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First published online March 22, 2004
Journal of Experimental Biology 207, 1563-1575 (2004)
Published by The Company of Biologists 2004
doi: 10.1242/jeb.00927
Locomotory behaviour and post-exercise physiology in relation to swimming speed, gait transition and metabolism in free-swimming smallmouth bass (Micropterus dolomieu)
1 Department of Biology, University of New Brunswick, Fredericton, NB, E3C
6E1, Canada
2 Department of Biology, Simon Fraser University, Burnaby, BC, V5A 1S6,
Canada
* Author for correspondence (e-mail: speake{at}unb.ca)
Accepted 9 February 2004
We examined swimming behaviour, gait recruitment and post-exercise muscle
glycogen, muscle lactate, plasma lactate and oxygen consumption in smallmouth
bass (Micropterus dolomieu; 24–38 cm fork length) that
voluntarily ascended a 25 m raceway against water velocities ranging from 40
to 120 cm s–1. Physiological parameters were referenced to
additional measurements made following exhaustive exercise in a static tank
and aerobic exercise in a swim tunnel. Maximum speeds maintained exclusively
using a steady gait in the raceway ranged from 53.6 to 97.3 cm
s–1 and scaled positively with fish length. Minimum swimming
speeds maintained exclusively through recruitment of an unsteady gait were
also positively correlated to fish length and ranged from 81.4 to 122.9 cm
s–1. Fish switched between steady and unsteady swimming at
intermediate speeds. Smallmouth bass always maintained a positive ground speed
in the raceway; however, those that primarily swam using a steady gait to
overcome low to moderate water velocities (20–50 cm
s–1) maintained mean ground speeds of 
20 cm
s–1. By contrast, mean ground speeds of fish that primarily
recruited an unsteady locomotory gait increased significantly with water
velocity, which resulted in an inverse relationship between exercise intensity
and duration. We interpret this behaviour as evidence that unsteady swimming
was being fuelled by the limited supply of anaerobic substrates in the white
muscle. This hypothesis is supported by the fact that unsteady swimming fish
showed significantly lower muscle glycogen levels, higher lactate
concentrations (muscle and plasma) and higher post-exercise oxygen consumption
rates compared with fish that used a steady gait. The reduction in passage
time achieved by fish using an unsteady gait allowed them to ascend the
raceway with relatively minor post-exercise metabolic imbalances, relative to
individuals chased to exhaustion.
Key words: swimming gait, exercise physiology, aerobic, anaerobic, Micropterus dolomieu
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