Research Article
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FARKLI ZEMİNLERDE OYNANAN PROFESYONEL TENİS MAÇLARINDA YAŞIN, CİNSİYETİN VE BOY UZUNLUĞUNUN KAT EDİLEN MESAFE ÜZERİNDEKİ ETKİLERİ

Year 2020, , 98 - 107, 30.09.2020
https://doi.org/10.33689/spormetre.643590

Abstract

Bu araştırmanın amaçlarını farklı zeminlerde oynanan profesyonel tenis maçlarında yaşın, cinsiyetin ve boy uzunluğunun maç süresince kat edilen toplam mesafe (TM), ortalama puan mesafesi (OPM) ve ortalama set mesafesi (OSM) üzerindeki etkilerini incelemek ve mesafe değişkenleri ile yaş ve boy uzunluğu arasındaki ilişkilerin incelenmesi oluşturmuştur. Araştırmaya 2018 yılında düzenlenen Wimbledon ve US Open tenis turnuvalarında ana tablo fikstürlerinde yer alan ve turnuvaların resmi internet adreslerinde antropometrik özellikler ile mesafe değişkenlerine ait verileri bulunan profesyonel erkek (n= 84) ve kadın (n= 94) oyuncular dahil edilmiştir. Araştırma bulguları, hem erkek hem de kadın oyuncularda mesafe değişkenlerinde yaşa göre istatistiksel olarak anlamlı bir farklılık olmadığını göstermiştir. Göreceli olarak uzun boylu kadın oyuncuların, hem çim hem de beton zeminde, OSM ve OPM değişkenlerde kısa boylu oyunculara göre daha az mesafe kat ettikleri bulunmuştur. Diğer yandan, sonuçlar, OPM değişkeninde cinsiyete göre istatistiksel olarak anlamlı bir farklılık olmadığını, OSM değişkeninde ise kadın oyuncuların istatistiksel olarak daha fazla mesafe kat ettiklerini göstermiştir. Korelasyon analizleri, her iki zemininde de mesafe değişkenleri ile yaş arasında istatistiksel olarak anlamlı bir ilişki olmadığını göstermiştir. Bununla birlikte, erkek oyuncularda beton zeminde ve kadın oyuncularda çim zeminde OSM ve OPM ile boy uzunluğu arasında istatistiksel olarak anlamlı ve negatif yönde bir ilişki bulunmuştur. Sonuç olarak, bu araştırma çim ve beton zeminlerde oynanan profesyonel tenis maçlarında kat edilen mesafe değişkenlerinin cinsiyet ve boy uzunluğuna göre değişim gösterdiğini vurgulamıştır. 

