Análisis de variables medidas en salto vertical relacionadas con el rendimiento deportivo y su aplicación al entrenamiento

  1. Jiménez Reyes, Pedro
  2. Cuadrado Peñafiel, Víctor
  3. González Badillo, Juan José
Revista:
Cultura, ciencia y deporte

ISSN: 1696-5043

Año de publicación: 2011

Volumen: 6

Número: 17

Páginas: 113-120

Tipo: Artículo

DOI: 10.12800/CCD.V6I17.38 DIALNET GOOGLE SCHOLAR lock_openDialnet editor

Otras publicaciones en: Cultura, ciencia y deporte

Referencias bibliográficas

  • Abernethy, P., Wilson, G., & Logan, P. (1995). Strength and power assessment: issues, controversies and challenges. Sports medicine, 19(6), 401-417.
  • Alcaraz, P.E., Elvira, J.L.L & Palao, J.M. (2009). Características y efectos de los métodos resistidos en el sprint. Cultura, Ciencia y Deporte, 12(5), Vol. 4: 179-187.
  • Baker, D; Wilson, G & Carlyon B. (1994). Generality versus specificity, a comparison of dynamic and isometric measures of strength and speed strength. Eur.J. Appl. Physiol. 68: 350-355.
  • Baker, D. & Nance, S (1999). The Relation Between Running Speed and Measures of Strength and Power in Professional Rugby League Players. J. Strength and Cond. Res. 13(3): 230-235.
  • Berthion, S., Dupont, G., Mary, P. and Gerbeaux, M (2001). Predicting sprint kinematic parameters from anaerobic field tests in physical education students. Journal of Strength and Conditioning Research, 15, 75-80.
  • Bosco, C., Luhtanen, P. & Komi, P.V. (1983) A simple method for measurement of mechanical power in jumping. Eur. J. App. Physiol. 50:273-282.
  • Bret, C; Rahmani, A; Dufour, AB; Messonnier, L; Lacour, JR (2002). Leg strength and stiffness as ability factors in 100m sprint running. J Sports Med Phys Fitness. Sep; 42(3): 274-81.
  • Cronin J.B. & Hansen K.T. Strength and Power Predictors of Sports Speed. Journal of Strengh and Conditioning Research; 19(2): 349-357, 2005.
  • Dowson, M.N., Nevill, M.E., Lakomy, A.M., Nevill, A.M., & Hazeldine R.J. (1998) Modeling the relationship between isokinetic muscle strength and sprint running performance. J. Sports Sci., 16, 257-265.
  • Driss, TH., Vandewalle H. & Monod H (1998). Maximal power and force velocity relationships during cycling and cranking exercises inn volleyball players: correlation with vertical jump test. J. Sports Med. Phys. Fitness. 37:175-181.
  • González-Badillo, JJ. (2000) Bases teóricas y experimentales para la aplicación del entrenamiento de fuerza al entrenamiento deportivo. Infocoes. 5(2): 3-14.
  • González-Badillo, JJ. y Ribas, J. (2002) Bases de la programación del entre- namiento de fuerza. Barcelona: INDE.
  • Haff, G; Stone, G; O'bryant, MH; Harman, HS; Dinan, E; Johnson, C; Han, R (1997). Force-Time dependent characteristics of dynamic and isometric muscle actions. Journal of Strength and Conditioning Re- search 11: 269-272.
  • Hakkinen, K; Komi, PV. & Kauhanen, H. (1986) Electromyographic and force production characteristics of leg extensor muscles of elite weight lifters during isometric, concentric, and various stretch-shortening cycle exercises. Int. J. Sports Med. 7(3):144-151.
  • Harman, E (1993). Strength and power: A definition of terms. Nat. Strength Cond. Assoc. J. 15:18-20.
  • Hatze, H (1998). "Validity and reliability of methods for testing vertical jumping performance" J. of Applied Biomechanics, 14, 127-140.
  • Hennessy, L and Kilty, M (2001). Relationship of the stretch-shortening cycle to sprint performance in trained female athletes. J. Strength Cond. Res. 15(3): 326-331.
  • Hoff, J; Wisløff, U & Engen, LC. (2002). Soccer specific aerobic endurance training. Br J Sports Med; 36:218-21.
