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Impact of plyometric training and weight training on vertical jumping ability

Year 2016, Volume: 18 Issue: 1, 31 - 37, 27.04.2016
https://doi.org/10.15314/tjse.20098

Abstract

The Purpose of the study was to find out the comparative effect of Plyometric and weight training on vertical jumping ability. For the present study 24 male students from Department of Physical Education, BHU Varanasi were selected randomly as the subjects for the study. The age of the subjects ranged between 18 - 21 years. The variables selected for the present study were Plyometric and weight training (independent variable), vertical jumping ability (dependent variable). For the study pre test – post test randomized group design, which consists of control group (08 students) and two experimental groups (16 students) were used. The data were collected through the pre test, before training and post test, after six weeks of Plyometric and weight training. To find out the comparative effect of Plyometric and Weight Training on vertical jumping ability of the subjects the pre test and post test scores were analyzed by using Descriptive analysis, Analysis of Co-Variance (ANCOVA) and LSD test were used, the data analyzed with the help of SPSS (16.0 version) software and the level of significance was set at 0.05 level of confidence. The result of the study showed that there was significant difference between pre and post test (experimental group) of Jump & Reach and Approach Jump & Reach. Significant difference was found between adjusted means of Plyometric training and control group, weight training and control group in relation to jump and reach performance (p< 0.05). In relation to approach jump and reach performance significant difference was found between adjusted means of Plyometric training and control group, weight training and control group since the p< 0.05. On the basis of findings of the study it may be considered that Plyometric training could be very much useful method of training for sportsman to improve vertical jumping ability and to retain the same for a longer duration.

