The V overdot O-2max in racehorses is approximately double that of eli
te human athletes and the rate of increase in V overdot O-2 at the ons
et of high intensity exercise is much greater than in man, The kinetic
s of gas exchange are affected by a warm-up prior to exercise in human
s, there being a greater aerobic contribution to high intensity exerci
se after warm-up, Our hypothesis was that a warm-up would increase aer
obic energy delivery in racehorses during high intensity exercise, Thi
rteen fit Standardbred racehorses ran to fatigue at 115% of V overdot
O-2max On a treadmill at 10% slope, Prior to acceleration, horses were
exercised either for 5 min at 50% V overdot O-2max followed by 5 min
walk, or walked for 2 min, Samples of expired gas were collected every
10 s during the run for determination of V overdot O-2 and V overdot
CO2 and measurement of maximal accumulated oxygen deficit (MAOD), Bloo
d lactate concentration was measured 5 min post exercise, We found tha
t with a warm-up, horses had faster kinetics of gas exchange and a gre
ater proportion of their total energy requirement was supplied by aero
bic sources. The aerobic contribution to total energy requirement with
and without warm-up was, respectively, 79.3 +/- 1.0% and 72.4 +/- 1.7
% (P < 0.01). There was also a higher MAOD (P < 0.01) in horses that h
ad not been given a warm-up (mean +/- s.e.m. 34.7 +/- 2.6 and 47.3 +/-
2.6 mlO(2)eq/kg bwt with and without a warm-up respectively), However
, there were no significant differences in total run time or estimated
total energy expenditure between the 2 protocols. We concluded that d
uring high intensity exercise to fatigue lasting 1 to 2 min, more than
70% of energy supply is from aerobic energy sources and that this con
tribution is even greater when the horses have received a warm-up.