Findings from studies of the effects of aging on the human respiratory controller are equivocal. This study assessed the ventilatory response to CO2 in hyperoxia and hypoxia in groups of younger (YS) and older (OS) humans. Two protocols were used. In the first, end-tidal PCO2 (PETCO2) was clamped at 1-2 Torr above rest (eucapnia), and, in the second, PETCO2 was clamped at 7-8 torr above resting PETCO2 (moderate hypercapnia). End-tidal PO2 was clamped at 100 Torr throughout except for two 2-min periods at 500 and 50 Torr. The ventilatory responses for each subject at each PO2 were fitted to the linear equation, VE = S(PETCO2 - B), where VE is minute ventilation, S is the response curve slope, and B is the response curve threshold. In eucapnia, there were no differences in hypoxic and hyperoxic VE between YS and OS. In hypercapnia, hypoxic VE was 24% lower in OS [39.93 +/- 2.71 (SE) l/min] than in YS (52.16 +/- 3.17 l/min). In hypoxia, S was significantly lower in OS (3.25 +/- 0.38 l.min-1.Torr-1) than in YS (4.76 +/- 0.37 l.min-1.Torr-1). We conclude that, in older humans, VE is lower in hypoxia during moderate hypercapnia, resulting mainly from a decreased peripheral chemoreflex CO2 sensitivity.