食物网复杂性调节环境对食物链长度的影响

IF 3.1 2区 环境科学与生态学 Q2 ECOLOGY Oikos Pub Date : 2024-02-20 DOI:10.1111/oik.10331
Shota Shibasaki, Akira Terui
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引用次数: 0

摘要

食物链长度(FCL)是生物多样性的一个重要方面,因其对生态系统功能的影响而备受争议。以前的研究提出,资源可用性、干扰和生态系统规模是环境驱动因素。然而,使用稳定同位素方法进行的研究结果并不一致,表明环境驱动因素与 FCL 之间缺乏联系。在此,我们假设物种丰富度和模式(即三物种子图)会调节环境对 FCL 的影响。通过将经验食物网与我们的N种食物网模型相结合,我们发现在物种丰富度较低时,FCL会发生不成比例的变化,而在物种丰富度较高时,FCL会达到饱和。在我们的模型中,这种功能反应对于干扰和生态系统规模的相互依存效应至关重要。在物种丰富度较低的较小生态系统中,干扰对 FCL 的调节作用更强。同样,在强干扰(而非弱干扰)机制下,生态系统规模的扩大会增强食物网的FCL。我们的研究表明,内部食物网结构应加深我们对FCL如何随环境变化的理解。
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Food web complexity modulates environmental impacts on food chain length
The determinants of food chain length (FCL), a crucial aspect of biodiversity due to its effects on ecosystem functioning, have long been debated. Previous studies proposed resource availability, disturbance, and ecosystem size as environmental drivers. However, studies using stable isotope approaches have shown inconsistent results, indicating missing links between environmental drivers and FCL. Here, we hypothesized that species richness and motifs (i.e. three‐species subgraphs) modulated environmental effects on FCL. Combining empirical food webs with our N‐species food web model, we found that FCL disproportionately changed at low species richness, with saturation at high species richness. This functional response was essential to the interdependent effects of disturbance and ecosystem size in our model. Disturbance more strongly regulated FCL in smaller ecosystems, where species richness was low. Similarly, increasing ecosystem size enhanced FCL under strong, but not weak, disturbance regimes. Our study suggests that internal food web structure should deepen our understanding of how FCL changes over environments.
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来源期刊
Oikos
Oikos 环境科学-生态学
CiteScore
6.20
自引率
5.90%
发文量
152
审稿时长
6-12 weeks
期刊介绍: Oikos publishes original and innovative research on all aspects of ecology, defined as organism-environment interactions at various spatiotemporal scales, so including macroecology and evolutionary ecology. Emphasis is on theoretical and empirical work aimed at generalization and synthesis across taxa, systems and ecological disciplines. Papers can contribute to new developments in ecology by reporting novel theory or critical empirical results, and "synthesis" can include developing new theory, tests of general hypotheses, or bringing together established or emerging areas of ecology. Confirming or extending the established literature, by for example showing results that are novel for a new taxon, or purely applied research, is given low priority.
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