Abstract
AbstractSome animals have evolved task differentiation among their eyes. A particular example is spiders, where most species have eight eyes, of which two (the principal eyes) are used for object discrimination, whereas the other three pairs (secondary eyes) detect movement. In the spider species Cupiennius salei these two eye types correspond to two visual pathways in the brain. Each eye is associated with its own first and second order visual neuropil. The second order neuropils of the principal eyes are connected to the arcuate body, whereas the second order neuropils of the secondary eyes are linked to the mushroom body. However, eye size and visual fields are considerably different in jumping spiders. We explored the principal- and secondary eye visual pathways of the jumping spider Marpissa muscosa. We found that the connectivity of the principal eye pathway is the same as in C. salei, while there are differences in the secondary eye pathways. In M. muscosa, all secondary eyes are connected to their own first order visual neuropils. The first order visual neuropils of the anterior lateral and posterior lateral eyes are further connected with two second order visual neuropils, whereas the posterior median eyes lack second order visual neuropils and their axons project only to the arcuate body. This suggests that the posterior median eyes probably do not serve movement detection in M. muscosa. Furthermore, the second order visual neuropil (L2) in Marpissa muscosa potentially integrates information from the secondary eyes and might thus enable faster movement decisions.
Publisher
Cold Spring Harbor Laboratory
Cited by
2 articles.
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