Araştırma Makalesi
Yıl 2022,
Cilt: 1 Sayı: 1, 21 - 30, 05.12.2022
Öz
Kaynakça
- Bonato M, Maggioni M, Rossi C, Rampichini S, La Torre A, and Merati G. Relationship between anthropometric or functional characteristics and maximal serve velocity. J Sport Med Phys Fitness 55: 1157-1165, 2015.
- Buti T, Elliott B, and Morton A. Physiological and anthropometric profiles of elite prepubescent tennis players. The Physician and Sportsmedicine 12: 111-116, 1984.
- Carter JL, Carter JL, and Heath BH. Somatotyping: development and applications. Cambridge university press, 1990.
- Chow J, Carlton L, Lim Y-T, Chae W-S, Shim J-H, Kuenster A, and Kokubun K. Comparing the pre-and post-impact ball and racquet kinematics of elite tennis players' first and second serves: a preliminary study. Journal of sports sciences 21: 529-537, 2003.
- Cohen DB, Mont MA, Campbell KR, Vogelstein BN, and Loewy JW. Upper extremity physical factors affecting tennis serve velocity. The American Journal of Sports Medicine 22: 746-750, 1994.
- De Subijana CL and Navarro E. Kinetic energy transfer during the serve. Journal of Human Sport and Exercise 4: 114-128, 2009.
- Ellenbecker T and Roetert E. Velocity of a tennis serve and measurement of isokinetic muscular performance: brief review and comment. Perceptual and motor skills 98: 1368-1370, 2004.
- Fernandez-Fernandez J, Ulbricht A, and Ferrauti A. Fitness testing of tennis players: How valuable is it? British journal of sports medicine 48: i22-i31, 2014.
- Fleisig G, Nicholls R, Elliott B, and Escamilla R. Tennis: Kinematics used by world class tennis players to produce high‐velocity serves. Sports Biomechanics 2: 51-64, 2003.
- Gale-Watts AS and Nevill AM. From endurance to power athletes: The changing shape of successful male professional tennis players. European Journal of Sport Science 16: 948-954, 2016.
- Gencer YG and Beyza Ö. An Analysis On The Relationship Between Serving Strength And Anthropometric Properties And Tennis Serving Success In Young Women Volleyball Players. Turkish Journal of Sport and Exercise 22: 183-188, 2020.
- Hayes MJ, Spits DR, Watts DG, and Kelly VG. Relationship between tennis serve velocity and select performance measures. The Journal of Strength & Conditioning Research 35: 190-197, 2021.
- Kovacs MS. Tennis physiology. Sports medicine 37: 189-198, 2007.
- Martin C, Bideau B, Ropars M, Delamarche P, and Kulpa R. Upper limb joint kinetic analysis during tennis serve: Assessment of competitive level on efficiency and injury risks. Scandinavian journal of medicine & science in sports 24: 700-707, 2014.
- Martin C, Kulpa R, Delamarche P, and Bideau B. Professional tennis players' serve: correlation between segmental angular momentums and ball velocity. Sports Biomechanics 12: 2-14, 2013.
- Organization WH. Obesity: preventing and managing the global epidemic. 2000.
- Palmer K, Jones D, Morgan C, and Zeppieri Jr G. Relationship between range of motion, strength, motor control, power, and the tennis serve in competitive-level tennis players: A pilot study. Sports health 10: 462-467, 2018.
- Pluim BM, Miller S, Dines D, Renström PA, Windler G, Norris B, Stroia KA, Donaldson A, and Martin K. Sport science and medicine in tennis. British Journal of Sports Medicine 41: 703-704, 2007.
- Reid M, Elliott B, and Alderson J. Shoulder joint kinetics of the elite wheelchair tennis serve. British journal of sports medicine 41: 739-744, 2007.
- Sanchez-Munoz C, Sanz D, and Zabala M. Anthropometric characteristics, body composition and somatotype of elite junior tennis players. British journal of sports medicine 41: 793-799, 2007.
- Söğüt M and Altunsoy K. Physical and Morphological Characteristics of Turkish National Adolescent Tennis Players and Their Association with Serve Speed. Spor Hekimligi Dergisi/Turkish Journal of Sports Medicine 54, 2019.
- Tanabe S and Ito A. Application of the extrapolation method to motion analysis of the flat power serve in tennis. International Journal of Sport and Health Science 5: 157-167, 2007.
- Ulbricht A, Fernandez-Fernandez J, Mendez-Villanueva A, and Ferrauti A. Impact of fitness characteristics on tennis performance in elite junior tennis players. The journal of strength & conditioning research 30: 989-998, 2016.
- Vaverka F and Cernosek M. Association between body height and serve speed in elite tennis players. Sports Biomechanics 12: 30-37, 2013.
- Whiteside D, Elliott B, Lay B, and Reid M. A kinematic comparison of successful and unsuccessful tennis serves across the elite development pathway. Human Movement Science 32: 822-835, 2013.
Investigation of Relationships Between Tennis Serve Performance, Anthropometry, Somatotype and Range of Motion According to Sex
Öz
Serve is one of the most important strokes of tennis. The aim of the study is to examine relationships between anthropometric features, shoulder range of motion (ROM), somatotype and serve performance (serve accuracy & serve speed) according to sex. 15 male (age: 19.00 ± 1.06 years) and 14 female (age: 18.64 ± 0.92 years); tennis players participated in this study. The descriptive and anthropometric measurements (age, competitive experience, height, body mass, BMI, arm & wrist circumferences) and ROM (internal & external shoulder rotation degrees) were taken and recorded. Somatotype determined based on Heart Carter method. In order to determine serve performance, a pre designated test which evaluates serve speed and accuracy for both “first serve and “second serve” carried out. The Pearson’s coefficient of correlation was used to study the correlation between serve performance and the anthropometric, somatotype and ROM variables. Student’s t-test was used to comparison of sexes. To compare correlations coefficients among sexes, Fisher’s z transformation performed. As hypothesized, results showed that serve performance determinants were differ according to sex.
