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Acta Facultatis Educationis Physicae Universitatis Comenianae

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0520-7371
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The Impact of Endurance Training on Functional Parameters During the Preparation Phase among Cross-Country Skiers

Peter Žiška
  • Department of Track & Field, Faculty of Physical Education and Sport, Comenius University in Bratislava, Slovakia
  • Other articles by this author:
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/ Dávid Olasz
  • Department of Track & Field, Faculty of Physical Education and Sport, Comenius University in Bratislava, Slovakia
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
/ Matúš Krčmár
  • Department of Track & Field, Faculty of Physical Education and Sport, Comenius University in Bratislava, Slovakia
  • Other articles by this author:
  • De Gruyter OnlineGoogle Scholar
Published Online: 2016-05-18 | DOI: https://doi.org/10.1515/afepuc-2016-0005

Summary

In the study, we have tried to demonstrate the effect of endurance training on changes in functional parameters during the preparation phase (12-week mesocycle) among cross-country skiers. The group consisted of 10 male cross-country skiers (age: 21.4 ±5 year) who completed control (1st 6 week mesocycle) and experimental period (2nd 6 week mesocycle).We focused on the following time-varying parameters: changes in maximal oxygen uptake (VO2max), the level of aerobic (AeT) and anaerobic thresholds (AT), maximum heart rate (HRmax) and performance on the running treadmill. The intra-individual monitoring of each athlete revealed statistical significance of VO2max (mid_VO2max = 69.48 ± 5.72 l.kg-1.min-1, post_ VO2max = 70.96 ± 5.67 ml.kg-1.min-1; p≤0.05) and the level of AT (mid_AT = 86.2 ± 5.43 %, post_AT = 87.8 ± 5.59 %; p≤0.01) the performance on the running treadmill (mid_t = 14:54 ± 1:43 min., post_t = 15:30 ± 1:50 min.; p≤0.05).The significant changes were recorded in the AeT(pre_AeT = 70.3 ± 7.56 %, mid_AeT = 72.5 ± 7.59 %; p≤0.05) in theHRmax(pre_HRmax = 190 ± 8.04 bpm, mid_HRmax = 189 bpm, post_HRmax = 188 ± 7.34 bpm; p = n.s.) during control period. We assume that the significant differences occurred as a result of adaptation changes due to training stimuli, which were induced by changes in functional parameters. Increased training volume in zone lower level of oxygen regime (A1), upper level of oxygen regime (A2) and upper level of lactate tolerance(T2) during experimental period elicited changes which reflected the increase functional parameters and performance on the running treadmill compared to that of control period.

Keywords : cross-country skiing; maximal oxygen uptake; aerobic and anaerobic threshold level; the endurance training

References

  • 1. BILLAT, V.L. et al., 2001. Physical and training characteristics of top-class marathon runners. Med Sci Sports Exerc. 33: 2089-2097.CrossrefGoogle Scholar

  • 2. DAVID, R., JR. BASSETT, T. EDWARD & T. HOWLEY, 1999. Limiting factors for maximum oxygen uptake and determinants of endurance performance. Medicine & science in sports & excercise. 0195-9131/00/3201-0070/0.Google Scholar

  • 3. DÍVALD, L., 2009. Kontrolovaný tréning. Poprad: SLZA.Google Scholar

  • 4. EVERTSEN, F., J. MEDBÉ & A. BONEN, 2001. Effect of training intensity on muscle lactate transporters and lactate threshold of cross-country skiers. Acta Physiol Scand. 173, 195-205.Google Scholar

  • 5. GASKILL, S.E., 1988. Fitness Cross-Country Skiing. Champaign, IL: Human Kinetics.Google Scholar

  • 6. GASKILL, S.E., R. C. SERFASS, D. W. BACHARACH & J. M. KELLY, 1999. Responses to training in cross-country skiers. Med Sci Sports Exerc. 31: 1211-1217.CrossrefGoogle Scholar

  • 7. HAUTALA, A.J., T.H. MAKAKALLIO, A. KIVINIERNI, R.T. LAULDKANEN, S. NISSILA, H.V. HUIKURI & M.P. TULPPO, 2003. Cardiovascular autonomic function correlates with the response to aerobic training in healthy sedentary subjects. Am J Physiol. 285. H1747-52.Google Scholar

