Hahn Meike Anika, Von Elert Eric
Department of Biology, University of Cologne, Cologne, North Rhine-Westphalia, Germany.
PeerJ. 2020 Apr 17;8:e8809. doi: 10.7717/peerj.8809. eCollection 2020.
In freshwater zooplankton diel vertical migration (DVM) is a widespread predator-avoidance behavior that is induced by kairomones released from fish. Thereby zooplankton reduces predation by fish by staying in deep and dark colder strata during daytime and migrating into warmer layers during night, and thus experiences diel alterations in temperature. Constantly lower temperatures have been shown to increase the relative abundance of polyunsaturated fatty acids (PUFAs) in sp. Furthermore, a low dietary supply of the ω3-PUFA eicosapentaenoic acid (EPA) has been shown to limit the induction of DVM in and the performance of under fluctuating temperatures, as experienced during DVM. In nature DVM of in response to fish is accompanied by the presence of fish-borne kairomone and diel fluctuations of depth dependent-parameters like temperature, food, and oxygen supply. Here we investigated the effect of factors, which are differing between that perform DVM and those which do not. We selected to examine the effect of changing temperature and light conditions and of the presence/absence of fish kairomones on For this purpose, we conducted a full factorial experimental design in which we grew under constantly warm temperatures in a diel light-dark regime or under alternating temperatures in darkness crossed with the presence or absence of fish kairomones. We analyzed the fatty acid composition of mature animals and of their offspring in each treatment. Simulation of the light and temperature regime of migrating animals in presence of the fish kairomone resulted in an increased relative allocation of the ω3-PUFA EPA, from adult animals to their offspring, manifesting as decreased EPA concentrations in mothers and increased EPA concentrations in their offspring in response to simulated DVM (mothers). Additionally, EPA concentrations in the offspring were affected by the interaction of simulated DVM and the fish cue. The presence of the fish kairomone alone increased the EPA concentration in the offspring, that was not experiencing simulated DVM. These findings lead to the conclusion that the temperature and light regime associated with DVM alone, as well as in combination with the DVM-inducing fish kairomones, alter the allocation of fatty acids to the offspring in a manner, which is beneficial for the offspring under the decreased average temperatures, which migrating animals are exposed to. A low dietary supply of ω3-PUFAs may constrain 's amplitude of DVM, but our results suggest that the next generation of animals may be capable of regaining the full DVM amplitude due to the effect of the fish kairomone and the experienced temperature fluctuations (and darkness) on tissue fatty acid composition. These findings suggest that fatty acid limitation in DVM performing may be more severe for the maternal than for the offspring generation.
在淡水浮游动物中,昼夜垂直迁移(DVM)是一种广泛存在的躲避捕食者行为,由鱼类释放的信息素诱导产生。浮游动物通过白天停留在深层黑暗寒冷水层、夜间迁移到温暖水层来减少鱼类捕食,从而经历温度的昼夜变化。研究表明,持续较低的温度会增加特定物种中多不饱和脂肪酸(PUFA)的相对丰度。此外,已证明ω3-多不饱和脂肪酸二十碳五烯酸(EPA)的低膳食供应会限制特定物种在温度波动(如昼夜垂直迁移期间所经历的)下的昼夜垂直迁移诱导和表现。在自然界中,特定物种对鱼类做出反应的昼夜垂直迁移伴随着鱼类携带的信息素的存在以及深度相关参数(如温度、食物和氧气供应)的昼夜波动。在这里,我们研究了进行昼夜垂直迁移和不进行昼夜垂直迁移的特定物种之间存在差异的因素的影响。我们选择研究温度和光照条件的变化以及鱼类信息素的存在与否对特定物种的影响。为此,我们进行了全因子实验设计,在恒定温暖温度下的昼夜明暗周期中或在黑暗中的交替温度下,在有或没有鱼类信息素的情况下培养特定物种。我们分析了每种处理中成熟动物及其后代的脂肪酸组成。在存在鱼类信息素的情况下模拟迁移动物的光照和温度模式,导致ω3-多不饱和脂肪酸EPA从成年动物到其后代的相对分配增加,表现为母亲体内EPA浓度降低,后代体内EPA浓度因模拟昼夜垂直迁移(母亲)而增加。此外,后代体内的EPA浓度受模拟昼夜垂直迁移和鱼类信号相互作用的影响。仅鱼类信息素的存在就会增加未经历模拟昼夜垂直迁移的后代体内的EPA浓度。这些发现得出结论,与昼夜垂直迁移相关的温度和光照模式,以及与诱导昼夜垂直迁移的鱼类信息素相结合,会以一种有利于后代在迁移动物所经历的平均温度降低情况下的方式改变脂肪酸向后代的分配。ω3-多不饱和脂肪酸的低膳食供应可能会限制特定物种的昼夜垂直迁移幅度,但我们的结果表明,由于鱼类信息素以及所经历的温度波动(和黑暗)对组织脂肪酸组成的影响,下一代动物可能能够恢复完整的昼夜垂直迁移幅度。这些发现表明,在进行昼夜垂直迁移的特定物种中,脂肪酸限制对母体的影响可能比对后代的影响更严重。
