Variations on a theme: Morphological variation in the secondary eye visual pathway across the order of Araneae.

Spiders possess a wide array of sensory-driven behaviors and therefore provide rich models for studying evolutionary hypotheses about the relationship between brain morphology, sensory systems, and behavior. Despite this, only a handful of studies have examined brain variation across the order of Araneae. In this study, I present descriptions of the gross brain morphology for 19 families of spiders that vary in eye morphology. Spiders showed the most variation in the secondary eye visual pathway. Based on this variation, spiders could be categorized into four groups. Group 1 spiders had small, underdeveloped laminae, no medullae, and no mushroom bodies. Group 2 spiders had large laminae, no medullae and large mushroom bodies. Group 3 spiders had laminae and some evidence of reduced medullae and mushroom bodies. Group 4 spiders had the most complex systems, with large laminae, medullae formed from optical glomeruli, and robust mushroom bodies. Within groups, there was large variation in the shape and size of individual regions, indicating possible variation in neuronal organization. The possible evolutionary implications of the loss of a dedicated olfactory organ in spiders and its effects on the mushroom body are also discussed.