  • 8. HICK SON, R.C., H.A. BOMZE & J.O. HOLLOSZY, 1977. Linear increase in aerobic power induced by a strenuous program of endurance exercise. J Appl Physiol. 42:372-376.Google Scholar

  • 9. HYNYNEN, E., A. UUSTRALO, N. KONTRINEN & H. RUSKO, 2008. Cardiac autonomic responses to standing up and cognitive task in over trained athletes. Sport Med, 29:552-558.Google Scholar

  • 10. JANSSEN, G.J.M.P., 1994. Training Lactate Pulse. 1st ed. Oulu Finland: OyLitto. ISBN 952- 90066-8-3.Google Scholar

  • 11. KOMADEL, Ľ. et al., 1997. Telovýchovno-lekárske vademecum 2. vyd. Bratislava: Slov. spol. telovýchovného lekárstva a Berlin - Chemie, Menarini Group. ISBN 80-967806-3-8.Google Scholar

  • 12. LAURSEN, P.B. & D.G. JENKINS, 2002. The scientific basis for high-intensity interval training: Optimising training programmes and maximising performance in highly trained endurance athletes. Sports Med. 32: 53-73.CrossrefGoogle Scholar

  • 13. MCARDLE, W.D., J.R. MARGEL, D.J. DELIO, M. TONER & J.M. CHASE, 1978. Specificity of run training on VO2 max and heart rate changes during running and swimming. Medicine and Science in Sports. 10(1):16-20.Google Scholar

  • 14. MEŠKO, D., Ľ. KOMADEL et al., 2005. Telovýchovno-lekárske vademecum 3. vyd. Bratislava: Slovenská spoločnosť telovýchovného lekárstva. ISBN 80-969446-4-9.Google Scholar

  • 15. NUMMELA, A., E. HYNYNEN, P. KAIKKONEN & H. RUSKO, 2015. Highintensity endurance training increases nocturnal heart rate variability in sedentary participants. Biol. Sport. 33:7-13.Web of ScienceGoogle Scholar

  • 16. PORGES, S.W., 1992. Vegal tone: a physiological marker or stress vulnerability. Pediatrics. 90: 498-504.Google Scholar

  • 17. RUSKO, H., 2003. Cross country skiing. Jyväskylä: KIHU. ISBN 0-632-05571-5.Google Scholar

  • 18. RUSKO, H., 1987. The effect of training on aerobic power characteristics of young cross‐country skiers. Journal of Sports Sciences. Vol. 5 (3): 273-286.CrossrefGoogle Scholar

  • 19. SEILER, S.K. & Ø.G. KJERLAND, 2004. Quantifying training intensity distribution in elite endurance athletes: is there evidence for an ‘‘optimal’’ distribution? Scandinavian Journal of Medicine & Science in Sport. 16: 51-52.Google Scholar

  • 20. SCHUMACKER, Y.O. & P. MUELLER, 2002. The 4000-m team pursuit cycling world record: theoretical and practical aspects. Med Sci Sports Exerc. 34:1029-1036.Google Scholar

  • 21. STEINACKER, J.M., 1993. Physiological aspects of training in rowing. Int J Sports Med. 14(Suppl. 1): S3-10. Google Scholar

  • 22. STEINACKER, J.M., W. LORMES, M. LEHMANN & D. ALTENBURG, 1998. Training of rowers before world championships. Med Sci Sports Exerc. 30: 1158-1163.CrossrefGoogle Scholar

  • 23. VALISKA, G., 2005. NŠC Šport revue. Adaptačný efekt na aeróbne tréningové zaťaženie v jednoročnom tréningovom cycle. ISSN 1338-0990.Google Scholar

About the article

Published Online: 2016-05-18

Published in Print: 2016-05-01


Citation Information: Acta Facultatis Educationis Physicae Universitatis Comenianae, ISSN (Online) 0520-7371, DOI: https://doi.org/10.1515/afepuc-2016-0005.

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© 2016. This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License. BY-NC-ND 4.0

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