禁食对大鲵幼体身体参数和餐后代谢反应的影响

FASTING ON PHYSICAL PARAMETERS AND POSTPRANDIAL METABOLIC RESPONSE IN JUVENILE ANDRIAS DAVIDIANUS

  • 摘要: 为了考察不同禁食时间对两栖动物身体参数和餐后代谢反应的影响, 选取40尾大鲵(Andrias davidianus)幼体(5.44±0.08) g, (10.87±0.06) cm为研究对象, 将其平均分为对照组(F0)、1周禁食组(F1)、2周禁食组(F2)和4周禁食组(F4)进行不同禁食时间处理, 随后测量其体质量、体长、静止代谢率和餐后代谢相关参数。研究发现F1、F2和F4组的终末体长和终末体质量分别显著低于各自初始体长和初始体质量(P<0.05); F4组终末肥满度显著低于其初始肥满度(P<0.05); F1、F2和F4组之间的终末体长无显著性差异; F4组终末体质量和终末肥满度都显著低于F1和F2组(P<0.05); F1、F2和F4组之间的体长变化比率无显著性差异(分别为–3.51%、–2.72%和–2.76%); F4组体质量变化比率(–18.54%)和肥满度变化比率(–11.30±1.50)显著低于F1(分别为–11.48%和–1.26±3.07)和F2 (分别为–11.81%和–3.89±2.60)组(P<0.05)。F2和F4组的静止代谢率无显著差异, 但均显著低于F0和F1组(P<0.05); 各个处理组之间的代谢峰值、峰值时间、SDA时间都无显著性差异; F4组峰值比率显著高于F0、F1和F2组(P<0.05); F4组SDA耗能和SDA系数显著高于F0和F1组(P<0.05)。研究表明: (1)禁食过程中大鲵幼体体质量下降得比体长更加显著; (2)大鲵幼体在2—4周禁食期间显著下调了其基本维持能量消耗; (3)大鲵幼体最大摄食代谢能力和消化时间在禁食过程中维持稳定, 但长期禁食(4周)导致大鲵幼体餐后代谢耗能显著增加, 这可能与其再次摄食后消化系统结构和功能恢复所需额外的耗能增加有关。总体而言, 禁食对大鲵幼体身体参数、维持代谢耗能和摄食代谢耗能具有显著的影响, 但其影响程度与禁食时间长短有关。

     

    Abstract: Animals often experience different degrees of food deprivation in natural conditions, yet their adaptation strategies to starvation stress differ. In order to investigate the effects of fasting on physical parameters and postprandial metabolic response in amphibians, we selected the juvenile Andrias davidianus as experimental subjects. Forty individuals (5.44±0.08) g, (10.87±0.06) cm were randomly divided into 4 groups: a control group (F0), a 1-week fasting group (F1), a 2-week fasting group (F2), and a 4-week fasting group (F4). Subsequently, body mass, body length, rest metabolic rate (MO2rest), and postprandial metabolic response of these animals were measured after different fasting periods. Final body length and body mass in F1, F2, and F4 groups were significantly lower than their initial measurements (P<0.05). Moreover, the final condition factor in F4 group was significantly lower than its initial condition factor (P<0.05). While there was no significant difference in final body length among the F1, F2, and F4 groups, the final body mass and condition factor in F4 group were significantly lower than those of F1 and F2 groups (P<0.05). Additionally, there was no significant difference in the rate of change in body length among the F1, F2, and F4 groups (–3.51%, –2.72%, and –2.76%, respectively). However, the rate of change in body mass (–18.54%) and condition factor (–11.30±1.50) in F4 group were significantly lower than those of F1 (–11.48% and –1.26±3.07, respectively) and F2 (–11.81% and –3.89±2.60, respectively) groups (P<0.05). There was no significant difference in MO2rest between the F2 and F4 groups, but they were significantly lower than that in the F0 and F1 groups (P<0.05). There were no significant differences in Peak metabolic rate (MO2peak), time to peak metabolic rate, or duration in the different treatment groups. Furthermore, the factorial metabolic scope in F4 group was significantly higher than those of F0, F1 and F2 groups (P<0.05). The energy expended on SDA and SDA coefficient in F4 group were significantly higher than those of F0 and F1 groups (P<0.05). Our results suggested that (1) the body mass of juvenile A. davidianus decreased more significantly than body length during fasting; (2) juvenile A. davidianus significantly downregulated their basic maintenance energy expenditure during 2 to 4 weeks of fasting; (3) the maximum digestive metabolism and digestive time of juvenile A. davidianus kept stable during fasting. However, fasting for 4 weeks led to a significant increase in the postprandial metabolic energy consumption, possibly due to the additional energy required for the structural and functional recovery of the digestive system after refeeding. Overall, fasting has a significant impact on the physical parameters, the basic maintenance energy expenditure and the postprandial metabolic energy consumption of juvenile A. davidianus, but its influence degree is related to the duration of fasting.

     

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