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Purpose: The main purpose of this study to analyze the coordination, propulsion and non-propulsion phases in the 100 meters breaststroke race. Methods: Twenty-seven male swimmers (15.7±1.98 years old) with the total body length (TBL) of 247.0±10.60 [cm] performed an all-out 100m breaststroke bout. The bouts were recorded with an underwater camera installed on a portable trolley. The swimming kinematic parameters, stroke rate (SR) and stroke length (SL), as well as the coordination indices based on propulsive or non-propulsive movement phases of the arms and legs were distinguished. Results: Swimming speed (V 100surface breast ) was associated with SL (R=0.41, p<0.05) and with TBL tending towards statistical significance (R=0.36, p<0.07), all relationships between the selected variables in the study were measured using partial correlations with controlled age. SL interplayed negatively with the limbs propulsive phase Overlap indicator (R=-0.46, p<0.05), but has no significant relationship to the non-propulsion Glide indicator. Conclusions: The propulsion in-sweep (AP3) phase of arms and their non-propulsion partial air recovery (ARair) phase interplayed with V 100surface breast (R=0.51, p<0.05 and 0.48 p<0.05) respectively, displaying the importance of proper execution of this phase (AP3) and in reducing the resistance recovery phases in consecutive ones.
Czasopismo
Rocznik
Tom
Strony
83--89
Opis fizyczny
Bibliogr. 32 poz., rys., tab.
Twórcy
autor
- Department of Water Sports in the Sport Institute, Faculty of Physical Education and Sport, University School of Physical Education, Cracow, Poland
autor
- Movement Analysis Laboratory in the Department of Physiotherapy Faculty of Motor Rehabilitation, University School of Physical Education, Cracow, Poland
autor
- Department of Water Sports in the Sport Institute, Faculty of Physical Education and Sport, University School of Physical Education, Cracow, Poland
autor
- Department of Water Sports in the Sport Institute, Faculty of Physical Education and Sport, University School of Physical Education, Cracow, Poland
autor
- Department of Sports Training, Faculty of Physical Education, The Jerzy Kukuczka Academy of Physical Education, Katowice, Poland
autor
- Department of Recreation and Biological Regeneration, Faculty of Tourism and Leisure, University School of Physical Education, Cracow, Poland
autor
- PhD candidate at the University School of Physical Education, Cracow, Poland
Bibliografia
- [1] BARBOSA T.M., FERNANDES R., KESKINEN K.L., COLACO P., CARDOSO C., SILVA J., VILAS-BOAS J.P., Evaluation of the energy expenditure in competitive swimming strokes, Int. J. Sports Med., 2006, 27, 894–899.
- [2] BARBOSA T.M., FERNANDES R.J., KESKINEN K.L., VILAS-BOAS J.P., The influence of stroke mechanics into energy cost of elite swimmers, Eur. J. Appl. Physiol., 2008, 103, 139–149.
- [4] BARBOSA T., LIMA F., PORTELA A., NOVAIS D., MACHADO L., COLAÇO P., GONÇALVES P., FERNANDES R.J., KESKINEN K.L., VILAS-BOAS J.P., Relationships between energy cost, swimming velocity and speed fluctuation in competitive swimming strokes, Portuguese Journal of Sports Sciences, 2006, 6, 192–194.
- [5] BARBOSA T.M., MOROUÇO P., JESUS S., FEITOSA W., COSTA M.J., MARINHO D.A., SILVA A.J., GARRIDO N.D., Interaction between speed fluctuation and swimming velocity in young competitive swimmers, Int. J. Sports Med., 2013, 34, 123–130.
- [6] CAPPAERT J., 1992 Olympic report. Limited circulation communication to all FINA Federations, Colorado Springs, CO, United States Swimming 1993.
- [7] CAPPAERT J., RUSHALL B.S., Biomechanical analyses of champion swimmers, Spring Valley, CA, Sports Science Associates, 1994.
- [8] CHOLLET D., SEIFERT L., LEBLANC H., BOULESTEIX L., CARTER M., Evaluation of the arm–leg coordination in flat breaststroke, Int. J. Sports Med., 2004, 25, 486–495.
- [9] COSTILL D.L., D’ACQUISTO G.L., D’ACQUISTO L.J., Videocomputer assisted analysis of swimming technique, Journal of Swimming Research, 1987, 2, 5–9.
- [10] COSTILL D.L., MAGLISCHO E.W., RICHARDSON A.B., Swimming. Handbook of Sports Medicine and Science, Blackwell Scientific Publications 1992, 99.
- [11] HALJAND R., Available from URL: http://www.swim.ee /models/ _breast_swim1.html, 2013.
- [12] KENNEDY P., BROWN P., CHENGALUR S.N., NELSON R.C., Analysis of male and female Olympic swimmers in the 100-meter events, Int. J. Sport Biomech., 1990, 6, 187–197.
- [13] LEBLANC H., SEIFERT L., BAUDRY L., CHOLLET D., Arm-leg coordination in flat breaststroke: a comparative study between elite and non-elite swimmers, Int. J. Sports Med., 2005, 26, 787–797. [14] LEBLANC H., SEIFERT L., CHOLLET D., Arm-leg coordination in recreational and competitive breaststroke swimmers, J. Sci. Med. Sport., 2009, 12, 352–356.
