Branchial Acid and Ammonia Fluxes in Response to Alkalosis and Acidosis in Two Marine Teleosts: Coho Salmon (Oncorhynchus kisutch) and Starry Flounder (Platichthys stellatus)

Abstract

Metabolic acidosis, whether endogenous (exhaustive exercise) or exogenous (ammonium sulfate infusion), had qualitatively similar effects on net ammonia flux ( ) and net transfer of acid-base equivalents ( ) in salmon and flounder. Intravascular infusion of ammonium sulfate resulted in a rapid and large increase in in both ospecies, although was about three times greater in salmon than in flounder. Rates of clearance in salmon were 50-60 times those in flounder, and was distributed in a much smaller space than in flounder. Exhaustive exercise also led to increases in both and and again fluxes were 2-3 times greater in salmon than flounder. In both treatments the blood acid-base disturbance was corrected more rapidly in salmon than in flounder. Metabolic alkalosis (sodium lactate infusion) also elicited qualitatively different responses from salmon and flounder. In salmon, there was a net base excretion (i. e., a positive ), and, except for a slight, although significant, reduction 4-8 h after infusion, was unchanged. In contrast, remained unchanged in flounder, despite a nearly 50% reduction in , which persisted for 8 h after infusion. As was the case for acidosis, the blood acid-base disturbance was corrected more rapidly in salmon than in flounder. The different responses may be related to differences in the morphology (e.g., surface area) and/or permeability characteristics of the gills.