Summary
Aglantha digitale swims in two ways: a slow rhythmical swim typical of hydromedusae in general and a sudden rapid movement that appears to be an escape response. The swimming musculature is an extremely well developed striated circular muscle layer that possesses a sarcoplasmic reticulum. The nervous system of this species can be divided into three units: an inner nerve ring and an outer nerve ring, which are joined by unusually large transmesogleal pathways, a group of giant axons that extends over the surface of the swimming muscle, and the radial canal. Well developed ciliated sensory cells are located on the exumbrellar surface of the margin. Consideration of these properties of the organisation of this species suggests that normal slow swimming is controlled by a mechanism similar to that found in other medusae, while the escape response is the result of the action of the giant axons.
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This work was supported by National Research Council of Canada Grant to Prof. G.O. Mackie. The author thanks Dr. P.A.V. Anderson for reading the manuscript
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Singla, C.L. Locomotion and neuromuscular system of Aglantha digitale . Cell Tissue Res. 188, 317–327 (1978). https://doi.org/10.1007/BF00222640
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DOI: https://doi.org/10.1007/BF00222640