Aim. The aim of this study was to examine the relationship between submaximal and maximal physiological responses to rock climbing for climbers of differing abilities.
Methods. Twenty-six male climbers performed a submaximal climbing test on a known circuit at 90 degrees (vertical) and 105 degrees (15 degrees overhanging) inclination and speed 25 movements. min(-1).
A maximal test was undertaken on a similar circuit at the same speed with inclination increasing by 10 degrees for each successive 3 min stage. Results.
Mean oxygen consumption and heart rate (HR) increased with wall inclination and climbers reached a mean (+/- SD) peak (V) over dotO(2) of 40.3 +/- 3.5 mL.kg(-1).min(-1) during the maximal test. Self-reported climbing ability was negatively correlated with (V) over dotO(2) and HR during the submaximal test at 90 degrees ((V) over dotO(2), r = -0.82; HR, and r = -0.66) and at 105 degrees ((V) over dotO(2), r = -0.84; HR, and r = -0.78) suggesting an increased exercise economy for climbers with a higher ability level.
Conclusion. Findings from this study indicate that there is a relationship between wall inclination and the physiological demand of a climb.
However, the increased technical ability and fitness of higher level climbers appears to an extent to offset the increased demand through improved exercise economy which in turn leads to an increased time to exhaustion and an improvement in performance.