Dennis, M. C., Goods, P. M. R., Binnie, M. J., Girard, O, Wallman, K. E., Dawson, B, Billaut, F & Peeling, P. (2023). Increased air temperature during repeated-sprint training in hypoxia amplifies changes in muscle oxygenation without decreasing cycling performance. European Journal of Sport Science, 23 (1), 62-72. Zugriff am 15.02.2023 unter https://doi.org/10.1080/17461391.2021.2003868
APA (7th ed.) CitationDennis, M. C., Goods, P. M. R., Binnie, M. J., Girard, O., Wallman, K. E., Dawson, B., . . . Peeling, P. (2023). Increased air temperature during repeated-sprint training in hypoxia amplifies changes in muscle oxygenation without decreasing cycling performance. European Journal of Sport Science, 23(1), 62-72.
Chicago Style (17th ed.) CitationDennis, M. C., P. M. R. Goods, M. J. Binnie, O. Girard, K. E. Wallman, B. Dawson, F. Billaut, and P. Peeling. "Increased Air Temperature During Repeated-sprint Training in Hypoxia Amplifies Changes in Muscle Oxygenation Without Decreasing Cycling Performance." European Journal of Sport Science 23, no. 1 (2023): 62-72.
MLA (9th ed.) CitationDennis, M. C., et al. "Increased Air Temperature During Repeated-sprint Training in Hypoxia Amplifies Changes in Muscle Oxygenation Without Decreasing Cycling Performance." European Journal of Sport Science, vol. 23, no. 1, 2023, pp. 62-72.