References

  • Adams K, O'Shea JP, O'Shea KL, Climstein M. The effect of six weeks of squat, plyometrics and squat-plyometric training on power production. Journal of Applied Sport Science Research, 1992; 6: 36-41.
  • Anderst WJ, Eksten F, Koceja DM. Effects of plyometric and explosive resistance training on lower body power. Medicine & Science in Sports & Exercise, 1994; 26: S31.
  • Asmussen E. Apparent efficiency and storage of elastic energy in skeletal muscles in man. Acta Phys Scand, 1974; 91: 385-392.
  • Aziz AR, Chia M, Teh KC. The relationship between maximal oxygen uptake and repeated sprint performance indices in field hockey and soccer players. The Journal of Sports Medicine and Physical Fitness, 2000; 40(3): 195-200.
  • Bauer T, Thayer RE, Baras G. Comparison of training modalities for power development in the lower extremity. Journal of Applied Sport Science Research, 1990; 4: 115–121.
  • Behm DG, Sale DG. Velocity specificity of resistanc training. Sports Medicine, 1993; 15: 374-388.
  • Blakey JB, Southard D. The combined effects of weight training and plyometrics on dynamic leg strength and leg power. Journal of Applied Sport Science Research, 1987; 1: 14–16.
  • Bllattener E, Stuart, Noble L. Relative Effect of isokinetic and plometric training on vertical jumping performance. Research Quarterly, 1979; 50: 584.
  • Bogdanis GC, Nevill ME, Boobis LH, Lakomy HKA. Contribution of phosphocreatine and aerobic metabolism to energy supply during repeated sprint exercise. Journal of Applied Physiology, 1996; 80: 876-884.
  • Bosco C, Komi PV, Pulli M, Pittera C, Montonev H. Considerations of the training of elastic potential of human skeletal muscle. Volleyball Technical Journal, 1982; 1: 75–80.
  • Clutch D, Wilton M, Mcgown C, Bryce GR. The effect of depth jumps and weight training on leg strength and vertical jump. Research Quarterly for Exercise and Sport, 1983; 54: 5–10.
  • Courteix D, Obert P, Lecoq AM, Guenon P, Koch G. Effect of intensive swimming training on lung volumes, airway resistance and on the maximal expiratory flow-volume relationship in prepubertal girls. European Journal of Applied Physiology and Occupational Physiology, 1997; 76 (3): 264- 9.
  • Eleckuvan MR. Effectiveness of fartlek training on maximum oxygen consumption and resting pulse rate. International Journal of Physical Education, Fitness and Sports, 2014; 3(1): 85-88.
  • Ford JR, Puckett JR, Drummond JP, Sawyer K, Knatt K, Fussel C. Effects of three combinations of plyometric and weight training programs on selected physical fitness test items. Perceptual and Motor Skills, 1983; 56: 59–61.
  • Gossard D, Haskell WL, Taylor CB, Mueller JK, Rogers F, Chandler M, et. al. Effects of low-and high-intensity home-based exercise training on functional capacity in healthy middle-age men. American Journal of Cardiology, 1986; 57: 446-449.
  • Henson P. Plyometric Training. Track and field Quarterly Review of Jumps, 1994; 94: 53.
  • Holcomb WR, Lander JE, Rutland RM, Wilson GD. (1996). The effectiveness of a modified plyometric program onpower and the vertical jump. Journal of Strength and Conditioning Research, 1996; 10: 89–92.
  • Ioannis G, Fatouros AZ. Jamurtas D, Leontsini, KT, et al. Valuation of Plyometric Exercise Training, Weight Training, and Their Combination on Vertical Jumping Performance and Leg Strength. Journal of Strength and Conditioning Research, 2000; 14(4): 470–476.
  • John F, Bedi. Increase in Jumping Height Associated With Maximal Effort Vertical Depth Jumps. Research Quarterly for Exercise and Sports. 1987; 58: 4.
  • Kaneko M, Fuchimoto T, Toji H, Suei K. Training effect of different loads on the force velocity relationship and mechanical power output in human muscle. Scandinavian Journal of Medicine and Science in Sports, 1983; 5: 50–55.
  • Katona PC, McLean M, Dighton DH, Guz A. Sympathetic and parasympathetic cardiac control in athletes and non-athletes at rest. Journal of Applied Physiology, 1982; 52: 1652-1657.
  • Komi P, Bosco C. Utilization of stored elastic energy in leg extensor muscles by men and women. Medicine and Science in Sports Exercise, 1987; 10: 261-265.
  • Lyttle AD, Wilson GJ, Ostrowski KJ. Enhancing performance: maximal power versus combined weights and plyometrics training. Journal of Strength and Conditioning Research, 1996; 10: 173-179.
  • Muralikrishna M, Shelvam PV. Effect of different intensities of aerobic training on vital capacity of middle aged obese men. International Journal of Current Research and Academic Review, 2014; 2(8): 85-90.
  • Mishra MK, Pandey AK, Dubey S. Effect of eight weeks yogic training on selected physiological variables. International Journal of Physical Education, Sports and Health, 2014; 1(3): 16-18.
  • NSCA. Position statement: Explosive/plyometric exercises. National Strength & Conditioning Association Journal, 1993; 15(3): 16.
  • Rahimi R, Behpur N. The effects of plyometric, weight and plyometric-weight training on anaerobic power and muscular strength . Facta Universitatis Series: Physical Education and Sport, 2005; 3 (2): 81-91.
  • Smith ML, Hudson DL, Graitzer HM, Raven PB. Exercise training bradycardia: the role of autonomic balance. Medicine and Science in Sports and Exercise, 1989; 21: 40-44.
  • Stone M, O'Bryant H. Weight Training: A Scientific Approach. Minneapolis: Burgess, 1986.
  • Verkhoshanski T, Tatyan V. Speed-strength preparation of future champions. Soviet Sports Review, 1983; 18: 166–170.
  • Verma, JP. A Text Book on Sports Statistics. New Delhi, India: Sports Publication, 2009.
Year 2016, Volume: 18 Issue: 1, 31 - 37, 27.04.2016
https://doi.org/10.15314/tjse.20098