References

  • Abrams G.D., Sheets A.L., Andriacchi T.P., Safran M.R. (2011). Review of tennis serve motion analysis and the biomechanics of three serve types with implications for injury. Sports Biomechanics, 10(4), 378-390.
  • Bastholt P. (2000). Professional tennis (ATP tour) and number of medical treatments in relation to type of surface. Medicine and Science in Tennis, 5(2), 9.
  • Breznik K., Batagelj V. (2012). Retired matches among male professional tennis players. Journal of Sports Science and Medicine, 11(2), 270-278.
  • Brody H., Cross R., Lindsey C. (2002). The physics and technology of tennis. Vista: Racquet Tech Publishing.
  • Brown E., O’Donoghue P. (2008). Gender and surface effect on elite tennis strategy. Coaching and Sports Science Review, 46, 9-11.
  • Collinson L., Hughes M. (2003). Surface effect on the strategy of elite female tennis players. Journal of Sports Sciences, 21(4), 266-267.
  • Cross R. (2003). Measurements of the horizontal and vertical speeds of tennis courts. Sports Engineering, 6(2), 95-111.
  • Cross R. (2006). Grand Slam injuries 1978-2005. Medicine and Science in Tennis, 11(1), 5.
  • Cross R., Lindsey C. (2005). Technical tennis: racquets, strings, balls, courts, spin, and bounce. Vista: Racquet Tech Publishing.
  • Cross R., Pollard G. (2009). Grand Slam men’s singles tennis 1991–2009 serve speeds and other related data. Coaching and Sport Science Review, 16(49), 8-10.
  • Cui Y., Gomez M.A., Goncalves B., Sampaio J. (2018). Performance profiles of Professional female tennis players in grand slams. PloS One, 13(7), e200591.
  • Galé-Ansodi C., Castellano J., Usabiaga O. (2016). Effects of different surfaces in time-motion characteristics in youth elite tennis players. International Journal of Performance Analysis in Sport, 16(3), 860-870.
  • Galé-Ansodi C., Castellano J., Usabiaga O. (2017). Physical profile of young tennis players in the tennis match-play using global positioning systems. Journal of Physical Education and Sport, 17(2), 826-832.
  • Hopkins W., Marshall S., Batterham A., Hanin J. (2009). Progressive statistics for studies in sports medicine and exercise science. Medicine and Science in Sports and Exercise, 41(1), 3-12.
  • Hoppe M.W., Baumgart C., Bornefeld J., Sperlich B., Freiwald J., Holmberg H.C. (2014). Running activity profile of adolescent tennis players during match play. Pediatric Exercise Science, 26(3), 281-290.
  • Hughes M.D., Clarke S. (1995). Surface effect on patterns of play of elite tennis players. In T. Reilly, M.D. Hughes and A. Lees (Eds.), Science and Racket Sports (pp.272–278). London: E and FN Spon.
  • Kilit B., Arslan E. (2018). Playing tennis matches on clay court surfaces are associated with more perceived enjoyment response but less perceived exertion compared to hard courts. Acta Gymnica, 48(4), 147-152.
  • Kovalchik S.A., Reid M. (2017). Comparing matchplay characteristics and physical demands of junior and professional tennis athletes in the era of big data. Journal of Sports Science and Medicine, 16(4), 489-497.
  • Martin C., Prioux J. (2016). Tennis playing surfaces: The effects on performance and injuries. Journal of Medicine and Science in Tennis, 21(1), 11-19.
  • Martin C., Thevenet D., Zouhal H., Mornet Y., Deles R., Crestel T., Abderrahman A.B., Prioux J. (2011). Effects of playing surface (hard and clay courts) on heart rate and blood lactate during tennis matches played by high-level players. The Journal of Strength and Conditioning Research, 25(1), 163-170.
  • Miller S. (2006). Modern tennis rackets, balls, and surfaces. British Journal of Sports Medicine, 40(5), 401-405.
  • Murias J.M., Lanatta D., Arcuri C.R., Laino F.A. (2007). Metabolic and functional responses playing tennis on different surfaces. Journal of Strength and Conditioning Research, 21(1), 112-117.
  • O’Donoghue P., Ingram B. (2001). A notational analysis of elite tennis strategy. Journal of Sports Sciences, 19(2), 107-115.
  • Pereira L.A., Freitas V., Moura F.A., Aoki M.S., Loturco I., Nakamura Y. (2016). The activity profile of young tennis athletes playing on clay and hard courts: Preliminary data. Journal of Human Kinetics, 50(1), 211-218.
  • Reid M., Duffield R., Minett G.M., Sibte N., Murphy A.P., Baker J. (2013). Physiological, perceptual, and technical responses to on court tennis training on hard and clay courts. The Journal of Strength and Conditioning Research, 27(6), 1487-1495.
  • Reid M., Morgan S., Whiteside D. (2016). Matchplay characteristics of Grand Slam tennis: implications for training and conditioning. Journal of Sports Sciences, 34(19), 1791-1798.
  • Reid M., Quinn A., Crespo M. (2003). ITF Strength and conditioning for tennis. London: ITF.
  • Sánchez-Muñoz C., Sanz D., Zabala M. (2007). Anthropometric characteristics, body composition and somatotype of elite junior tennis players. British Journal of Sports Medicine, 41(11), 793-799.
  • Schulz R., Curnow C. (1988). Peak performance and age among superathletes: track and field, swimming, baseball, tennis, and golf. Journal of Gerontology, 43(5), 113-120.
  • Söğüt M. (2016). Ball speed during the tennis serve in relation to skill level and body height. Pamukkale Journal of Sport Sciences, 7(2), 51-57.
  • Söğüt M. (2018). Stature: Does it really make a difference in match-play outcomes among professional tennis players? International Journal of Performance Analysis in Sport, 18(2), 255-261.
  • Söğüt M. (2019). Height-and surface-related variations in match-play outcomes and rankings in professional men’s tennis. German Journal of Exercise and Sport Research, 49(3), 332-338.
  • Takahashi H., Wada T., Maeda A., Kodama M., Nishizono H., Kurata H. (2006). The relationship between court surface and tactics in tennis using a computerized scorebook. International Journal of Performance Analysis in Sport, 6(2), 15-25.
  • Takahashi H., Wada T., Maeda A., Kodama M., Nishizono H., (2009). An analysis of time factors in elite male tennis players using the computerised scorebook for tennis. International Journal of Performance Analysis in Sport, 9(3), 314-319.
  • Unierzyski P., Wieczorek A. (2004). Comparison of tactical solutions and game patterns in the finals of two grand slam tournaments in tennis. In A. Lees, J. Kahn and I. Maynard (Eds.), Science and Racket Sports III (pp. 200–205). London: Routledge.
  • Vaverka F., Cernosek M. (2013). Association between body height and serve speed in elite tennis players. Sports Biomechanics, 12(1), 30-37.
Year 2020, , 98 - 107, 30.09.2020
https://doi.org/10.33689/spormetre.643590

