This study was conducted for determining the effects of trainings, applied to athletes during short term camp period, on their aerobic and anaerobic performance. Measurements were made by the participation of 28 volunteer male ice hockey national team players. During the 15-day camp period, 10-minute running and stretching for warming and then 40-minute jogging practice was performed in the mornings, and at evenings, following warming and stretching for the same lengths, general strength practices were applied. On the first and last day of the camp period, after making body weight and height measurements, respectively, the Running-Based Anaerobic Sprint Test (RAST) and 20m shuttle running tests were performed. The obtained data were evaluated by the paired-t test. As a result of the study, when the  two measurements were compared, there was no significant difference found between speed, maximal oxygen consumption (VO2max) and fatigue index (FI) (p>0,05); significant differences were found between the two measurements in heart rate (HR) during maximal loading (p<0,05). Based on these results; it was concluded that although trainings performed during short term camp period lowered number of heart beats at maximal running speed, this time was not sufficient for developing performance.  

Astrand, P.O. & Rodahl, K. (1986). Textbook of Work Physiology. Newyork: McGraw-Hill Book.

Bompa, T.O. (2003). Theory & Methodology of Training, Hunt publishing.

Carey, D.G., Drake, M.M., Piliego, G.J. & Raymond, R.L. (2007). Do hockey players need aerobic fitness? Relation between V02max and fatigue during high-intensity intermittent ice Skating. J Strength Cond Res. 21, 963-966.

Costill, D.L., Thomason, H., Robert, E. (1973). Fractional utilization of the aerobic capacity during distance running.  Med Sci Sport Exer, 5: 248-52.

Cox, M.H., Miles, D.S., Verde, T.J., & Rhodes, E.C. (1995). Applied physiology of ice hockey. Sports Med 19, 184-201.

Ergen, E. (2007). Exercise Physiology Text Book. Ankara. Nobel Publishing.

Hare, D. (1982). Principle of Sports Training, Berlin.

Kitamura, K., Toriumi, K., Nunomura, T. & Horita, T. (1991). Relationship between HR and VO2 during steady-state and unsteady-state exercise. Jpn J Phys Fitness Sports Med 40, 372-373.

Koşar, N.Ş. & Hazır, T. (1996). Reliability of Wingate anaerobic strength test. Journal of Sports Sciences 7, 21-30.

Koşar, N.Ş. & Kin İşler, A. (2004). Wingate anaerobic performance profile and gender differences of university students. J Sport Sci 15, 25-38.

Koz, M. & Taşdemir, G. (2009). Performance characteristics of Turkish national team male players. Sports Sciences of Clinics of Turkey 1, 67-70.

MacDougall, J.D., Hicks, A.L., MacDonald, J.R., McKelvie, R.S., Green, H.J. & Smith, K.M. (1998). Muscle performance and enzymatic adaptations to sprint interval training. J Appl Physiol 84, 2138- 2142.

Maud, P.J. & Shultz, B.B. (1989). Norms for the Wingate anaerobic test with comparison to another similar test. Res Q Exercise Sport 60, 144-151.

Montgomery, D.L. (1988). Physiology of ice hockey. Sports Med 5, 99-126.

Wadley, J.G., Le Rossignol, P. (1998). The relationship between repeated sprint ability and the aerobic and anaerobic energy systems. J Sci Med Sport 1, 100-110.

Yamaji, K., Guchi, F. & Hashizume, K. (2008). Assessment to running speed at predicted maximal heart rate in trained runners. Adv Exerc Sports Physiol 13, 101-106.

Zahner, L., Puder, J.J., Roth, R., Schmid, M., Guldimann, R., Pühse, U., Knöpfli, M., Braun-Fahrländer, C., Marti, B., Kriemler, S. (2006). A school-based physical activity program to improve health and fitness in children aged 6-13 years (Kinder-Sportstudie KISS): study design of a randomized controlled trial. BMC Public Health 6, 147.