Billat, V. L., Slawinski, J, Bocquet, V, Demarle, A, Lafitte, L, Chassaing, P & Koralsztein, J. P. (2000). Intermittent runs at the velocity associated with maximal oxygen uptake enables subjcts to remain at maximal oxygen uptake for a longer time than intense but submaximal runs. European Journal of Applied Physiology, Berlin 81(2000)3, S. 188 - 196, 1 Abb., 3 Tab., zahlr. Lit..
APA (7th ed.) CitationBillat, V. L., Slawinski, J., Bocquet, V., Demarle, A., Lafitte, L., Chassaing, P., & Koralsztein, J. P. (2000). Intermittent runs at the velocity associated with maximal oxygen uptake enables subjcts to remain at maximal oxygen uptake for a longer time than intense but submaximal runs European Journal of Applied Physiology.
Chicago Style (17th ed.) CitationBillat, V. L., J. Slawinski, V. Bocquet, A. Demarle, L. Lafitte, P. Chassaing, and J. P. Koralsztein. "Intermittent Runs at the Velocity Associated with Maximal Oxygen Uptake Enables Subjcts to Remain at Maximal Oxygen Uptake for a Longer Time than Intense but Submaximal Runs." European Journal of Applied Physiology 2000.
MLA (9th ed.) CitationBillat, V. L., et al. "Intermittent Runs at the Velocity Associated with Maximal Oxygen Uptake Enables Subjcts to Remain at Maximal Oxygen Uptake for a Longer Time than Intense but Submaximal Runs." European Journal of Applied Physiology, 2000.