Jellyfish for the study of nervous system evolution and function
Karen Cunningham, David J. Anderson, Brandon Weissbourd
Abstract
Jellyfish comprise a diverse clade of free-swimming predators that arose prior to the Cambrian explosion. They play major roles in ocean ecosystems via a suite of complex foraging, reproductive, and defensive behaviors. These behaviors arise from decentralized, regenerative nervous systems composed of body parts that generate the appropriate part-specific behaviors autonomously following excision. Here, we discuss the organization of jellyfish nervous systems and opportunities afforded by the recent development of a genetically tractable jellyfish model for systems and evolutionary neuroscience.
Topics & Concepts
JellyfishNeuroscienceBiologyNervous systemForagingBody planFunction (biology)Evolutionary biologyFish <Actinopterygii>Cognitive scienceEcologyGeneFisheryPsychologyGeneticsMarine Invertebrate Physiology and EcologyEvolutionary Game Theory and CooperationConnexins and lens biology