Anahtar Kelimeler
Kaynakça
- Bonato M, Maggioni M, Rossi C, Rampichini S, La Torre A, and Merati G. Relationship between anthropometric or functional characteristics and maximal serve velocity. J Sport Med Phys Fitness 55: 1157-1165, 2015.
- Buti T, Elliott B, and Morton A. Physiological and anthropometric profiles of elite prepubescent tennis players. The Physician and Sportsmedicine 12: 111-116, 1984.
- Carter JL, Carter JL, and Heath BH. Somatotyping: development and applications. Cambridge university press, 1990.
- Chow J, Carlton L, Lim Y-T, Chae W-S, Shim J-H, Kuenster A, and Kokubun K. Comparing the pre-and post-impact ball and racquet kinematics of elite tennis players' first and second serves: a preliminary study. Journal of sports sciences 21: 529-537, 2003.
- Cohen DB, Mont MA, Campbell KR, Vogelstein BN, and Loewy JW. Upper extremity physical factors affecting tennis serve velocity. The American Journal of Sports Medicine 22: 746-750, 1994.
- De Subijana CL and Navarro E. Kinetic energy transfer during the serve. Journal of Human Sport and Exercise 4: 114-128, 2009.
- Ellenbecker T and Roetert E. Velocity of a tennis serve and measurement of isokinetic muscular performance: brief review and comment. Perceptual and motor skills 98: 1368-1370, 2004.
- Fernandez-Fernandez J, Ulbricht A, and Ferrauti A. Fitness testing of tennis players: How valuable is it? British journal of sports medicine 48: i22-i31, 2014.
- Fleisig G, Nicholls R, Elliott B, and Escamilla R. Tennis: Kinematics used by world class tennis players to produce high‐velocity serves. Sports Biomechanics 2: 51-64, 2003.
- Gale-Watts AS and Nevill AM. From endurance to power athletes: The changing shape of successful male professional tennis players. European Journal of Sport Science 16: 948-954, 2016.
- Gencer YG and Beyza Ö. An Analysis On The Relationship Between Serving Strength And Anthropometric Properties And Tennis Serving Success In Young Women Volleyball Players. Turkish Journal of Sport and Exercise 22: 183-188, 2020.
- Hayes MJ, Spits DR, Watts DG, and Kelly VG. Relationship between tennis serve velocity and select performance measures. The Journal of Strength & Conditioning Research 35: 190-197, 2021.
- Kovacs MS. Tennis physiology. Sports medicine 37: 189-198, 2007.
- Martin C, Bideau B, Ropars M, Delamarche P, and Kulpa R. Upper limb joint kinetic analysis during tennis serve: Assessment of competitive level on efficiency and injury risks. Scandinavian journal of medicine & science in sports 24: 700-707, 2014.
- Martin C, Kulpa R, Delamarche P, and Bideau B. Professional tennis players' serve: correlation between segmental angular momentums and ball velocity. Sports Biomechanics 12: 2-14, 2013.
- Organization WH. Obesity: preventing and managing the global epidemic. 2000.
- Palmer K, Jones D, Morgan C, and Zeppieri Jr G. Relationship between range of motion, strength, motor control, power, and the tennis serve in competitive-level tennis players: A pilot study. Sports health 10: 462-467, 2018.
- Pluim BM, Miller S, Dines D, Renström PA, Windler G, Norris B, Stroia KA, Donaldson A, and Martin K. Sport science and medicine in tennis. British Journal of Sports Medicine 41: 703-704, 2007.
- Reid M, Elliott B, and Alderson J. Shoulder joint kinetics of the elite wheelchair tennis serve. British journal of sports medicine 41: 739-744, 2007.
- Sanchez-Munoz C, Sanz D, and Zabala M. Anthropometric characteristics, body composition and somatotype of elite junior tennis players. British journal of sports medicine 41: 793-799, 2007.
- Söğüt M and Altunsoy K. Physical and Morphological Characteristics of Turkish National Adolescent Tennis Players and Their Association with Serve Speed. Spor Hekimligi Dergisi/Turkish Journal of Sports Medicine 54, 2019.
- Tanabe S and Ito A. Application of the extrapolation method to motion analysis of the flat power serve in tennis. International Journal of Sport and Health Science 5: 157-167, 2007.
- Ulbricht A, Fernandez-Fernandez J, Mendez-Villanueva A, and Ferrauti A. Impact of fitness characteristics on tennis performance in elite junior tennis players. The journal of strength & conditioning research 30: 989-998, 2016.
- Vaverka F and Cernosek M. Association between body height and serve speed in elite tennis players. Sports Biomechanics 12: 30-37, 2013.
- Whiteside D, Elliott B, Lay B, and Reid M. A kinematic comparison of successful and unsuccessful tennis serves across the elite development pathway. Human Movement Science 32: 822-835, 2013.
Toplam 25 adet kaynakça vardır.
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Konular | Egzersiz ve Spor Bilimleri |
| Bölüm | Research Articles |
| Yazarlar | |
| Yayımlanma Tarihi | 5 Aralık 2022 |
| Yayımlandığı Sayı | Yıl 2022 Cilt: 1 Sayı: 1 |
