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Journal of Experimental Biology 102,327-335 (1983)
Published by Company of Biologists 1983

Adrenergic Control of Oxygen Transfer in Perfused Gills of the Cod, Gadus Morhua

KNUT PETTERSSON ¹

¹ Department of Zoophysiology, University of Göteborg, Göteborg, Sweden

A perfused and ventilated gill preparation is described in which the pO₂ of the perfusion medium and the irrigating water is controlled. Dorsal aorta effluent pO₂ and flow were measured together with the branchial vascular resistance.

Decreasing pO₂ in the perfusion fluid caused increased branchial vascular resistance, probably by constriction of efferent lamellar arterioles. -adrenoceptor stimulation caused constriction of arteriovenous connections and of efferent lamellar arterioles, and enhanced oxygenation of the perfusion fluid. -adrenoceptor stimulation also increased O₂ transfer, but to a lesser extent.

It is suggested that both hypoxia and -adrenoceptor stimulation improved O₂ transfer via constriction of efferent lamellar arterioles. Both stimuli may also increase systemic blood flow by constriction of the arterio-venous connections, although such an effect of hypoxia has not been clearly shown. -stimulation probably increased O₂ transfer by dilation of afferent lamellar arterioles, thereby causing recruitment of unperfused lamellae.

Key words: Fish, gas exchange, adrencrgic receptors

Submitted on July 30, 1982
Accepted on September 9, 1982