无氧运动训练和停训对大鲵幼体游泳能力和力竭运动后代谢的影响

ANAEROBIC EXERCISE TRAINING AND DETRAINING ON SWIMMING PERFORMANCE AND EXCESS POST-EXERCISE OXYGEN CONSUMPTION IN JUVENILE ANDRIAS DAVIDIANUS

  • 摘要: 为了考察无氧运动训练和停训对两栖动物运动能力及其能量代谢特征的影响, 将实验对象大鲵(Andrias davidianus)幼体分为6个组: 训练对照组(TC)、2天1次训练组(TOT)、1天1次训练组(TOO)、停训对照组(DC)、2天1次停训组(DOT)、1天1次停训组(DOO)。在20℃下, 训练组(TOT和TOO)进行持续3周2天1次或1天1次力竭追赶训练, 停训组(DOT和DOO)进行持续3周2天1次或1天1次力竭追赶训练后停训1周, 随后测定相对感应流速、相对暴发游泳速度及力竭运动后过量耗氧。研究发现: 所有组的相对感应流速之间都没有显著差异。TOO组相对暴发游泳速度显著高于TC组和TOT组, DOO组相对暴发游泳速度显著低于TOO组(P<0.05)。所有组的运动前代谢率和峰值时间之间都无显著差异。TOO组运动后代谢峰值、代谢率增量、运动后恢复时间和过量耗氧都显著高于TC组和TOT组, DOO组运动后代谢峰值、代谢率增量、运动后恢复时间和过量耗氧都显著低于TOO组(P<0.05)。综上所述: (1)无氧运动训练显著提高了大鲵幼体的无氧运动能力, 这可能与其无氧代谢功能的增强有关; (2)无氧运动训练的效果与其训练强度密切相关, 并且维持时间较短。

     

    Abstract: To investigate the effects of anaerobic exercise training and detraining on swimming performance and excess post-exercise oxygen consumption (EPOC) in juvenile Andrias davidianus, 180 samples of A. davidianus were randomly divided into six groups, each containing 30 fish: a training control group (TC), a training group once every two days (TOT), a training group once every one day (TOO), a detraining control group (DC), a detraining group once every two days (DOT), and a detraining group once every one day (DOO). The individuals in different groups underwent various treatments at a temperature of 20℃ to measure relative induced velocity, relative burst swimming speed, and EPOC. The results showed no significant difference in relative induced velocity among the groups. However, the relative burst swimming speed of TOO group was significantly higher than that of the TC and TOC groups, while the relative burst swimming speed of DOO group was significantly lower than that of the TOO group (P<0.05). There were no significant differences observed in pre-exercise metabolic rate of time to peak metabolic rate among all groups. Nevertheless, peak post-exercise metabolic rate, metabolic rate increment, duration, and EPOC magnitude were significantly higher in the TOO group compared to the TC and TOC groups (P<0.005). Similarly, peak post-exercise metabolic rate, metabolic rate increment, duration, and EPOC magnitude of DOO group were significantly lower than those of the TOO group (P<0.05). Our results suggested that (1) anaerobic exercise training significantly enhances the anaerobic exercise capacity of juvenile A. davidianus, possibly due to improved anaerobic metabolism function, and (2) the training effect of anaerobic exercise on juvenile A. davidianus is closely related to the training intensity and lasts for a short duration.

     

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