positive connections between the evolution of brain structure and eye size but not between overall brain size and eye size. These results provide evidence for evolutionary covariation between the components of the brain and eye size. Such results suggest that selection, directly or indirectly, acts upon specific regions of the brain, rather than overall brain size, to enhance visual capabilities.

Topics & Concepts

Brain sizeBiologyPredationKillifishCerebrumOptic tectumEncephalizationEvolutionary biologyZoologyEcologyNeuroscienceFish <Actinopterygii>Central nervous systemRadiologyFisheryMagnetic resonance imagingMedicineFish biology, ecology, and behaviorIchthyology and Marine BiologyPrimate Behavior and Ecology