指数、图和零模型:分析二部生态网络

Q2 Environmental Science Open Ecology Journal Pub Date : 2009-02-13 DOI:10.2174/1874213000902010007
C. Dormann, Jochen Fründ, N. Blüthgen, B. Gruber
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引用次数: 1256

摘要

近年来,许多生态网络的分析都引入了新的指标来描述网络的性质。因此,有几十个指标可用于解决类似的问题,在具体细节、检测相关属性的敏感性以及相对于网络大小和采样强度的鲁棒性方面有所不同。此外,一些指数仅反映参与网络的物种数量,而不反映它们的相互关系,需要零模型方法。在这里,我们介绍了一个新的,免费的软件计算大量的网络指标,可视化二部网络和生成零模型。我们使用该工具探讨了26个网络指标对网络维度、采样强度和单次观测的敏感性。基于观测数据,我们研究了这些指标之间的相互关系,并表明它们高度相关,并且受网络维度和连通性的影响很大。最后,我们重新评估了关于网络特性的5个常见假设,比较了19个具有三种不同复杂零模型的传粉网络:每个物种的链接数(“度”)遵循(截断的)幂律分布。2. 通才传粉者与专才传粉者相互作用,反之亦然(依赖不对称)。3.生态网络是嵌套的。4. 传粉者表现出互补性,由于在网络中的专业化。5. 植物传粉者网络比随机网络更能抵御灭绝。我们的结果表明,虽然一些假设与我们的零模型相违背,但其他假设在很大程度上是可以理解的,基于网络规模,而不是生态相互关系。特别是,零模型模式的依赖性不对称性和对灭绝的鲁棒性与当前网络范式所建议的相反。我们的分析和我们提供的工具使生态学家能够很容易地将他们的发现与许多不同问题的零模型期望进行对比,从而将统计必然性与生态过程分开。
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Indices, Graphs and Null Models: Analyzing Bipartite Ecological Networks
Many analyses of ecological networks in recent years have introduced new indices to describe network properties. As a consequence, tens of indices are available to address similar questions, differing in specific detail, sensitivity in detecting the property in question, and robustness with respect to network size and sampling intensity. Furthermore, some indices merely reflect the number of species participating in a network, but not their interrelationship, requiring a null model approach. Here we introduce a new, free software calculating a large spectrum of network indices, visualizing bipartite networks and generating null models. We use this tool to explore the sensitivity of 26 network indices to network dimensions, sampling intensity and singleton observations. Based on observed data, we investigate the interrelationship of these indices, and show that they are highly correlated, and heavily influenced by network dimensions and connectance. Finally, we re-evaluate five common hypotheses about network properties, comparing 19 pollination networks with three differently complex null models: 1. The number of links per species ("degree") follow (truncated) power law distributions. 2. Generalist pollinators interact with specialist plants, and vice versa (dependence asymmetry). 3. Ecological networks are nested. 4. Pollinators display complementarity, owing to specialization within the network. 5. Plant-pollinator networks are more robust to extinction than random networks. Our results indicate that while some hypotheses hold up against our null models, others are to a large extent understandable on the basis of network size, rather than ecological interrelationships. In particular, null model pattern of dependence asymmetry and robustness to extinction are opposite to what current network paradigms suggest. Our analysis, and the tools we provide, enables ecologists to readily contrast their findings with null model expectations for many different questions, thus separating statistical inevitability from ecological process.
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Open Ecology Journal
Open Ecology Journal Environmental Science-Environmental Science (all)
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期刊介绍: The Open Ecology Journal is an open access online journal which embraces the trans-disciplinary nature of ecology, seeking to publish original research articles, reviews, letters and guest edited single topic issues representing important scientific progress from all areas of ecology and its linkages to other fields. The journal also focuses on the basic principles of the natural environment and its conservation. Contributions may be based on any taxa, natural or artificial environments, biodiversity, spatial scales, temporal scales, and methods that advance this multi-faceted and dynamic science. The Open Ecology Journal also considers empirical and theoretical studies that promote the construction of a broadly applicable conceptual framework or that present rigorous tests or novel applications of ecological theory.
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