捕食风险的空间传播影响实验性水生景观中的定殖动态。

Spatial contagion of predation risk affects colonization dynamics in experimental aquatic landscapes.

作者信息

Resetarits William J, Binckley Christopher A

机构信息

Department of Ecology, Evolution and Natural Resources, Rutgers University, New Brunswick, New Jersey 08901, USA.

出版信息

Ecology. 2009 Apr;90(4):869-76. doi: 10.1890/08-0613.1.

DOI:10.1890/08-0613.1

PMID:19449679

Abstract

Colonization rate is a critical factor determining abundance and diversity in spatially distinct communities. Beyond simple variation driven by random processes, many species select/avoid habitat patches based on variation in habitat quality. Perceived habitat quality and colonization dynamics of individual patches may be influenced by specific characteristics of neighboring patches. We demonstrate that abundance and diversity of colonizing aquatic beetles is a function of both spatial variation in predator presence/absence and risk contagion generated by the proximity of predator patches to predator-free patches. Spatial contagion of predation risk generated repulsive sources: high fitness patches that were avoided. Thus, colonization dynamics of spatially discrete communities depends not only on intrinsic patch characteristics, but on the specific characteristics of nearby patches. The landscape-level dynamics of communities and metacommunities, as well as the efficacy of habitat restoration and conservation efforts, depends on how habitat quality is assessed, correctly or incorrectly, by colonizing species.

摘要

定殖率是决定空间上不同群落中物种丰富度和多样性的关键因素。除了由随机过程驱动的简单变化外，许多物种会根据栖息地质量的变化来选择/避开栖息地斑块。单个斑块的感知栖息地质量和定殖动态可能会受到相邻斑块特定特征的影响。我们证明，定殖水生甲虫的丰富度和多样性是捕食者存在/不存在的空间变化以及捕食者斑块与无捕食者斑块接近所产生的风险传播的函数。捕食风险的空间传播产生了排斥源：即被避开的高适合度斑块。因此，空间离散群落的定殖动态不仅取决于斑块的内在特征，还取决于附近斑块的特定特征。群落和集合群落的景观水平动态，以及栖息地恢复和保护工作的成效，取决于定殖物种对栖息地质量的评估正确与否。

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捕食风险的空间传播影响实验性水生景观中的定殖动态。

Spatial contagion of predation risk affects colonization dynamics in experimental aquatic landscapes.

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