Purpose: the aim of this study was to investigate the effects of the transfer strength training method on swimming powerMethods: twenty male swimmers “master“ were randomly allocated to strength (n= 10, ST) and swimming training (n=10, SW) groups. Both groups performed six-weeks training based on swimming training for SW and strength training which consisted in a weight training session immediately followed by the maximum swimming velocity. The performance in both groups was assessed by Maximal-Mechanical-External-Power (MMEP) before and after the six-weeks period, using a custom ergometer that provided force, velocity, and power measurement in water. Results: a significant increased MMEP in ST group (5.73% with p< 0.05) was obtained by an increased strength (11.70% with p< 0.05) and a decreased velocity (4.99% with p> 0.05). Conversely, in the SW group there was a decreased in MMEP (7.31%; p<0.05), force and velocity (4.16%, and 3.45; respectively p> 0.05)Conclusion: this study showed that the transfer training method, based on combination of weight training (in dry condition) immediately followed by fast swim (in water) significantly improves swimming-power in master.
Gatta G., Leban B., Paderi M., Padulo J., Migliaccio G.M., Pau M (2014). The development of swimming power. M.L.T.J. MUSCLES, LIGAMENTS AND TENDONS JOURNAL, 4(4), 438-445 [10.11138/mltj/2014.4.4.438].
The development of swimming power
GATTA, GIORGIO;
2014
Abstract
Purpose: the aim of this study was to investigate the effects of the transfer strength training method on swimming powerMethods: twenty male swimmers “master“ were randomly allocated to strength (n= 10, ST) and swimming training (n=10, SW) groups. Both groups performed six-weeks training based on swimming training for SW and strength training which consisted in a weight training session immediately followed by the maximum swimming velocity. The performance in both groups was assessed by Maximal-Mechanical-External-Power (MMEP) before and after the six-weeks period, using a custom ergometer that provided force, velocity, and power measurement in water. Results: a significant increased MMEP in ST group (5.73% with p< 0.05) was obtained by an increased strength (11.70% with p< 0.05) and a decreased velocity (4.99% with p> 0.05). Conversely, in the SW group there was a decreased in MMEP (7.31%; p<0.05), force and velocity (4.16%, and 3.45; respectively p> 0.05)Conclusion: this study showed that the transfer training method, based on combination of weight training (in dry condition) immediately followed by fast swim (in water) significantly improves swimming-power in master.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.