- [15] LEBLANC H., SEIFERT L., TOURNY-CHOLLET C., CHOLLET D., Intra-cyclic distance per stroke phase, velocity fluctuations and acceleration time ratio of a breaststroker’s hip: a comparison between elite and non-elite swimmers at different race paces, Int. J. Sports Med., 2007, 28, 140–147.
- [16] MAGLISCHO E.W., Swimming fastest, Human Kinetics. Champaing, Illinois (US) 2003, 236, 244, 245.
- [17] MAGLISCHO E.W., Part II: Is the breaststroke arm stroke a “Pull” or a “Scull”? Journal of Swimming Research, 2013, 21, 1–16.
- [18] MANLEY P., ATHA J., Intra-stroke velocity fluctuations in paces breaststroke swimming, [in:] D. MacLaren, T. Reilly, A. Lees (Eds.), Biomechanics and medicine in swimming VI, E & FN Spon,, London, 1992, 151–160.
- [19] MARTENS J., DALY D., Qualitative evaluation of water displacement in simulated analytical breaststroke movements, J. Hum. Kinet., 2012, 32, 53–63.
- [20] MORAIS J.E., SAAVEDRA J.M., COSTA M.J., SILVA A.J., MARINHO D.A., BARBOSA T.M., Tracking young talented swimmers: follow-up of performance and its biomechanical determinant factors, Acta Bioeng. Biomech., 2013, 15, 129–138.
- [21] SANDERS R.H., Breaststroke technique, variations among New Zealand Pan Pacific squad swimmers, [in:] J.P. Troup, A.P. Hollander, D. Strasse, S.W. Trappe, J.M. Cappaert, T.A. Trappe (Eds.), Biomechanics and medicine in swimming VII, E & FN Spon, New York, 1996, 64–69.
- [22] SCHLEIHAUF R.E., A hydrodynamics analysis of swimming propulsion, [in:] Terauds J., Bedingfield E.W. (eds.), Swimming III, University Park Press, MD, Baltimore, 1979, 70–109.
- [23] SEIFERT L., CHOLLET D., A new index of flat breaststroke propulsion: comparison between elite men and elite women, J. Sports Sci., 2005, 23, 309–320.
- [24] SEIFERT L., LEBLANC H., CHOLLET D., DELIGNIERES D., Interlimb coordination in swimming: effect of speed and skill level, Hum. Mov. Sci., 2010, 29, 103–113.
- [25] SEIFERT L., LEBLANC H., HERAULT R., KOMAR, J., BUTTON C., CHOLLET D., Inter-individual variability in the upper– lower limb breaststroke coordination, Hum. Mov. Sci., 2011, 30, 550–565.
- [26] STRZAŁA M., KRĘŻAŁEK P., GŁĄB G., KACA M., OSTROWSKI A., STANULA A., TYKA A.K., Intra-cyclic phases of arm-leg movement and index of coordination in relation to sprint breaststroke swimming in young swimmers, J. Sports Sci. Med., 2013, 12, 690–697.
- [27] STRZAŁA M., KRĘŻAŁEK P., KACA M., GŁĄB G., OSTROWSKI A., STANULA A., TYKA A., Swimming speed of the breaststroke kick, J. Hum. Kinet., 2012, 35, 133–139.
- [28] TAKAGI H., SUGIMOTO S., NISHIJIMA N., WILSON B., Differences in stroke phases, arm–leg coordination and velocity fluctuation due to event, gender and performance level in breaststroke, Sports Biomech., 2004, 3, 15–27.
- [29] THOMPSON K.G., HALJAND R., MACLAREN D.P., An analysis of selected kinematic variables in national and elite male and female 100-m and 200-m breaststroke swimmers, J. Sports Sci., 2000, 18, 421–431.
- [30] TOURNY C., CHOLLET D., MICALLEF J.P., MACABIES J., Comparative analysis of studies of speed variations within a breaststroke cycle, [in:] D. MacLaren, T. Reilly, A. Less (Eds.), Swimming Science VI, E & FN SPON, London, 1992, 161–166.
- [31] TROUP J., Aerobic characteristics of the four competitive strokes, [in:] J. Troup (ed.), International Center for Aquatic Research Annual. Studies by the International Center for Aquatic Research (1990–1991), US Swimming Press, Colorado Spring, 1991, 3–7.
- [32] VILAS-BOAS J.P., Maximum propulsive force and maximum propulsive impulse in breaststroke swimming technique, [in:] A. Barbaras, G. Fabian (Eds.), Proceedings of the XIIth International Symposium on Biomechanics in Sports, Hungarian University of Physical Education, Budapest, 1994, 307–310.
- [33] VORONTSOV A.R., RUMYANTSEV V.A., Resistive forces in swimming, [in:] V. Zatsiorsky (Ed.), The Encyclopaedia of Sports Medicine, Blackwell Science Ltd., London, 2000, 209–211.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7ea69d09-eb75-4987-b187-72153196c481