The aerobic capacity of tunas: Adaptation for multiple metabolic demands

Tunas are pelagic, continuous swimmers, with numerous specializations for achieving a high aerobic scope. Tunas must maintain a high rate of energy turnover, and therefore require elevated levels of aerobic performance in multiple physiological functions simultaneously. Based on a model of oxygen demand and delivery to the swimming musculature, the yellowfin's total oxygen consumption at the predicted maximum sustainable (aerobic) swimming velocity is well below estimates of its maximum oxygen consumption. This suggests that the high aerobic scope of tunas may be a specialization that permits continuous swimming in addition to supplying oxygen to other metabolic functions. Estimates of the metabolic costs of oxygen-debt repayment, growth, and specific dynamic action have been combined with this model of aerobic swimming performance to evaluate the total energy budget in relation to the aerobic scope of the yellowfin tuna. Repayment of the oxygen debt incurred during burst swimming is potentially a large component of tuna respiratory metabolism and the relatively high aerobic capacity of tuna white muscle may be a specialization for rapid lactate clearance.