Abstract

References

  • Adams K, O'Shea JP, O'Shea KL, Climstein M. The effect of six weeks of squat, plyometrics and squat-plyometric training on power production. Journal of Applied Sport Science Research, 1992; 6: 36-41.
  • Anderst WJ, Eksten F, Koceja DM. Effects of plyometric and explosive resistance training on lower body power. Medicine & Science in Sports & Exercise, 1994; 26: S31.
  • Asmussen E. Apparent efficiency and storage of elastic energy in skeletal muscles in man. Acta Phys Scand, 1974; 91: 385-392.
  • Aziz AR, Chia M, Teh KC. The relationship between maximal oxygen uptake and repeated sprint performance indices in field hockey and soccer players. The Journal of Sports Medicine and Physical Fitness, 2000; 40(3): 195-200.
  • Bauer T, Thayer RE, Baras G. Comparison of training modalities for power development in the lower extremity. Journal of Applied Sport Science Research, 1990; 4: 115–121.
  • Behm DG, Sale DG. Velocity specificity of resistanc training. Sports Medicine, 1993; 15: 374-388.
  • Blakey JB, Southard D. The combined effects of weight training and plyometrics on dynamic leg strength and leg power. Journal of Applied Sport Science Research, 1987; 1: 14–16.
  • Bllattener E, Stuart, Noble L. Relative Effect of isokinetic and plometric training on vertical jumping performance. Research Quarterly, 1979; 50: 584.
  • Bogdanis GC, Nevill ME, Boobis LH, Lakomy HKA. Contribution of phosphocreatine and aerobic metabolism to energy supply during repeated sprint exercise. Journal of Applied Physiology, 1996; 80: 876-884.
  • Bosco C, Komi PV, Pulli M, Pittera C, Montonev H. Considerations of the training of elastic potential of human skeletal muscle. Volleyball Technical Journal, 1982; 1: 75–80.
  • Clutch D, Wilton M, Mcgown C, Bryce GR. The effect of depth jumps and weight training on leg strength and vertical jump. Research Quarterly for Exercise and Sport, 1983; 54: 5–10.
  • Courteix D, Obert P, Lecoq AM, Guenon P, Koch G. Effect of intensive swimming training on lung volumes, airway resistance and on the maximal expiratory flow-volume relationship in prepubertal girls. European Journal of Applied Physiology and Occupational Physiology, 1997; 76 (3): 264- 9.
  • Eleckuvan MR. Effectiveness of fartlek training on maximum oxygen consumption and resting pulse rate. International Journal of Physical Education, Fitness and Sports, 2014; 3(1): 85-88.
  • Ford JR, Puckett JR, Drummond JP, Sawyer K, Knatt K, Fussel C. Effects of three combinations of plyometric and weight training programs on selected physical fitness test items. Perceptual and Motor Skills, 1983; 56: 59–61.
  • Gossard D, Haskell WL, Taylor CB, Mueller JK, Rogers F, Chandler M, et. al. Effects of low-and high-intensity home-based exercise training on functional capacity in healthy middle-age men. American Journal of Cardiology, 1986; 57: 446-449.
  • Henson P. Plyometric Training. Track and field Quarterly Review of Jumps, 1994; 94: 53.
  • Holcomb WR, Lander JE, Rutland RM, Wilson GD. (1996). The effectiveness of a modified plyometric program onpower and the vertical jump. Journal of Strength and Conditioning Research, 1996; 10: 89–92.
  • Ioannis G, Fatouros AZ. Jamurtas D, Leontsini, KT, et al. Valuation of Plyometric Exercise Training, Weight Training, and Their Combination on Vertical Jumping Performance and Leg Strength. Journal of Strength and Conditioning Research, 2000; 14(4): 470–476.
  • John F, Bedi. Increase in Jumping Height Associated With Maximal Effort Vertical Depth Jumps. Research Quarterly for Exercise and Sports. 1987; 58: 4.
  • Kaneko M, Fuchimoto T, Toji H, Suei K. Training effect of different loads on the force velocity relationship and mechanical power output in human muscle. Scandinavian Journal of Medicine and Science in Sports, 1983; 5: 50–55.
  • Katona PC, McLean M, Dighton DH, Guz A. Sympathetic and parasympathetic cardiac control in athletes and non-athletes at rest. Journal of Applied Physiology, 1982; 52: 1652-1657.
  • Komi P, Bosco C. Utilization of stored elastic energy in leg extensor muscles by men and women. Medicine and Science in Sports Exercise, 1987; 10: 261-265.
  • Lyttle AD, Wilson GJ, Ostrowski KJ. Enhancing performance: maximal power versus combined weights and plyometrics training. Journal of Strength and Conditioning Research, 1996; 10: 173-179.
  • Muralikrishna M, Shelvam PV. Effect of different intensities of aerobic training on vital capacity of middle aged obese men. International Journal of Current Research and Academic Review, 2014; 2(8): 85-90.
  • Mishra MK, Pandey AK, Dubey S. Effect of eight weeks yogic training on selected physiological variables. International Journal of Physical Education, Sports and Health, 2014; 1(3): 16-18.
  • NSCA. Position statement: Explosive/plyometric exercises. National Strength & Conditioning Association Journal, 1993; 15(3): 16.
  • Rahimi R, Behpur N. The effects of plyometric, weight and plyometric-weight training on anaerobic power and muscular strength . Facta Universitatis Series: Physical Education and Sport, 2005; 3 (2): 81-91.
  • Smith ML, Hudson DL, Graitzer HM, Raven PB. Exercise training bradycardia: the role of autonomic balance. Medicine and Science in Sports and Exercise, 1989; 21: 40-44.
  • Stone M, O'Bryant H. Weight Training: A Scientific Approach. Minneapolis: Burgess, 1986.
  • Verkhoshanski T, Tatyan V. Speed-strength preparation of future champions. Soviet Sports Review, 1983; 18: 166–170.
  • Verma, JP. A Text Book on Sports Statistics. New Delhi, India: Sports Publication, 2009.
There are 31 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Jaswant Thakur This is me

