Laboratory of Evolutionary Physiology and Behaviour, Chongqing Key Laboratory of Animal Biology, Chongqing Normal University, Chongqing, China.
Comp Biochem Physiol A Mol Integr Physiol. 2010 May;156(1):67-73. doi: 10.1016/j.cbpa.2009.12.022. Epub 2010 Feb 4.
To examine the effects of exercise training on the metabolic interaction between digestion and locomotion in juvenile darkbarbel catfish (Peltebagrus vachelli) (5.58+/-0.04 g), the postprandial metabolic response, critical swimming speeds (U(crit)) and oxygen consumption rates (VO(2)) during swimming were measured on fish held at a constant temperature (25 degrees C). Fish were fed a diet of cutlets of freshly killed loach. Fish in the trained group were forced to swim at 60% U(crit) for 50 min followed by an exhaustive 10-min chase once daily for 21 days. Exercise training did not produce significant differences in resting VO(2) (VO(2rest)) and postprandial peak VO(2) (VO(2peak)) compared to the non-trained groups. However, exercise training elicited a significant decrease in both the duration and energy expenditure of digestion when fed with similar food (P<0.05). Feeding had no significant effect on U(crit) of non-trained fish, while it caused a significantly lower U(crit) (compared to fasting fish) in trained fish (P<0.05). Training resulted in a significantly higher U(crit) and active VO(2) (VO(2active)) in fasting fish when fish swam at U(crit). However, training had no effect on either the U(crit) or VO(2active) of post-feeding fish. Our results suggest that: (1) the central cardio-respiratory systems of non-trained darkbarbel catfish can support the oxygen demands of both digestion and the locomotion simultaneously; (2) the metabolic mode of competition in darkbarbel catfish is flexible; it changed from an additive model to a digestion-priority model after exercise training; (3) training may be accounted for cardio-respiratory capacity increase and following improvement of swimming performance during fasting in darkbarbel catfish, although, the swimming capacity was sacrificed to digestion in the situation of postprandial locomotion.
为了研究运动训练对幼年暗纹东方鲀(Peltebagrus vachelli)(5.58±0.04 g)消化与运动代谢互作的影响,在恒定温度(25℃)下,测量了饱食后代谢反应、临界游泳速度(Ucrit)和游泳时耗氧率(VO2)。鱼被喂食切成小块的泥鳅。训练组的鱼被强迫以 60% Ucrit 游泳 50 分钟,然后每天进行 10 分钟的全力追逐,持续 21 天。与未训练组相比,运动训练并没有显著改变静息 VO2(VO2rest)和饱食后峰值 VO2(VO2peak)。然而,当喂食类似食物时,运动训练显著减少了消化的持续时间和能量消耗(P<0.05)。进食对未训练鱼的 Ucrit 没有显著影响,而在训练鱼中,进食导致 Ucrit 显著降低(与空腹鱼相比)(P<0.05)。训练使空腹鱼在以 Ucrit 游泳时 Ucrit 和主动 VO2(VO2active)显著升高。然而,训练对饱食后鱼的 Ucrit 或 VO2active 没有影响。我们的研究结果表明:(1)未训练暗纹东方鲀的中央心肺系统可以同时支持消化和运动的氧气需求;(2)暗纹东方鲀的代谢竞争模式是灵活的,在运动训练后,它从加和模型转变为消化优先模型;(3)尽管在饱食后运动时,游泳能力会牺牲给消化,但训练可能会导致暗纹东方鲀在空腹时心肺能力增加和随后游泳能力的提高。
