Potassium Metabolism in Seawater Teleosts: II. Evidence for Active Potassium Extrusion Across the Gill

Abstract

Unidirectional K-fluxes were estimated in unanaesthetized trout and sculpin and in anaesthetized sculpin from observed ⁸⁶Rb movement (J^K = 1·3 J^Rb). In all three groups efflux exceeded influx; J_o/J_in was 2–3. The values predicted by the flux ratio equation were 0·5 for trout and 1·0 for sculpin, so active K-extrusion is indicated. The results also show that more than one half of the total influx must be ingested with food rather than passing across the gills. Flux data show that the gills are more permeable to K⁺ than to Na⁺, P_K/P_Na was 5·4 in trout and 2·6 in sculpin. Changes in K-concentration in the external medium did not appear to affect efflux; there was no exchange component in the total fluxes. When both Na⁺ and K⁺ were omitted from the bathing solution, efflux decreased to about 15 % of the normal seawater value. This is more than would be expected if the flux were purely diffusive and supports the conclusion that extrusion contains an active component. Repletion of the ion-deficient medium with K⁺ (alone) increased K-efflux. However, it also repolarized the gill and increased plasma [K⁺], and the flux change could be accounted for by the augmented driving force; i.e. it was diffusive. The additional plasma K came from the intracellular compartment, rather than an augmented influx from the medium.