Enhanced diversity at network nodes: river confluences increase vegetation-patch diversity.

Q2 Environmental Science

Open Ecology Journal Pub Date : 2010-07-08 DOI:10.2174/1874213001003010048

T. Osawa, H. Mitsuhashi, Hideyuki Niwa, A. Ushimaru

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引用次数: 10

Abstract

Although dendritic networks within ecosystems have typically been considered a special case of network topology, they have attracted a great deal of attention in recent years. These systems exhibit unique features in that both the nodes and branches provide distinct habitats. Within a river discontinuum context, river confluences, which are nodes of dendritic river networks, are hypothesised to have particular hydrodynamic traits that create heterogeneous habitats through a unique disturbance regime, although this hypothesis has not yet been tested. We tested this hypothesis using a vegetation data set collected from 14 river basin systems in Hyogo Prefecture, Japan. We compared vegetation-patch diversity between confluence and single-flow areas using hierarchical Bayesian models. Our results demonstrated greater vegetation-patch diversity in confluence areas compared to single-flow areas. Our findings support the hypothesis that confluences result in highly heterogeneous habitats. To the best of our knowledge, this is the first empirical report to demonstrate that river confluences have high vegetation-patch diversity. We conclude that network nodes play an important role in maintaining the biodiversity of river networks.

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网络节点多样性增强:河流汇合处增加了植被斑块多样性。

虽然生态系统中的树突网络通常被认为是网络拓扑的一个特例，但近年来它们引起了人们的极大关注。这些系统表现出独特的特征，节点和分支都提供不同的栖息地。在河流非连续体背景下，作为树突状河流网络节点的河流汇合处被假设具有特殊的水动力特征，通过独特的扰动机制创造异质栖息地，尽管这一假设尚未得到验证。我们使用收集自日本兵库县14个流域系统的植被数据集验证了这一假设。采用层次贝叶斯模型对汇流区和单流区植被斑块多样性进行了比较。我们的研究结果表明，与单流地区相比，汇流地区的植被斑块多样性更大。我们的发现支持这样的假设，即汇合会导致高度异质的栖息地。据我们所知，这是第一个证明河流汇合处具有高植被斑块多样性的实证报告。网络节点在维持河网生物多样性中起着重要作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

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.