WasserCluster Lunz, Dr. Carl Kupelwieser Promenade 5, 3293, Lunz am See, Austria.
Balaton Limnological Institute, Centre for Ecological Research, Klebelsberg Kuno u. 3, 8237, Tihany, Hungary.
Oecologia. 2020 Jun;193(2):489-502. doi: 10.1007/s00442-020-04677-x. Epub 2020 Jun 5.
Growing evidence suggests that global climate change promotes the dominance of mixotrophic algae especially in oligotrophic aquatic ecosystems. While theory predicts that mixotrophy increases trophic transfer efficiency in aquatic food webs, deleterious effects of some mixotrophs on consumers have also been reported. Here, using a widespread mixotrophic algal genus Dinobryon, we aimed to quantify how colonial taxa contribute to secondary production in lakes. We, therefore, studied the dietary effects of Dinobryon divergens on Cladocera (Daphnia longispina) and Copepoda (Eudiaptomus gracilis), representing two main taxonomic and functional groups of zooplankton. In feeding experiments, we showed that Dinobryon was largely grazing resistant and even inhibited the uptake of the high-quality reference food in Daphnia. Eudiaptomus could to some extent compensate with selective feeding, but a negative long-term food quality effect was also evident. Besides, Eudiaptomus was more sensitive to the pure diet of Dinobryon than Daphnia. Low lipid content and high C:P elemental ratio further supported the low nutritional value of the mixotroph. In a stable isotope approach analysing a natural plankton community, we found further evidence that carbon of Dinobryon was not conveyed efficiently to zooplankton. Our results show that the increasing dominance of colonial mixotrophs can result in reduced dietary energy transfer to consumers at higher trophic levels. In a wider perspective, global climate change favours the dominance of some detrimental mixotrophic algae which may constrain pelagic trophic transfer efficiency in oligotrophic systems, similarly to cyanobacteria in eutrophic lakes.
越来越多的证据表明,全球气候变化促进了混合营养藻类的优势地位,尤其是在贫营养水生生态系统中。虽然理论预测混合营养会增加水生食物网中的营养转移效率,但一些混合营养体对消费者也有有害影响。在这里,我们使用一种广泛存在的混合营养藻类属——双鞭藻,旨在量化群体分类单元如何为湖泊的次级生产力做出贡献。因此,我们研究了双鞭藻 divergens 对桡足类(Daphnia longispina)和哲水蚤(Eudiaptomus gracilis)的摄食作用,桡足类和哲水蚤分别代表了浮游动物的两个主要分类和功能群。在摄食实验中,我们表明,双鞭藻在很大程度上具有抗吞噬能力,甚至抑制了桡足类对高质量参考食物的吸收。哲水蚤可以在一定程度上通过选择性摄食进行补偿,但长期来看,食物质量仍会受到负面影响。此外,哲水蚤对双鞭藻纯饲料的敏感性高于桡足类。低脂质含量和高 C:P 元素比进一步证实了混合营养体的低营养价值。在一项分析自然浮游生物群落的稳定同位素方法中,我们找到了进一步的证据,表明双鞭藻的碳不能有效地传递给浮游动物。我们的研究结果表明,群体混合营养体的优势地位增加可能导致消费者在较高营养水平上的饮食能量转移减少。从更广泛的角度来看,全球气候变化有利于一些有害混合营养藻类的优势地位,这可能会限制贫营养系统中浮游生物的营养转移效率,类似于富营养湖中蓝藻的情况。
