To determine if ventilation (VE) during maximal exercise would be increased as much by 3% CO2 loading as by resistive unloading of the airways, we studied seven subjects (39 +/- 5 years; mean +/- S.D.) during graded-cycle ergometry to exhaustion while breathing: (1) room air (RA); (2) 3% CO2, 21% O2, and 76% N2; or (3) 79% He and 21% O2). VE and respiratory mechanics were measured during each 1-min increment (20 or 30 W) in work rate. VE during maximal exercise was increased 21 +/- 17% when breathing 3% CO2 and 23 +/- 16% when breathing HeO2 (P < 0.01). Further, the ventilatory response to exercise above ventilatory threshold (VTh) was increased (P < 0.05) when breathing HeO2 (0.89 +/- 0.26 L/min/W) as compared with breathing RA (0.65 +/- 0.12). When breathing HeO2, end-expiratory lung volume (% total lung capacity, TLC) was lower during maximal exercise (46 +/- 7) when compared with RA (53 +/- 6, P < 0.01). In conclusion, VE during maximal exercise can be augmented equally by 3% CO2 loading as by resistive unloading of the airways in younger subjects. This suggests that in younger subjects with normal lung function there are minimal mechanical ventilatory constraints on VE during maximal exercise.