Abstract:
In order to investigate the effect of continuous exercise training on the swimming performance and respiration metabolism of
Takifugu obscurus during proliferation and release activities, the critical swimming speed (
Ucrit), burst swimming speed (
Ubrust), resting metabolic rate (RMR) and active metabolic rate (AMR) of
T. obscurus were measured after exercise training at different intensities (0.75 and 1.5 BL/s) and durations (1, 2 and 4 weeks). The results showed that after 1 week of continuous training at low intensity (0.75 BL/s),
Ubrust, RMR and AMR had no significant changes, while
Ucrit was significantly increased. Following 2 weeks of continuous training,
Ucrit,
Ubrust, RMR and AMR remained reletively stable. After 4 weeks of continuous training,
Ubrust and RMR showed no significant change, while
Ucrit decreased significantly (
P<0.05) and AMR increased significantly (
P<0.05). After 2 weeks of high intensity (1.5 BL/s) training, there were no significant changes in
Ucrit,
Ubrust, RMR and AMR of
T. obscurus. After 4 weeks of continuous training,
Ucrit,
Ubrust and RMR did not change significantly, while AMR decreased significantly (
P<0.05). The results showed that short periods of low-intensity training (0.75 BL/s training for 1 to 2 weeks) improved the critical swimming capacity of
T. obscurus, while continuous low-intensity training (0.75 BL/s training for 2—4 weeks) increased the active metabolic rate of
T. obscurus. Therefore, proper exercise training may play a certain role in improving the swimming capacity of
T. obscurus after releasing, which is helpful to improve the survival rate and releasing effect.
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