Abstract

The cues that trigger infection of fish by parasitic copepods are largely unknown. We show that copepodids of the parasitic copepod Lepeophtheirus salmonis respond to uniform, linear accel- erations, which are similar to those found in front of a swimming fish. Copepodid responses to vibra- tions at 1, 3, 5 and 10 Hz frequency were filmed and analysed. The animals were stimulated in a completely water-filled, clear perspex chamber, which was suspended like a swing in four wires from a steel frame. The chamber was moved by a vibrator which was fed amplified signals from a sine wave oscillator. On stimulation, copepodids responded by executing swimming bursts of 1-3 s duration. There was no apparent preferred swimming direction. Sensitivity was highest at 3 Hz, with a thresh- old value of 5 x 10~ 3 m s~2 (rms). At 1 Hz the threshold was <6 dB higher, and sensitivity was markedly reduced at 10 Hz, where the threshold was 1.8 x 10~' m s~2 rms. These results indicate that the cope- podids may react to the near-field accelerations produced within centimetres of a swimming fish. Acceleration sensitivity may therefore be a cue that triggers high-speed swimming and subsequent infestation of the host. If this ability is present in holoplanktonic copepods, it may facilitate detection and escape from predatory fish.