Acclimation to warmer temperature reversibly improves high-temperature hypoxia tolerance in both diploid and triploid brook charr, Salvelinus fontinalis.

Rising temperature leads to reduced oxygen solubility and therefore increases the risk of exposure to harmful hypoxic condition for fish in their natural aquatic environments and in aquaculture. The goal of this study was to determine whether acclimation to warmer temperature can improve high-temperature hypoxia tolerance in fish, using sibling diploid and triploid brook charr as the experimental model. Triploid fish are used for aquaculture and fisheries management because they are sterile, but they are known to have reduced thermal and hypoxia tolerance compared to conventional diploids. Fish were pre-acclimated to either 15 °C (optimum temperature for diploids) or 18 °C and then assessed for high-temperature hypoxia tolerance by rapidly increasing temperature to pre-determined levels (up to 30 °C), holding fish at these temperatures for one hour, and then using compressed nitrogen to drive oxygen out of the water. Hypoxia tolerance was expressed as both the oxygen tension at loss of equilibrium and the time taken to reach this endpoint following the start of the trial. Acclimation to 18 °C improved hypoxia tolerance at high temperatures but this advantage was lost after reacclimation to 15 °C. Although 18 °C acclimation improved the hypoxia tolerance of triploids, it remained inferior to that of diploids under identical test conditions. Somatic energy reserves (estimated as condition factor and hepatosomatic index), cardiac output (relative ventricular mass) and oxygen carrying capacity of the blood (hemoglobin concentration and hematocrit) did not markedly affect high-temperature hypoxia tolerance.