Veronika Hillebrand, Andreas H. Dobler, Astrid N. Schwalb, Juergen Geist
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The laboratory experiment comprised three treatments: (1) fouling of <i>A. cygnea</i> by <i>D. polymorpha</i>, (2) both species present but not fouling; and (3) a control in which <i>A. cygnea</i> and <i>D. polymorpha</i> were placed separately. Increased water temperatures caused physiological stress in <i>D. polymorpha</i> as evident from reduced glycogen, glucose, lipid and protein concentrations. <i>Dreissena polymorpha</i> benefited from fouling of unionids, as individuals that fouled <i>A. cygnea</i> tended to have increased glycogen, glucose, lipid and protein concentrations. Competitive effects of <i>D. polymorpha</i> over the unionid bivalve species, however, were not intensified by elevated temperatures. Glochidia release, lower infestation intensity, and physiological stress of <i>Dreissena</i> at higher temperatures were likely confounding factors. 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引用次数: 0
摘要
在北美和欧洲的许多生态系统中,本地淡水双壳类动物(统称为双壳目)正受到外来斑马贻贝(Dreissena polymorpha)的污染和争夺食物的威胁。鉴于气候变化,了解水温对这些竞争效应的影响非常重要,但人们对其了解甚少。本研究通过比较斑马贻贝的糖原、葡萄糖、脂质和蛋白质浓度,考察了斑马贻贝与欧洲原生乌贼Anodonta cygnea在28天内相互作用对12、19和25 °C水温的生理影响。实验室实验包括三个处理:(1) D. polymorpha 对 A. cygnea 的污损;(2) 两个物种都存在但没有污损;(3) A. cygnea 和 D. polymorpha 分开放置的对照。水温升高对 D. polymorpha 造成了生理压力,糖原、葡萄糖、脂质和蛋白质浓度的降低就证明了这一点。Dreissena polymorpha 会从绵鲤的污损中获益,因为污损 A. cygnea 的个体糖原、葡萄糖、脂质和蛋白质浓度往往会增加。然而,D. polymorpha 对联合双壳类的竞争效应并没有因温度升高而增强。Glochidia 的释放、较低的侵扰强度以及 Dreissena 在较高温度下的生理压力可能是干扰因素。这项研究的结果表明,了解温度变化时物种相互作用的生理后果,是评估未来气候变化对淡水双壳类动物和水生群落结构影响的重要工具。
Physiological effects of interacting native and invasive bivalves under thermal stress
Across many ecosystems in North America and Europe, native freshwater bivalves (Order Unionida) are threatened by fouling and competition for food by the invasive zebra mussel Dreissena polymorpha. In light of climate change, knowledge on the influence of water temperature on these competitive effects is important, yet poorly understood. This study examines the physiological impact of the interaction between D. polymorpha and the native European unionid Anodonta cygnea over a 28 day—period in response to water temperatures of 12, 19, and 25 °C by comparing their glycogen, glucose, lipid and protein concentrations. The laboratory experiment comprised three treatments: (1) fouling of A. cygnea by D. polymorpha, (2) both species present but not fouling; and (3) a control in which A. cygnea and D. polymorpha were placed separately. Increased water temperatures caused physiological stress in D. polymorpha as evident from reduced glycogen, glucose, lipid and protein concentrations. Dreissena polymorpha benefited from fouling of unionids, as individuals that fouled A. cygnea tended to have increased glycogen, glucose, lipid and protein concentrations. Competitive effects of D. polymorpha over the unionid bivalve species, however, were not intensified by elevated temperatures. Glochidia release, lower infestation intensity, and physiological stress of Dreissena at higher temperatures were likely confounding factors. The results of this study suggest that understanding the physiological consequences of species interactions at changing temperatures can be an important tool to assess future climate change impacts on freshwater bivalves and aquatic community structures.
期刊介绍:
Biological Invasions publishes research and synthesis papers on patterns and processes of biological invasions in terrestrial, freshwater, and marine (including brackish) ecosystems. Also of interest are scholarly papers on management and policy issues as they relate to conservation programs and the global amelioration or control of invasions. The journal will consider proposals for special issues resulting from conferences or workshops on invasions.There are no page charges to publish in this journal.