At the onset of exercise, both cardiac output and ventilation increase abruptly. We investigated the hypothesis that a rapid change in cardiac output, as effected by an immediate increase in heart rate at the start of exercise and a decrease in heart rate at the termination of exercise, affects the responses of oxygen uptake. Five patients in whom programmable pacemakers had been previously inserted for complete heart block were studied. Responses in ventilation and gas exchange were recorded breath by breath during studies in which each subject performed 16 transitions between rest and moderate exercise on a cycle ergometer. In a randomized fashion, in half of the transitions, heart rate was accelerated from a low rate to a high rate as exercise began; in the other half, heart rate was held constant at the low rate as exercise began. Oxygen uptake increased by 30 percent in the first 20 seconds of exercise, when heart rate was constrained, while it increased by 70 percent when heart rate was abruptly accelerated. Similarly, smaller changes were observed at the cessation of exercise when the heart rate was constrained, as compared to an abrupt decrease in heart rate. Despite this difference in the responses of oxygen uptake, at the transitions in exercise, the ventilatory responses were indistinguishable. We have demonstrated that ventilation-independent changes in oxygen uptake can be induced at the onset and cessation of exercise. These alterations in oxygen uptake are predictable from differences in blood flow which occur as a consequence of the differences in time course of the heart rate.