基础物种对生态系统功能和稳定性的交互作用

Anita Narwani, M. Reyes, A. Pereira, Hannele Penson, Stuart R. Dennis, Sam Derrer, P. Spaak, B. Matthews
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引用次数: 11

摘要

生态学的一个主要挑战是了解生态系统在面对干扰时功能和稳定性的决定因素。一些重要的物种可以强烈地塑造群落结构和生态系统功能,但它们对生态系统水平对干扰的响应的影响和相互作用尚不清楚。浅池为研究这些物种的影响提供了一个模型系统,因为一些分类群减轻了由富营养化引起的不同生态系统状态之间的过渡。我们进行了池塘实验,以测试两种基础物种(一种大型植物和一种贻贝)如何影响浮游初级生产者的生物量及其对营养添加的稳定性。单独而言,每个物种都减少了浮游植物生物量,并倾向于增加从干扰中恢复的速度,但这些物种共同逆转了这些效应,特别是在增加大量营养物质的情况下。这种逆转是由社区的高蓝藻优势和由此导致的性状均匀性损失介导的。基础种对初级生产者生物量的影响与对其他生态系统特性的影响有关,包括浊度和溶解氧。我们的工作强调了基础物种及其相互作用在决定生态系统功能对干扰的响应中的重要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Interactive effects of foundation species on ecosystem functioning and stability in response to disturbance
A major challenge in ecology is to understand determinants of ecosystem functioning and stability in the face of disturbance. Some important species can strongly shape community structure and ecosystem functioning, but their impacts and interactions on ecosystem-level responses to disturbance are less well known. Shallow ponds provide a model system in which to study the effects of such species because some taxa mitigate transitions between alternative ecosystem states caused by eutrophication. We performed pond experiments to test how two foundation species (a macrophyte and a mussel) affected the biomass of planktonic primary producers and its stability in response to nutrient additions. Individually, each species reduced phytoplankton biomass and tended to increase rates of recovery from disturbance, but together the species reversed these effects, particularly with larger nutrient additions. This reversal was mediated by high cyanobacterial dominance of the community and a resulting loss of trait evenness. Effects of the foundation species on primary producer biomass were associated with effects on other ecosystem properties, including turbidity and dissolved oxygen. Our work highlights the important role of foundation species and their interactive effects in determining responses of ecosystem functioning to disturbance.
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