Velocity and displacement receptors in the skin of the hagfish Myxine glutinosa.

The skin of Myxine glutinosn contains both velocity‐sensitive and displacement‐sensitive mechanoreceptors. These can be distinguished from each other by the different time course of their response to skin indentation. Velocity receptors gave a brief response, consisting usually of three to four action potentials which could only be elicited by movement of the skin. No velocity receptor was spontaneously active. Displacement receptors, some of which were spontaneously active, gave a prolonged discharge which continued, with only slight adaptation, while the skin was indented. Velocity receptors code for velocity of indentation and continue to respond to repeated stimuli. Displacement receptor action potentials occur irregularly, with a Poisson‐like distribution of interspike interval. The mean frequency of displacement receptor discharge increases with depth of skin indentation, while the interspike interval distribution becomes progressively biased towards shorter intervals. The threshold of displacement receptors is related to displacement velocity; sinusoidal indentations of the skin produce a minimum threshold around 60 Hz. These receptors fail to respond to oscillations in excess of 120 Hz. The structure of the skin is described. Stress‐strain curves are given both for static and dynamic compression of the skin and these are discussed in relation to the properties of the skin mechanoreceptors.