Purpose: This study reports the results of a 20-yr (2005 to 2024) follow-up study of two 2-time Olympic and 6-time world champion rowing athletes. To provide a comprehensive picture of adaptations in physiological and performance characteristics to long-term training, we monitored the athletes' physiological and performance data annually through five 4-yr developmental phases.
Methods: Maximal oxygen uptake (V̇O 2max ), maximal minute power (MMP), and power output corresponding to anaerobic threshold (PAT) were derived from a rampwise exercise test on a rowing ergometer. In addition, average power output sustained during all-out tests over 2000 and 6000 m on a rowing ergometer was also obtained.
Results: V̇O 2max peaked at age 22 for athlete A and at age 25 for athlete B (at ~7 L·min -1 ) before stabilizing and then gradually declining to a range of 6.2 to 6.5 L·min -1 for both athletes. MMP stabilized in both rowers at values between 550 and 575 W and displayed minimal fluctuations over the final two phases of the study. In addition, MMP closely resembled the corresponding average power output sustained during the 2000-m all-out tests on a rowing ergometer. Average power output during 2000 and 6000-m all-out tests showed steady improvements over the monitored phases of the study, with the highest power output crew averages for both 2000-m (532 W; 5 min 48 s) and 6000-m (463 W; 18 min 4 s) tests recorded during the last 4-yr phase of the assessment.
Conclusions: Improvements in rowing ergometer performance over 2000 and 6000 m appear to be largely independent of the multiyear changes in V̇O 2max . Long-term rowing training resulted in continuous improvements in MMP and PAT throughout the monitored phases, which more closely mimicked improvements in rowing ergometer performance.
Copyright © 2024 by the American College of Sports Medicine.