The purpose of the present study was to check the increase in energy cost of running
at the end of a triathlon and a marathon and to link the decrease in energy cost off
running with running kinematic parameters. Seven well-trained triathletes performed
3 experimental trials: a 2 h15 min triathlon (30 min swimming, 60 min cycling and
45 min treadmill running), a 2 h15 min marathon where the last 45 min (IMR) were run
at the same speed as the triathlon run (TR) (i.e. 75 % of maximal aerobic speed),
and a 45 min isolated run (IR.) done at the same speed. Oxygen uptake (VO2), minute ventilation (VE), heart rate (HR), respiratory exchange ratio (RER) and
kinematic data were recorded during the 3 exercise runs. The results confirm a higher
energy cost during MR compared with TR (+ 3.2 %; p<0.05) and IR (+ 11.7 %; p<0.01).
The triathlon and the marathon were associated with greater weight loss (1.6 +0.02
kg; p<0.01) than the isolated run (0.7 ± 0.2 kg). After cycling, the mean stride length
in TR1 was lower during IR1 and increased at the end of TR. The results show that
MR led to decrease in stride length compared with IR. After cycling, the triathletes
adopted a more forward leaning posture and the trunk gradient was less marked during
the marathon. Moreover, the extension of the knee at foot-strike and the maximal knee
angle in non-support phase both increased during MR compared with TR and IR. However,
it appears that no single kinematic variable can fully explain the decrease in running
efficiency: it seems that running economy during a triathlon and a marathon are linked
to global alterations of many different parameters.
Key words
Thriathletes - running economy - gait analysis - stride length - oxygen uptake