Abstract

References

  • Abrams G.D., Sheets A.L., Andriacchi T.P., Safran M.R. (2011). Review of tennis serve motion analysis and the biomechanics of three serve types with implications for injury. Sports Biomechanics, 10(4), 378-390.
  • Bastholt P. (2000). Professional tennis (ATP tour) and number of medical treatments in relation to type of surface. Medicine and Science in Tennis, 5(2), 9.
  • Breznik K., Batagelj V. (2012). Retired matches among male professional tennis players. Journal of Sports Science and Medicine, 11(2), 270-278.
  • Brody H., Cross R., Lindsey C. (2002). The physics and technology of tennis. Vista: Racquet Tech Publishing.
  • Brown E., O’Donoghue P. (2008). Gender and surface effect on elite tennis strategy. Coaching and Sports Science Review, 46, 9-11.
  • Collinson L., Hughes M. (2003). Surface effect on the strategy of elite female tennis players. Journal of Sports Sciences, 21(4), 266-267.
  • Cross R. (2003). Measurements of the horizontal and vertical speeds of tennis courts. Sports Engineering, 6(2), 95-111.
  • Cross R. (2006). Grand Slam injuries 1978-2005. Medicine and Science in Tennis, 11(1), 5.
  • Cross R., Lindsey C. (2005). Technical tennis: racquets, strings, balls, courts, spin, and bounce. Vista: Racquet Tech Publishing.
  • Cross R., Pollard G. (2009). Grand Slam men’s singles tennis 1991–2009 serve speeds and other related data. Coaching and Sport Science Review, 16(49), 8-10.
  • Cui Y., Gomez M.A., Goncalves B., Sampaio J. (2018). Performance profiles of Professional female tennis players in grand slams. PloS One, 13(7), e200591.
  • Galé-Ansodi C., Castellano J., Usabiaga O. (2016). Effects of different surfaces in time-motion characteristics in youth elite tennis players. International Journal of Performance Analysis in Sport, 16(3), 860-870.
  • Galé-Ansodi C., Castellano J., Usabiaga O. (2017). Physical profile of young tennis players in the tennis match-play using global positioning systems. Journal of Physical Education and Sport, 17(2), 826-832.
  • Hopkins W., Marshall S., Batterham A., Hanin J. (2009). Progressive statistics for studies in sports medicine and exercise science. Medicine and Science in Sports and Exercise, 41(1), 3-12.
  • Hoppe M.W., Baumgart C., Bornefeld J., Sperlich B., Freiwald J., Holmberg H.C. (2014). Running activity profile of adolescent tennis players during match play. Pediatric Exercise Science, 26(3), 281-290.
  • Hughes M.D., Clarke S. (1995). Surface effect on patterns of play of elite tennis players. In T. Reilly, M.D. Hughes and A. Lees (Eds.), Science and Racket Sports (pp.272–278). London: E and FN Spon.
  • Kilit B., Arslan E. (2018). Playing tennis matches on clay court surfaces are associated with more perceived enjoyment response but less perceived exertion compared to hard courts. Acta Gymnica, 48(4), 147-152.
  • Kovalchik S.A., Reid M. (2017). Comparing matchplay characteristics and physical demands of junior and professional tennis athletes in the era of big data. Journal of Sports Science and Medicine, 16(4), 489-497.
  • Martin C., Prioux J. (2016). Tennis playing surfaces: The effects on performance and injuries. Journal of Medicine and Science in Tennis, 21(1), 11-19.
  • Martin C., Thevenet D., Zouhal H., Mornet Y., Deles R., Crestel T., Abderrahman A.B., Prioux J. (2011). Effects of playing surface (hard and clay courts) on heart rate and blood lactate during tennis matches played by high-level players. The Journal of Strength and Conditioning Research, 25(1), 163-170.
