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一种专食性潜叶蛾的空间种群结构

Spatial population structure of a specialist leaf-mining moth.

作者信息

Gripenberg Sofia, Ovaskainen Otso, Morriën Elly, Roslin Tomas

机构信息

Metapopulation Research Group, Department of Biological and Environmental Sciences, PO Box 65, Viikinkaari 1, FI-00014 University of Helsinki, Finland.

出版信息

J Anim Ecol. 2008 Jul;77(4):757-67. doi: 10.1111/j.1365-2656.2008.01396.x. Epub 2008 Apr 14.

Abstract
  1. The spatial structure of natural populations may profoundly influence their dynamics. Depending on the frequency of movements among local populations and the consequent balance between local and regional population processes, earlier work has attempted to classify metapopulations into clear-cut categories, ranging from patchy populations to sets of remnant populations. In an alternative, dichotomous scheme, local populations have been classified as self-sustaining populations generating a surplus of individuals (sources) and those depending on immigration for persistence (sinks). 2. In this paper, we describe the spatial population structure of the leaf-mining moth Tischeria ekebladella, a specialist herbivore of the pedunculate oak Quercus robur. We relate moth dispersal to the distribution of oaks on Wattkast, a small island (5 km(2)) off the south-western coast of Finland. 3. We build a spatially realistic metapopulation model derived from assumptions concerning the behaviour of individual moths, and show that the model is able to explain part of the variation in observed patterns of occurrence and colonization. 4. While the species was always present on large trees, a considerable proportion of the local populations associated with small oaks showed extinction-recolonization dynamics. The vast majority of moth individuals occur on large trees. 5. According to model predictions, the dominance of local vs. regional processes in tree-specific moth dynamics varies drastically across the landscape. Most local populations may be defined broadly as 'sinks', as model simulations suggest that in the absence of immigration, only the largest oaks will sustain viable moth populations. Large trees in areas of high oak density will contribute most to the overall persistence of the metapopulation by acting as sources of moths colonizing other trees. 6. No single 'metapopulation type' will suffice to describe the oak-moth system. Instead, our study supports the notion that real populations are often a mix of earlier identified categories. The level to which local populations may persist after landscape modification will vary across the landscape, and sweeping classifications of metapopulations into single categories will contribute little to understanding how individual local populations contribute to the overall persistence of the system.
摘要
  1. 自然种群的空间结构可能会深刻影响其动态变化。根据当地种群间的迁移频率以及由此产生的地方和区域种群过程之间的平衡,早期的研究试图将集合种群划分为明确的类别,从斑块状种群到残余种群集合。在另一种二分法方案中,当地种群被分为能产生个体盈余的自我维持种群(源)和依赖迁入来维持生存的种群(汇)。2. 在本文中,我们描述了食叶蛾埃氏潜叶蛾(Tischeria ekebladella)的空间种群结构,它是欧洲栓皮栎(Quercus robur)的一种专食性食草动物。我们将蛾类的扩散与芬兰西南海岸外一个小岛(5平方千米)瓦特卡斯特岛上栎树的分布联系起来。3. 我们构建了一个基于个体蛾类行为假设的空间真实集合种群模型,并表明该模型能够解释观察到的出现和定殖模式变化的部分原因。4. 虽然该物种在大树上总是存在,但与小栎树相关的相当一部分当地种群呈现出灭绝 - 再定殖动态。绝大多数蛾类个体出现在大树上。5. 根据模型预测,特定树木上蛾类动态中地方过程与区域过程的主导地位在整个景观中差异极大。大多数当地种群大致可被定义为“汇”,因为模型模拟表明,在没有迁入的情况下,只有最大的栎树才能维持可行的蛾类种群。栎树密度高的地区的大树将作为蛾类定殖到其他树木的源,对集合种群的整体持久性贡献最大。6. 没有单一的“集合种群类型”足以描述栎树 - 蛾类系统。相反,我们的研究支持这样一种观点,即实际种群通常是早期确定的各类别的混合。景观改变后当地种群能够持续存在的程度在整个景观中会有所不同,将集合种群一概而论地划分为单一类别对理解各个当地种群如何对系统的整体持久性做出贡献帮助不大。

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