PT  - JOURNAL ARTICLE
AU  - PLAYLE, RICHARD C.
AU  - MUNGER, R. STEPHEN
AU  - WOOD, CHRIS M.
TI  - Effects of Catecholamines on Gas Exchange and Ventilation in Rainbow Trout (&lt;em&gt;Salmo Gairdneri&lt;/em&gt;)
DP  - 1990 Sep 01
TA  - Journal of Experimental Biology
PG  - 353--367
VI  - 152
IP  - 1
4099  - http://jeb.biologists.org/content/152/1/353.short
4100  - http://jeb.biologists.org/content/152/1/353.full
SO  - J. Exp. Biol.1990 Sep 01; 152
AB  - A transient inhibitory effect of catecholamines on relative CO2 excretion, mediated by an inhibition of HCO3− dehydration through the red blood cell (RBC), has been proposed to cause the increase in PaCOCO2 routinely observed after strenuous exercise in fish (‘CO2 retention hypothesis’, Wood and Perry, 1985). To evaluate this idea, trout fitted with arterial cannulae, oral membranes and opercular catheters were placed in ventilation chambers. PaCOCO2 RBC intracellular pH (pHi) and other blood acid-base parameters were monitored from the arterial cannulae. The ventilation chamber system allowed continuous, almost instantaneous, measurements of water ΔO2 and ΔCO2 across the gills, and therefore of respiratory exchange ratio (RE), as well as Δammonia, mean expired pH and ventilation volume (Vw). Physiological doses of adrenaline and noradrenaline (3.2nmolkg−1), designed to duplicate typical post-exercise concentrations, together with appropriate saline controls, were injected into resting fish. Adrenaline caused an immediate hypoventilation, while the response to noradrenaline was biphasic: hyperventilation followed by hypoventilation. With both drugs, ΔO2 and ΔCO2 increased, but RE remained constant (adrenaline) or increased (noradrenaline). There was no evidence of a specific inhibition of CO2 excretion, nor was there any increase in PaCOCO2; changes in RBC pHi were small (noradrenaline) or non-existent (adrenaline). These results confirm those of Steffensen et al. (1987) and do not support the CO2 retention hypothesis. However, the RBCs of resting trout may be relatively insensitive to catecholamines at normal arterial blood pH (pHa).