  • Miller S. (2006). Modern tennis rackets, balls, and surfaces. British Journal of Sports Medicine, 40(5), 401-405.
  • Murias J.M., Lanatta D., Arcuri C.R., Laino F.A. (2007). Metabolic and functional responses playing tennis on different surfaces. Journal of Strength and Conditioning Research, 21(1), 112-117.
  • O’Donoghue P., Ingram B. (2001). A notational analysis of elite tennis strategy. Journal of Sports Sciences, 19(2), 107-115.
  • Pereira L.A., Freitas V., Moura F.A., Aoki M.S., Loturco I., Nakamura Y. (2016). The activity profile of young tennis athletes playing on clay and hard courts: Preliminary data. Journal of Human Kinetics, 50(1), 211-218.
  • Reid M., Duffield R., Minett G.M., Sibte N., Murphy A.P., Baker J. (2013). Physiological, perceptual, and technical responses to on court tennis training on hard and clay courts. The Journal of Strength and Conditioning Research, 27(6), 1487-1495.
  • Reid M., Morgan S., Whiteside D. (2016). Matchplay characteristics of Grand Slam tennis: implications for training and conditioning. Journal of Sports Sciences, 34(19), 1791-1798.
  • Reid M., Quinn A., Crespo M. (2003). ITF Strength and conditioning for tennis. London: ITF.
  • Sánchez-Muñoz C., Sanz D., Zabala M. (2007). Anthropometric characteristics, body composition and somatotype of elite junior tennis players. British Journal of Sports Medicine, 41(11), 793-799.
  • Schulz R., Curnow C. (1988). Peak performance and age among superathletes: track and field, swimming, baseball, tennis, and golf. Journal of Gerontology, 43(5), 113-120.
  • Söğüt M. (2016). Ball speed during the tennis serve in relation to skill level and body height. Pamukkale Journal of Sport Sciences, 7(2), 51-57.
  • Söğüt M. (2018). Stature: Does it really make a difference in match-play outcomes among professional tennis players? International Journal of Performance Analysis in Sport, 18(2), 255-261.
  • Söğüt M. (2019). Height-and surface-related variations in match-play outcomes and rankings in professional men’s tennis. German Journal of Exercise and Sport Research, 49(3), 332-338.
  • Takahashi H., Wada T., Maeda A., Kodama M., Nishizono H., Kurata H. (2006). The relationship between court surface and tactics in tennis using a computerized scorebook. International Journal of Performance Analysis in Sport, 6(2), 15-25.
  • Takahashi H., Wada T., Maeda A., Kodama M., Nishizono H., (2009). An analysis of time factors in elite male tennis players using the computerised scorebook for tennis. International Journal of Performance Analysis in Sport, 9(3), 314-319.
  • Unierzyski P., Wieczorek A. (2004). Comparison of tactical solutions and game patterns in the finals of two grand slam tournaments in tennis. In A. Lees, J. Kahn and I. Maynard (Eds.), Science and Racket Sports III (pp. 200–205). London: Routledge.
  • Vaverka F., Cernosek M. (2013). Association between body height and serve speed in elite tennis players. Sports Biomechanics, 12(1), 30-37.
There are 36 citations in total.

Details

Primary Language Turkish
Subjects Sports Medicine
Journal Section Research Article
Authors

Sina Dağdelen This is me 0000-0003-4719-9400

Mustafa Söğüt 0000-0003-1826-8235

Publication Date September 30, 2020
Published in Issue Year 2020

Cite

APA Dağdelen, S., & Söğüt, M. (2020). FARKLI ZEMİNLERDE OYNANAN PROFESYONEL TENİS MAÇLARINDA YAŞIN, CİNSİYETİN VE BOY UZUNLUĞUNUN KAT EDİLEN MESAFE ÜZERİNDEKİ ETKİLERİ. SPORMETRE Beden Eğitimi Ve Spor Bilimleri Dergisi, 18(3), 98-107. https://doi.org/10.33689/spormetre.643590

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