Mukesh Mıshra

Vishan Rathore This is me

Publication Date April 27, 2016
Published in Issue Year 2016 Volume: 18 Issue: 1

Cite

APA Thakur, J., Mıshra, M., & Rathore, V. (2016). Impact of plyometric training and weight training on vertical jumping ability. Turkish Journal of Sport and Exercise, 18(1), 31-37. https://doi.org/10.15314/tjse.20098
AMA Thakur J, Mıshra M, Rathore V. Impact of plyometric training and weight training on vertical jumping ability. Turk J Sport Exe. May 2016;18(1):31-37. doi:10.15314/tjse.20098
Chicago Thakur, Jaswant, Mukesh Mıshra, and Vishan Rathore. “Impact of Plyometric Training and Weight Training on Vertical Jumping Ability”. Turkish Journal of Sport and Exercise 18, no. 1 (May 2016): 31-37. https://doi.org/10.15314/tjse.20098.
EndNote Thakur J, Mıshra M, Rathore V (May 1, 2016) Impact of plyometric training and weight training on vertical jumping ability. Turkish Journal of Sport and Exercise 18 1 31–37.
IEEE J. Thakur, M. Mıshra, and V. Rathore, “Impact of plyometric training and weight training on vertical jumping ability”, Turk J Sport Exe, vol. 18, no. 1, pp. 31–37, 2016, doi: 10.15314/tjse.20098.
ISNAD Thakur, Jaswant et al. “Impact of Plyometric Training and Weight Training on Vertical Jumping Ability”. Turkish Journal of Sport and Exercise 18/1 (May 2016), 31-37. https://doi.org/10.15314/tjse.20098.
JAMA Thakur J, Mıshra M, Rathore V. Impact of plyometric training and weight training on vertical jumping ability. Turk J Sport Exe. 2016;18:31–37.
MLA Thakur, Jaswant et al. “Impact of Plyometric Training and Weight Training on Vertical Jumping Ability”. Turkish Journal of Sport and Exercise, vol. 18, no. 1, 2016, pp. 31-37, doi:10.15314/tjse.20098.
Vancouver Thakur J, Mıshra M, Rathore V. Impact of plyometric training and weight training on vertical jumping ability. Turk J Sport Exe. 2016;18(1):31-7.

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