  • Jiménez Reyes, Pedro (2010). Tesis doctoral: Relación entre la fuerza, la potencia, la carga de entrenamiento y el rendimiento deportivo en velocistas de nivel nacional e internacional. Director: Juan José González Badillo. Universidad Pablo de Olavide.
  • Katartzi, E; Gantiraga, E; Komsis, G & Papadopoulos, C (2005). The relationship between specific strength components of lower limbs and vertical jumping ability in school-aged children. Journal of Human Movement Studies 48: 227-243.
  • Kawamori, N and Haff, GG (2004). The optimal training load for the development of muscular power. J. Strength Cond. Res. 18(3): 675-684.
  • Kukolj, M., Ropret, R., Ugarkovic, D. and Jaric, S (1999). Anthropometric, strength, and power predictors of sprinting performance. J. Sports Med. Phys. Fitness. 39:120-122.
  • Mero, A., and PV. Komi. (1987). Electromyographic activity in sprinting at speeds ranking from submaximal to supramaximal. Med. Sci. Sports Exerc. 19:266-274.
  • Mero, A., Luthanen, P., Viitasalo J.T. and Komi, P.V. (1981). Relationships between the maximal running velocity, muscle fiber characteristics, force production and force relaxation of sprinters. Scand. J. Sports Sci. 3:16-22.
  • Murphy, A; Wilson, G; Pryor, J and Newton R. (1995). Isometric assessment of muscular function: the effect of joint angle. J. Appl. Biomechanics. 11: 205-215.
  • Murphy, A.J; Wilson, G.J. (1996). Poor correlations between isometric tests and dynamic performance: relationship to muscle activation. Eur. J. Appl. Physiol. 73: 353-357.
  • Nesser, T.W., R.W. Latin, K. Berg and E. Prentice. (1996) Physiological determinants of 40-meter sprint performance in young male athletes. J. Strength Cond. Res. 10:263-67.
  • Papadopoulos, C., Salonikidis, K. & Schmidtbleicher, D. (1997). Diagnose und Auswertung der motorischen Fähigkeiten Kraft und Schnelligkeit bei Kindern im Alter zwischen 10 bis 15 Jahren. Leistungssport 6: 26-30.
  • Reilly, T., Bangbso, J and Franks, A (2000). Anthropometric and physiological predispositions for elite soccer. J Sports Sci;18:669-83.
  • Sleivert, G. and Taingahue, M. (2004). The relationship between maximal jump-squat power and sprint acceleration in athletes. Eur J Appl Physiol; 91: 46-52.
  • Schmidtbleicher, D. (1992). Training for power events, en P. Komi (ed.) Strength and power in sport. London, Blackwell: 381-395.
  • Ugarkovic, D., Matavulj, D., Kukolj, M. & Jaric, S. (2002) Standard Anthropometric, Body Composition, and Strength Variables as Predictors of Jumping Performance in Elite Junior Athletes. Journal of Strength and Conditioning Research, pp. 4.
  • Vandewalle, H., Peres, G. y Monod, H. (1987). Standard anaerobic exercise tests. Sports Med 4, 268-289.
  • Weyand, PG., Sternlight, DB., Bellizi, M.J. and Wright, S. (2000). Faster top running speeds are achieved with greater ground forces not more rapid leg movements. J. Appl. Physiol. 89:1991-1999.
  • Wilson, G.J., Newton, Murphy, A. and Humphries, B. (1993). The optimal training load for the development of dynamic athletic performance. Med. Sci. Sports Exerc. 23:1279-1286.
  • Wilson, G.J; Murphy, A.J; Walshe, A (1996). The specificity of strength training: the effect of posture. Eur. J. Appl. Physiol. 73: 346-352.
  • Wisloff, U., Castagna, C., Helgerud, J., Jones, R. and Hoff, J. (2004). Strong correlation of maximal squat strength with sprint performance and vertical jump height in elite soccer players. Br J Sports Med.; 38(3): 285-8.
  • Young, W.; Hawken, M. and Mcdonald, L. (1996). Relationships between speed, agility and strength qualities in Australian Rules football. Strength Cond. Coach. 4:3-6.7
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