To assess the role of different factors on the long-term antihypertensive effect of regular exercise we examined the time course of changes in haemodynamics, oxygen consumption and plasma noradrenaline in 10 normal healthy subjects. For 12 weeks, subjects performed alternating months of training and detraining in a random order. Training involved 40 min of bicycle exercise three times per week at 60-70% of maximum work. Steady-state changes at the end of 1 month's exercise were: (1) falls in resting blood pressure when supine and erect by 8/5 and 10/6 mmHg, respectively (P less than 0.01); (2) a reduction in the total peripheral resistance index of 14%; (3) an increase in maximum oxygen consumption of 14% (P less than 0.005); and (4) a fall in plasma noradrenaline of 21% (P less than 0.05). A significant fall in blood pressure occurred at the third training bout (P less than 0.005), at the beginning of the second week, and no further reduction occurred beyond the fourth bout of exercise. The reduction in plasma noradrenaline concentration was confined to the second half of the month in which exercise took place and lagged behind the blood pressure changes. There were significant differences between the rates of the initial fall of blood pressure and noradrenaline, and the times taken for the maximum changes to occur (P less than 0.05). During detraining, blood pressure remained low for 1-2 weeks after cessation of exercise, as did plasma noradrenaline. Both then rose gradually towards the initial sedentary levels.(ABSTRACT TRUNCATED AT 250 WORDS)