The Ventilation, Extraction and Uptake of Oxygen in Undisturbed Flounders, Platichthys Flesus: Responses to Hypoxia Acclimation Available to Purchase

Gill ventilation ⁠, extraction of O₂ from the ventilatory current and O₂-uptake were measured in three groups of undisturbed flounders naturally buried in sand. Two groups were acclimated to normoxic water ⁠. One was studied in normoxic water, the other during acute exposure to hypoxic water (P₁, O₂ = 30 mmHg). A third group was acclimated to and studied in hypoxic water.

Gill ventilation was measured directly using an electromagnetic flowmeter. The flowprobe, fitted to a plastic funnel, was placed over the fish’s mouth without making physical contact with the fish. Exhaled water for calculation of O₂-extraction was siphoned from another plastic funnel placed over the upper operculum of the flounder.

Acute hypoxia exposure of normoxic fish caused nearly a doubling in ventilation volume. In flounders acclimated to chronic hypoxia and studied in hypoxic water the ventilation volume reached a value approximately 3-5 times that of normoxic fish.

O₂-extraction averaged 76% in normoxic flounders. During acute hypoxia the value declined to 52%, the same O₂-extraction was obtained in the chronically hypoxic fish.

for the normoxia acclimated fish in normoxic water was 0 · 45 ml O₂ · kg ⁻¹ .min ^{− 1} declining to 0-12ml O₂.kg ^{− 1}.min ^{− 1} during acute exposure to hypoxia. of hypoxia acclimated fish in hypoxic water was 0 · 24 ml O₂. kg ^{− 1}. min ^{− 1}.

When compared in hypoxic water, the hypoxia acclimated fish show an unchanged O₂-extraction of 52% in spite of a nearly two-fold increase in ventilation relative to that of the normoxia acclimated fish. Possible causes for this may be a left shift of the O₂-Hb dissociation curves and an increase in the transfer factor for O₂ over the gills in the hypoxia acclimated fish.