Respiration During Chronic Hypoxia and Hyperoxia in Larval and Adult Bullfrogs (Rana Catesbeiana) II. Changes in Respiratory Properties of Whole Blood

Abstract

Rana catesbeiana Shaw tadpoles and adults were maintained at 20–23 °C under aerial and aquatic normoxia (⁠ 150 mmHg), hyperoxia (⁠ 275 mmHg) and hypoxia (⁠ 75 mmHg) for 4 weeks, after which the following blood measurements were made: haematocrit, red blood cell count, haemoglobin concentration, mean corpuscular haemoglobin concentration, O₂ capacity, O₂ equilibrium curve, Bohr shift, Hill’s coefficient and intraerythrocytic concentration of nucleotide triphosphates (ATP+GTP) and 2,3-DPG. Normoxic tadpoles had much higher blood O₂ affinity (P₅₀ 9–10 mmHg) than adults (P₅₀ 35 mmHg) but a lower haemoglobin concentration, haematocrit and O₂ capacity. The concentration of intraerythrocytic phosphates was higher in normoxic tadpoles than in adults, indicating that the higher O₂ affinity of normoxic tadpole blood was due to the haemoglobins themselves, rather than affinity modulators. Chronic hypoxia in tadpoles produced little change in whole blood P₅₀, and no significant change in any other blood variable. In adult bullfrogs, on the other hand, O₂ capacity doubled through polycythaemia, and the P₅₀ decreased by 11 mmHg (35%), though apparently not from any significant change in concentration of intraerythrocytic phosphates. Hyperoxia produced no haematological changes in either larvae or adults. In adult bullfrogs exposed to chronic hypoxia, the morphology of the gas exchange organs does not change (Burggren & Mwalukomo, 1983), but instead profound adjustments occur in the blood, favouring O₂ transport under these conditions. The blood of the tadpole shows little or no response to chronic hypoxia, with morphological adjustments in skin, gills and lungs constituting the major response.