优势物种的密度依赖性捕食不能促进树洞生物多样性的增加

Q2 Environmental Science

Open Ecology Journal Pub Date : 2009-12-02 DOI:10.2174/1874213000902010091

Leslie Smith, J. D. Blue, J. Carlson, Grace Metz, J. Haywood, Daniel S. Bush, C. Paradise

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引用次数: 4

摘要

通过中观实验和自然树洞观测，研究了捕食对北卡罗莱纳州满水树洞群落的影响。在中生态系统中，研究了捕食者弓形虫(Toxorhynchites rutilus)的存在和凋落叶的丰度，以检验资源与捕食者之间的相互作用。对未被操纵的树洞中相互作用的长期研究提供了水量和捕食者密度自然变化的数据。鹦鹉螺捕食两种常见的树洞昆虫:三体伊蚊和库蠓。我们预测，T. rutilus将作为一个关键捕食者，并降低这些优势物种的密度。这将允许其他物种共存，并导致多样性的增加。我们还预测，在资源水平较高的栖息地，由于避难所的增加或竞争的减少，捕食的影响将会减弱。结果并不完全支持这些预测。在中子室和树洞中，rutilus降低了最丰富的猎物类型A. triseriatus的密度。在树洞中，鹦鹉螺的存在降低了蠓的密度，捕食者密度与树洞昆虫多样性呈正相关。引人注目的是，更高的多样性也与树洞中优势猎物的高密度有关。此外，中生态系统中螺的存在与物种多样性没有关系。在树洞中，捕食者与多样性之间的关系似乎与捕食优势竞争对手无关，而是由一些其他栖息地特征引起的。虽然资源对中生态和树洞的密度和多样性都有影响，但所分析的两种资源(凋落叶或水)似乎都不是相互允许T. rutilus大种群和高物种多样性的唯一特征。我们得出结论，尽管T. rutilus是一种侵略性捕食者，但它不会像基石捕食者那样引起猎物物种多样性的增加。需要进一步的研究来确定有利于捕食者存在和高猎物多样性的条件。

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Density-Dependent Predation of a Dominant Species does not Facilitate Increased Diversity in Treeholes

The effects of predation on water-filled treehole communities in North Carolina were examined using mesocosm experiments and observations in natural treeholes. The presence of the predator Toxorhynchites rutilus and leaf litter abundance were manipulated in mesocosms to examine interactions between resources and predation. Long-term examination of interactions in unmanipulated treeholes provided data on natural variation in water volume and predator density. Toxorhynchites rutilus preys upon two common treehole insects, Aedes triseriatus and Culicoides guttipennis. We predicted that T. rutilus would act as a keystone predator and reduce the density of these dominant species. This would allow other species to coexist and lead to an increase in diversity. We also predicted that effects of predation would be reduced in habitats with high levels of resources, due to either increased refugia or decreased competition. The results did not entirely support the predictions. In both mesocosms and treeholes T. rutilus depressed densities of the most abundant prey type, A. triseriatus. In treeholes, the presence of T. rutilus depressed densities of the midge C. guttipennis, and predator densities were positively associated with insect diversity in treeholes. Strikingly, higher diversity was also associated with high densities of the dominant prey in treeholes. In addition, mesocosms showed no relationship between T. rutilus presence and species diversity. The relationship between the predator and diversity in treeholes appears to be unrelated to predation on the dominant competitors and is instead caused by some other habitat characteristic. While there were effects of resources on densities and diversity in both mesocosms and treeholes, neither of the resources analyzed, leaf litter or water, appear to be the sole characteristic that mutually allows for large populations of T. rutilus and high species diversity. We conclude that though T. rutilus is an aggressive predator, it does not cause an increase in prey species diversity as a keystone predator would. Further research is needed to determine the conditions that favor the presence of predator and high prey diversity.

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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.