Transportation of yellowtail kingfish (Seriola lalandi Valenciennes) juveniles from hatchery to on-growing operations in New Zealand exposes the fish to significantly elevated carbon dioxide (CO2) concentrations. Experiments were undertaken to assess metabolic and haematological stress responses after a 5 h period of hypercapnia followed by recovery in normocapnia. Mortality was low (0.5%) and secondary stress indices (blood glucose, blood lactate, muscle pH and muscle lactate) were largely unchanged during a simulated transportation and recovery, despite juveniles being exposed to CO2 concentrations as high as 75 mg CO2 L-1 (38 mm Hg partial pressure). There was some haematological disturbance midway through simulated transports where water was maintained at fixed CO2 concentrations of 8 and 50 mg CO2 L-1 (4 and 26 mm Hg, respectively). Persistent erythrocyte swelling continued during transport at 50 mg CO2 L-1, whereas at 8 mg CO2 L-1 haematological variables had returned to control levels. There was no mortality recorded for any of the treatments and haematological variables were restored to pre-manipulation levels after 31 h. The results indicated that juvenile yellowtail kingfish have a robust physiology and can cope with the stressors imposed by acute exposure to moderate to high levels of CO2 associated with live transport.