Jd. Kieffer et al., EFFECTS OF ENVIRONMENTAL-TEMPERATURE ON THE METABOLIC AND ACID-BASE RESPONSES OF RAINBOW-TROUT TO EXHAUSTIVE EXERCISE, Journal of Experimental Biology, 194, 1994, pp. 299-317
In vivo experiments were conducted to determine how the physiological
response to exhaustive exercise in rainbow trout (Oncorhynchus mykiss)
is affected by environmental temperature. The white muscle acid-base
status (e.g. pH, P-CO2, HCO3- and Delta H-m(+)) and metabolite (e.g. l
actate, phosphocreatine, ATP and glycogen) content, and the acid-base
status and lactate concentrations in the blood, were measured at rest
and during recovery from burst exercise in rainbow trout acclimated to
either 5 or 18 degrees C. Trout acclimated to the warmer temperature
had higher resting levels of white muscle phosphocreatine (PCr) and al
so utilized a greater proportion of their muscle ATP and glycogen stor
es during burst activity compared with trout acclimated to the colder
temperature. Recovery of muscle PCr and glycogen levels was independen
t of acclimation temperature, but muscle ATP levels recovered faster a
t 18 degrees C. Exhaustive exercise resulted in a similar lactacidosis
in the muscle of trout acclimated to either temperature. In contrast,
temperature had a marked influence on the lactacidosis in the blood.
Blood lactate and metabolic proton concentrations following exercise w
ere about twofold greater in fish acclimated to 18 degrees C than in f
ish acclimated to 5 degrees C. Despite the more severe acidosis and th
e greater lactate accumulation in the plasma of fish acclimated to war
mer temperatures, the time required for recovery of these variables wa
s similar to that at 5 degrees C. Taken together, these results sugges
t that acclimation temperature does not significantly affect anaerobic
capacity in rainbow trout, but may account for much of the documented
variability in the dynamics of the lactacidosis in blood following ex
haustive exercise in fish.