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Journal of Experimental Biology, Vol 198, Issue 1 203-208, Copyright © 1995 by Company of Biologists

JOURNAL ARTICLES

Swimming kinematics of fast starts are altered by temperature acclimation in the marine fish Myoxocephalus scorpius

T Beddow, J Leeuwen and I Johnston

The swimming kinematics of prey capture was studied in short-horned sculpin (Myoxocephalus scorpius L.) acclimated for 6­8 weeks to either 5 °C or 15 °C (12 h:12 h light:dark) using 15 °C-acclimated shrimps as prey. Fish acclimated to 5 °C remained interested in feeding following an acute rise in temperature to 15 °C over 12 h. Prey capture was a stereotyped behaviour consisting of stalking and stationary phases, followed by an S-shaped fast-start (stage 1), a propulsive stroke (stage 2) and a glide of variable duration during which the mouth was expanded and protruded to suck in the prey (stage 3). The duration of the preparatory stroke (half tail-beat, stage 1) was significantly shorter at 15 °C (48.8 ms) than at 5 °C (108.3 ms) in the 5 °C-acclimated sculpin (Q10=2.2). For 5 °C-acclimated fish, at 5 °C, the maximum values for acceleration and velocity along the path travelled by the fish were 16.2 m s-2 and 0.8 m s-1 respectively. Both variables were relatively independent of acute temperature change (Q10=1.1­1.2; P>0.1). At 15 °C, the maximum velocity was 33 % higher and the tail-beat duration of the propulsive stroke was 37 % shorter in 15 °C-acclimated than in 5 °C-acclimated fish. Both stride length and tail-beat amplitude were significantly higher (28 and 23 % respectively) in 15 °C- compared with 5 °C-acclimated sculpin at 15 °C. The results demonstrate plasticity in the major kinematic variables of fast-starts following warm acclimation sufficient to increase the percentage of successful attacks during prey capture from 23.2 to 73.4 %.

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