Análisis de la potencia máxima específica en nadadores de diferente nivel

González Ravé, José María; Juárez Santos-García, Daniel; Clemente Suárez, Vicente Javier; Muñoz Fernández-Arroyo, Víctor Eugenio; Díaz Ureña, Germán; Carrasco Poyatos, María; Navarro Valdivielso, Fernando

Análisis de la potencia máxima específica en nadadores de diferente nivel

González Ravé, José María
Juárez Santos-García, Daniel
Clemente Suárez, Vicente Javier
Muñoz Fernández-Arroyo, Víctor Eugenio
Díaz Ureña, Germán
Carrasco Poyatos, María
Navarro Valdivielso, Fernando

Journal:

RED: Revista de entrenamiento deportivo = Journal of Sports Training

ISSN: 1133-0619

Year of publication: 2011

Tome: 25

Issue: 3

Pages: 11-15

Type: Article

DIALNET GOOGLE SCHOLAR

More publications in: RED: Revista de entrenamiento deportivo = Journal of Sports Training

Abstract

This aim of the present study was to analyze the specific maximal power in crawl swimmers of different swimming performance. 33 crawl male swimmers were assigned to four different groups according to their swimming performance: ELITE Group was the more trained group (n=13 men, average of age: 22.6± 5.18 years), followed by FCLM A Group (n=15 men, average of age: 19.3± 3.17 years), FCLM B Group (n=13 men, average of age: 15 ± 2.25 years), and FCLM C Group (n=12 men, average of age: 13.5 ± 3.55 years). Each of these groups performed an incremental resisted swimming test using a loads dispositive Aquaforce - Telju S.A., Toledo, España). A one way ANOVA showed that ELITE Group performed significantly higher (p<0.001) specific maximal power and pull load than FCLM A, FCLM B and FCLM C Groups. In conclusion, elite swimmers showed higher power development than other swimmers.

Bibliographic References

1. Costill, D.L., Rayfield, F., Kirwan, J. P. y Thomas, R. (1986). A computer based system for the measurement of force and power during front crawl swimming. Journal of Swimming Research, 2: 16-19.
2. González Badillo, J.J. (2000). Concepto y medida de fuerza explosiva en el deporte. Posibles aplicaciones al entrenamiento. Revista de Entrenamiento Deportivo, XIV (1): 6-16.
3. González-Ravé, J.M., Juárez, D., Garcia, J.M. y Navarro, F. (2007). Eficacia de la periodización del entrenamiento sobre la potencia máxima. Archivos de Medicina del Deporte, XIX(119):179-186.
4. González-Ravé, J.M. y Garcia-Coll, V. (2006). Respuestas agudas el entrenamiento de fuerza máxima en deportistas femeninas. Archivos de Medicina del Deporte, XXIII(114): 283-290.
5. Guglielmo, L.G.A. y Denadai, B.S. (2000). Assessment of anaerobic power of swimmers: The correlation of laboratory tests on an arm ergometer with field tests in a swimming pool. Journal of Strength and Conditioning Research, 14(4): 395–398.
6. Gullich, A. y Schmidtbleicher, D. (1996). MVC-induced short term potentiation of explosive force. New Studies in Athletics, 11(4): 67-81.
7. Harman, E. (2000). The biomechanics of resistance exercise. En: T.R. Baechle y R.W. Earle (coords.) Essentials of strength training and conditioning (pp. 25-56). Champaign (IL): Human Kinetics.
8. Hawley, J.A. y Williams, M.M. (1991). Relationship between upper body anaerobic power and freestyle swimming performance. International Journal of Sports Medicine 12(1): 1–5.
9. Hawley, J.A. y Williams, M.M., Vickovic, M.M. y Handcock, P.J. (1992). Muscle power predicts freestyle swimming performance. British Journal of Sports Medicine, 26:151–155. Hawley, JA. (2002). Adaptation of skeletal muscle to prolonged, intense endurance training. Clinical and Experimental Pharmacology and Physiology, 29: 218-222.
10. Hunter, G.R. (2000). Muscle Physiology. En: T.R. Baechle y R.W. Earle (coords.). Essentials of strength training and conditioning (pp 3-13). Champaign (IL): Human Kinetics.
11. Issurin, V. y Lustig, G. (2004). L´effetto residuo di allenamento. Classificacione, durata e componenti pratiche dell´effetto residuo di allenamento. Rivista di Cultura Sportiva, (60-61), 25-29.
12. Maglischo, E.W. (2003). Swimming fastest. Champaign: Human Kinetics.
13. McMaster, W.C. y Troup, J.P. (2001). Competitive Swimming Biomechanics: Freestyle. International Sport Medicine Journal, 2(6): 1-8.
14. Pate, T.R. (2000). A conditioning program to increase vertical jump. Strength and Conditioning Journal, 22(2): 7-11.
15. Sands, W.A., McNeal, J.R., Ochi, M.T., Urbaner, T.L., Jemni, M. y Stone, M.H. (2004). Comparison of the Wingate and Bosco test. Journal of Strength and Conditioning Research, 18(4): 810-815.
16. Smith, D.J. (2003). A framework for understanding the training process leading to elite performance. Sport Medicine, 33(15): 1103-1126.
17. Soares, S. (2007). Avaliação Indirecta da Funcionalidade Anaeróbia de Nadadores de Diferente Estatuto Maturacional com Recurso a Testes laboratoriais e de Terreno. Tesis Doctoral. Universidad de Porto.
18. Young, W. (1993). Training for speed/strength: heavy vs light loads. National Strength and Conditioning Journal, 15(5): 34-42.
19. Young, W., Mc Lean, B. y Ardagna, J. (1995). Relationship between strength qualities and sprinting performance. Journal of Sports Medicine and Physical Fitness, 35(1): 13-19.

Data source: Dialnet