The recognition, distribution and ultrastructure of hydrozoan nerve elements

Silver stained Cordylophora were examined by light and electron microscopy, which provided a general picture of nerve cell forms and distribution for comparison with electron micrographs of osmium‐fixed tissues from the same hydroid. Muscle, nerve and neurosensory components were studied in the nectophore of Nanomia (O. Siphonophora) and in the hydromedusae Sarsia and Euphysa by means of vital staining and optical and electron microscopy of epon sections; particular attention was given to relationships and interconnections between the cellular elements of the two marginal nerve rings. Mitochondrial size, numbers and types of vesicles and the occurrence of neurotubules and of parts of sensory cilia may provide useful ultrastructural clues for recognizing nerve elements, but serial sections are often needed to make identification conclusive. In Cordylophora and Nanomia , some neurites contain massed A vesicles (membrane‐bounded dense granules) suggestive of neurosecretion (cf. reports on Hydra ). However, a small type of A vesicle also occurs at synapses in Sarsia , indicating a probable role here in junctional transmission. Vesicles occur on both sides of some synapses (as previously reported for Cyanea ) but on one side only in others, these being the first examples of polarized junctional ultrastructure in coelenterates.