The Elementary Nervous System Revisited

Abstract

Parker's theory of the origin of the nervous system is discussed along with later interpretations. Attention today has shifted from the cellular to the molecular level, and it has become clear that many of the molecules and mechanisms thought of as typically neuronal have homologs or counterparts in non-nervous cells and unicellular organisms. This applies to signalling chemicals, receptors, second messenger systems and ion channels, and also to the production of electrical events. Parker's view of sponges as a group lacking nerves but possessing independent effectors is still acceptable, but some sponges (and also higher animals) employ non-nervous signalling pathways to coordinate their effectors. Thus, nerves are not always necessary for coordinated behavior. Cnidarians like hydra have seemingly simple, two-dimensional nervous systems with little or no centralization, but even such systems can be surprisingly complex, and the more advanced cnidarians show neurophysiological specializations as sophisticated as those of many higher invertebrates. Examples of ingenious cnidarian solutions to behavioral problems are given. No existing animals have ‘elementary’ nervous systems if that term implies the existence of crude or inefficient functional adaptations