Kettunen, O, Kuorelahti, T, Linnamo, V, Ihalainen, J. K. & Mikkonen, R. (2025). Higher energy availability may support hemoglobin mass adaptation during a 21-day period at normobaric hypoxia and normoxia in female skiers. 10th International Congress on Science and Skiing, January 28 - February 1, 2025, Val di Fiemme, Italy (, S. 49).
APA (7th ed.) CitationKettunen, O., Kuorelahti, T., Linnamo, V., Ihalainen, J. K., & Mikkonen, R. (2025). Higher energy availability may support hemoglobin mass adaptation during a 21-day period at normobaric hypoxia and normoxia in female skiers. 10th International Congress on Science and Skiing, January 28 - February 1, 2025, Val di Fiemme, Italy, 49.
Chicago Style (17th ed.) CitationKettunen, O., T. Kuorelahti, V. Linnamo, J. K. Ihalainen, and R. Mikkonen. "Higher Energy Availability May Support Hemoglobin Mass Adaptation During a 21-day Period at Normobaric Hypoxia and Normoxia in Female Skiers." 10th International Congress on Science and Skiing, January 28 - February 1, 2025, Val Di Fiemme, Italy 2025: 49.
MLA (9th ed.) CitationKettunen, O., et al. "Higher Energy Availability May Support Hemoglobin Mass Adaptation During a 21-day Period at Normobaric Hypoxia and Normoxia in Female Skiers." 10th International Congress on Science and Skiing, January 28 - February 1, 2025, Val Di Fiemme, Italy, 2025, p. 49.