Neuronal control of respiration in decapod crustacea.

Respiratory exchange in decapod crustacea requires the coordinated activity of the heart and the scaphognathites, appendages which ventilate the gills. There is common central nervous system neuronal modulation of both autogenically active systems as well as direct neuronal communication between both systems. The heart and scaphognathites also respond directly to oxygen tension. The neuronal control of the scaphognathites also respond directly to oxygen tension. The neuronal control of the scaphognathites is analyzed at several levels. Particular attention is directed toward the means by which the innately organized and stereotyped motor pattern for forward beating can be altered to produce reversed beating. The importance of sensory feedback in maintaining normal rates of scaphognathite beating is noted. And the phenomenon of bilateral coordination between the morphologically independent scaphognathites is described. Several different models of parts of the over-all scaphognathite neuronal circuitry are presented for heuristic purposes.