Physiological work areas in professional beach volleyball players during competition matches

  1. José Manuel Jimenez Olmedo 1
  2. Basilio Pueo 1
  3. Alfonso Penichet Tomás 1
  4. Juan José Chinchilla Mira 1
  5. José Antonio Perez Turpin 1
  1. 1 Universitat d'Alacant
    info

    Universitat d'Alacant

    Alicante, España

    ROR https://ror.org/05t8bcz72

Revista:
Retos: nuevas tendencias en educación física, deporte y recreación

ISSN: 1579-1726 1988-2041

Any de publicació: 2017

Títol de l'exemplar: La Educación Física y la Promoción de Estilos de Vida Activos: Interrogaciones, Investigación y Dilemas

Número: 31

Pàgines: 94-97

Tipus: Article

DOI: 10.47197/RETOS.V0I31.44002 DIALNET GOOGLE SCHOLAR lock_openDialnet editor

Altres publicacions en: Retos: nuevas tendencias en educación física, deporte y recreación

Resum

In this paper, physiological areas of professional beach volleyball players are identified by combining notational analysis tools together with in-sync heart rate capture for specific time periods in competition games. The aim is to identify workload areas depending on the player´s position as well as the changes these areas undergo during real competitions. To this end, a case study is quantitatively analyzed and based on the Spanish National Team during the First International Training Tournament «Sixto Jimenez» played in Tenerife (Spain). Workload ranges differ between blocker player (from 77.71% to 89.13%) and defensive player (from 66.16% to 77.77%), both values are related to their individual HRmax. Furthermore, median HRmax values indicate that blocker player must support an increased workload of 84.78% compared to 71.71% of the defending player. Therefore, the specific position of the defenders established significant differences in their physiological responses

