Strength of top swimmers

Next one - Swimming is one sport where the majority of competitors practice some form of resistance training. Although most competitive swimming distances might not be considered true endurance events, elite swimmers perform huge volumes of over-distance training. To determine whether adding resistance training to pool training might improve sprint-swim performance, Tanaka, et al. (1993) studied 24 experienced swimmers during 14 weeks of their competitive season. The swimmers were divided into two groups of 12 swimmers and matched for stroke specialities and performance. The two groups performed all swim training sessions together for the duration of the season, but in addition to the pool training, one group performed resistance training three days a week, on alternate days for eight weeks. The resistance training program was intended to simulate the muscles employed in front crawl swimming and utilized weight lifting machines as well as free weights. Swimmers performed three sets of 8-12 repetitions of the following exercises: lat pull downs, elbow extensions, bent arm flys, dips and chin ups. In order to maximize the resistance training effect, weights were progressively increased over the duration of the training period. Then both groups tapered for approximately two weeks prior to their major competition. The most important finding: resistance training did not improve sprint swim performance, despite the fact that those swimmers who combined resistance and swim training increased their strength by 25-35%. The extra strength gained from the resistance training program did not result in improved stroke mechanics. Their conclusion: "the lack of positive transfer between dry-land strength gains and swimming propulsive force may be due to the specificity of training."

Next one - Swimming is one sport where the majority of competitors practice some form of resistance training. Although most competitive swimming distances might not be considered true endurance events, elite swimmers perform huge volumes of over-distance training. To determine whether adding resistance training to pool training might improve sprint-swim performance, Tanaka, et al. (1993) studied 24 experienced swimmers during 14 weeks of their competitive season. The swimmers were divided into two groups of 12 swimmers and matched for stroke specialities and performance. The two groups performed all swim training sessions together for the duration of the season, but in addition to the pool training, one group performed resistance training three days a week, on alternate days for eight weeks. The resistance training program was intended to simulate the muscles employed in front crawl swimming and utilized weight lifting machines as well as free weights. Swimmers performed three sets of 8-12 repetitions of the following exercises: lat pull downs, elbow extensions, bent arm flys, dips and chin ups. In order to maximize the resistance training effect, weights were progressively increased over the duration of the training period. Then both groups tapered for approximately two weeks prior to their major competition. The most important finding: resistance training did not improve sprint swim performance, despite the fact that those swimmers who combined resistance and swim training increased their strength by 25-35%. The extra strength gained from the resistance training program did not result in improved stroke mechanics. Their conclusion: "the lack of positive transfer between dry-land strength gains and swimming propulsive force may be due to the specificity of training."