Abstract

Metabolic rate depression (MRD) has long been proposed as the key metabolic strategy of hypoxic survival, but surprisingly, the effects of changes in hypoxic O₂ tensions (<i>P</i>w_O₂ ) on MRD are largely unexplored. We simultaneously measured the O₂ consumption rate (<i>Ṁ</i>_O₂ ) and metabolic heat of goldfish using calorespirometry to test the hypothesis that MRD is employed at hypoxic <i>P</i>w_O₂ values and initiated just below <i>P</i>_crit, the <i>P</i>w_O₂below which <i>Ṁ</i>_O₂ is forced to progressively decline as the fish oxyconforms to decreasing <i>P</i>w_O₂ Specifically, we used closed-chamber and flow-through calorespirometry together with terminal sampling experiments to examine the effects of <i>P</i>w_O₂ and time on <i>Ṁ</i>_O₂ , metabolic heat and anaerobic metabolism (lactate and ethanol production). The closed-chamber and flow-through experiments yielded slightly different results. Under closed-chamber conditions with a continually decreasing <i>P</i>w_O₂ , goldfish showed a <i>P</i>_crit of 3.0±0.3 kPa and metabolic heat production was only depressed at <i>P</i>w_O₂ between 0 and 0.67 kPa. Under flow-through conditions with <i>P</i>w_O₂ held at a variety of oxygen tensions for 1 and 4 h, goldfish also initiated MRD between 0 and 0.67 kPa but maintained <i>Ṁ</i>_O₂ to 0.67 kPa, indicating that <i>P</i>_crit is at or below this <i>P</i>w_O₂ Anaerobic metabolism was strongly activated at <i>P</i>w_O₂≤1.3 kPa, but only used within the first hour at 1.3 and 0.67 kPa, as anaerobic end-products did not accumulate between 1 and 4 h exposure. Taken together, it appears that goldfish reserve MRD for near-anoxia, supporting routine metabolic rate at sub-<i>P</i>_crit<i>P</i>w_O₂ values with the help of anaerobic glycolysis in the closed-chamber experiments, and aerobically after an initial (<1 h) activation of anaerobic metabolism in the flow-through experiments, even at 0.67 kPa <i>P</i>w_O₂.