Referències bibliogràfiques

  • Alvarez Berta, L. M., Cachón Zagalaz, J., Brahim, M., & Mateos Padorno, C. (2014). Las áreas funcionales implicadas en el entrenamiento especial competitivo del boxeo. Un estudio de casos. Retos: Nuevas Tendencias En Educación Física, Deporte Y Recreación, (26), 71–74.
  • Álvarez, R., Campos, D. C., Portes, P., Rey, R., & Martín, B. (2016). Analisis de parametros fisiológios en jugadores juveniles españoles de badminton. Revista Internacional de La Medicina Y Ciencias de La Actividad Fisica Y Del Deporte, 16(61), 44–45.
  • Bahr, R., & Reeser, J. C. (2012). New guidelines are needed to manage heat stress in elite sports The Federation Internationale de Volleyball (FIVB) Heat Stress Monitoring Programme. British Journal of Sports Medicine, 46(11), 805–809.
  • Bishop, D. (2003). A comparison between land and sand-based tests for beach volleyball assessment. Journal of Sports Medicine and Physical Fitness, 43(4), 418–423.
  • Buscà, B., Alique, D., Salas, C., Hileno, R., & Peña, J. (2015). Relationship between agility and jump ability in amateur beach volleyball male players. Journal of Performance Analysis in Sport, 15(3), 1102– 1113.
  • Callejon, D. (2006). Research and analysis of the servece in the high performance men’s Volleyball. International Journal of Sport Science, 6, 12–28.
  • Casamichana, D., San Román-Quintana, J., Castellano, J., & CallejaGonzález, J. (2012). Demandas físicas y fisiológicas en jugadores absolutos no profesionales durante partidos de fútbol 7: un estudio de caso. Cultura, Ciencia y Deporte, 7(20), 115-123.
  • Cortell-Tormo, J. M., Perez-Turpin, J. A., Chinchilla-Mira, J. J., Cejuela, R., & Suarez, C. (2011). Analysis of movement patterns by elite male players of beach volleyball. Perceptual and Motor Skills, 112(1), 21–28.
  • Coyle, E. F. (2004). Fluid and fuel intake during exercise. Journal of Sports Sciences, 22(1), 39–55.
  • Davies, S. E. H. (2000). Morphological and physiological characteristics of elite South African beach volleyball players. South African Journal for Research in Sport, Physical Education & Recreation, 22(2), 11– 22.
  • Edwards, S., Steele, J. R., & McGhee, D. E. (2010). Does a drop landing represent a whole skill landing and is this moderated by fatigue? Scandinavian Journal of Medicine & Science in Sports, 20(3), 516–523.
  • Giatsis, G. (2003). The effect of changing the rules on score fluctuation and match duration in the FIVB women’s beach volleyball. International Journal of Performance Analysis in Sport, 3(1), 57– 64.
  • Giatsis, G., Kollias, I., Panoutsakopoulos, V., & Papaiakovou, G. (2004). Biomechanical Differences in Elite Beach-Volleyball Players in Vertical Squat Jump on Rigid and Sand Surface. Sports Biomechanics, 3(1), 145–158.
  • González Fimbres, R. A., Griego Amaya, H., Cuevas Castro, C. S., & Hernández Cruz, G. (2016). Influencia del volumen e intensidad de la carga de entrenamiento en la frecuencia cardiaca de recuperación. Retos: Nuevas Tendencias En Educación Física, Deporte Y Recreación, (30), 180–183.
  • Hughes, M. (2004). Notational analysis – A mathematical perspective. International Journal of Performance Analysis in Sport, 4(2), 97– 139.
  • James, N., Taylor, J., & Stanley, S. (2007). Reliability procedures for categorical data in Performance Analysis. International Journal of Performance Analysis in Sport, 7(1), 1–11.
  • Jimenez Olmedo, J. M., Penichet Tomas, A., Saiz Colomina, S., Martinez Carbonell, J. A., & Jove Tossi, M. A. (2012). Serve analysis of professional players in beach volleyball. Journal of Human Sport and Exercise, 7(3).
  • Koch, C., & Tilp, M. (2009a). Analysis of beach volleyball action sequences of female top athletes. Journal of Human Sport and Exercise, 4(3).
  • Koch, C., & Tilp, M. (2009b). Beach volleyball: Techniques and tactics. A comparison of male and female playing characteristics. Kinesiology, 41(1), 52–59.
  • Lorenz, R., Roll, C., Wiebke, D., & Jeschke, D. (2002). Cardiac and metabolic strain in beach-volleyball. International Journal of Sports Medicine, 23(Suppl.2), S106–S106.
  • Magalhaes, J., Inacio, M., Oliveira, E., Ribeiro, J. C., & Ascensao, A. (2011). Physiological and neuromuscular impact of beach-volleyball with reference to fatigue and recovery. Journal of Sports Medicine and Physical Fitness, 51(1), 66–73.
  • Nikolaidis, P., Ziv, G., Arnon, M., & Lidor, R. (2015). Physical and physiological attributes of soccer goalkeepers – Should we rely only on means and standard deviations? Journal of Human Sport and Exercise, 10(2), 602–614.
  • Palao, J. M., Gutiérrez, D., & Frideres, J. E. (2008). Height, weight, body mass index, and age in beach volleyball players in relation to level and position. Journal of Sports Medicine and Physical Fitness, 48(4), 466–471.
  • Palao, J. M., López-Martínez, A. B., Valadés, D., & Ortega, E. (2015). Physical actions and work-rest time in women’s beach volleyball. International Journal of Performance Analysis in Sport, 15(1), 424–429.
  • Palao, J. M., Valadés, D., Manzanares, P., & Ortega, E. (2014). Physical actions and work-rest time in men’s beach volleyball. Motriz: Revista de Educação Física, 20(3), 257–261.
  • Pascual Verdú, N., Orbea Palacios, J. A., Carbonell, J. A. M., Alejandro, M., & Tossi, J. (2015). Analysis of physical and physiological requirements in soccer trainings in young soccer players (under -10 years). Journal of Human Sport & Exercise, 10(2), 592–601.
  • Perez-Turpin, J. A., Cortell-Tormo, J. M., Chinchilla-Mira, J. J., Cejuela-Anta, R., & Suarez-Llorca, C. (2009). Performance analysis through the use of temporal activity patterns of elite players in beach volleyball. Retos. Nuevas Tendencias En Educación Fisica, Deporte y Recreación, (16), 67–69.
  • Perez-Turpin, J. A., Cortell-Tormo, J. M., Suarez-Llorca, C., Chinchilla-Mira, J. J., & Cejuela-Anta, R. (2009). Gross movement patterns in elite female beach volleyball. Kinesiology, 41(2), 212– 219.
  • Seweryniak, T., Mroczek, D., & £ukasik, £. (2013). Analysis and evaluation of defensive team strategies in women’s beach volleyball – An efficiency-based approach. Human Movement, 14(1), 48– 55.
  • Smith, R. (2006). Movement in the sand: Training implications for beach volleyball. Strength and Conditioning Journal, 28(5), 19– 21.
  • Tili, M., & Giatsis, G. (2011). The height of the men’s winners FIVB beach volleyball in relation to specialization and court dimensions. Journal of Human Sport and Exercise, 6(3), 504–510.
  • Zapico, A. G., Benito, P. J., Díaz, V., Ruiz, J. R., & Calderón, F. J. (2014). Perfil de la frecuencia cardiaca en triatletas altamente entrenados. Revista Internacional de La Medicina Y Ciencias de La Actividad Fisica Y Del Deporte, 14(56), 619–632.
  • Zetou, E., Giatsis, G., Mountaki, F., & Komninakidou, A. (2008). Body weight changes and voluntary fluid intakes of beach volleyball players during an official tournament. Journal of Science and Medicine in Sport, 11(2), 139–145.
Fuente de los datos: Dialnet