Exploring resource patch occupancy: patch size, but not connectivity, explains the abundance of spider kleptoparasites in golden orb webs

IF 1.9 3区 生物学 Q1 ZOOLOGY Journal of Zoology Pub Date : 2024-08-30 DOI:10.1111/jzo.13212
M. Gregorič, S. G. Quiñones-Lebrón, M. Kuntner, I. Agnarsson
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Abstract

The ideal free distribution (IFD) theory predicts that individuals are free to move among habitat patches and distribute among them “ideally,” in order to maximize individual evolutionary fitness. Size and quality of habitat patches then should directly impact the number of individuals occupying them, and connectivity of habitat patches likely plays a role if dispersal is limited. However, habitat patches can be distributed so that movement no longer can be considered free, for example, when patches are isolated. Challenges stemming from patch delimitation and detection rate of occupants further complicate efforts attempting to resolve such patterns. Here, we utilize as habitat patches the orb webs of four different populations belonging to three golden orb weaver spider species, Nephila pilipes (Fabricius, 1793), Nephilingis livida (Vinson, 1863), and Trichonephila clavipes (Linnaeus, 1767), and the obligate spider kleptoparasites (Argyrodinae, Theridiidae) that are associated with their webs. We examine how the IFD predicts the abundance of kleptoparasites under different patterns of patch size and distribution. We found that larger host webs, that is, habitat patches that contain more resources, are occupied by a higher number of kleptoparasitic spiders, regardless of their degree of isolation. Although the free movement prediction is often violated in natural systems, we find no evidence for habitat patch connectivity affecting the abundance of kleptoparasites, indicating that their dispersal ability facilitates the location and colonization of habitat patches regardless of their isolation. Therefore, our results support the interaction between argyrodine kleptoparasitic spiders and the webs of golden orb weavers to be a suitable natural system for studying the IFD.

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探索资源斑块占用:斑块大小而非连通性可以解释金球网中蜘蛛偷食寄生虫的数量
理想自由分布(IFD)理论认为,个体可以在栖息地斑块之间自由移动,并 "理想地 "分布在这些斑块之间,以最大限度地提高个体的进化适应性。因此,栖息地斑块的大小和质量应直接影响占据这些斑块的个体数量,如果分散受到限制,栖息地斑块的连通性可能也会发挥作用。然而,栖息地斑块的分布也可能使个体的迁移不再是自由的,例如,当斑块被隔离时。由于斑块的划分和居住者的探测率所带来的挑战,使得试图解决这种模式的工作变得更加复杂。在这里,我们利用三个金眶织网蛛种(Nephila pilipes (Fabricius, 1793)、Nephilingis livida (Vinson, 1863)和Trichonephila clavipes (Linnaeus, 1767))的四个不同种群的蛛网作为栖息地斑块,以及与它们的蛛网相关的必须的蜘蛛偷盗寄生虫(Argyrodinae, Theridiidae)。我们研究了在不同的斑块大小和分布模式下,IFD如何预测蜘蛛网寄生虫的丰度。我们发现,较大的寄主蛛网,即含有较多资源的生境斑块,无论其隔离程度如何,都会被较多的偷寄生蜘蛛占据。虽然在自然系统中经常会出现违反自由移动预测的情况,但我们没有发现任何证据表明生境斑块的连通性会影响偷盗寄生蛛的数量,这表明无论生境斑块的隔离程度如何,偷盗寄生蛛的扩散能力都会促进生境斑块的定位和定殖。因此,我们的研究结果表明,箭形寄生蛛与金眶织女网之间的相互作用是研究IFD的一个合适的自然系统。
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来源期刊
Journal of Zoology
Journal of Zoology 生物-动物学
CiteScore
3.80
自引率
0.00%
发文量
90
审稿时长
2.8 months
期刊介绍: The Journal of Zoology publishes high-quality research papers that are original and are of broad interest. The Editors seek studies that are hypothesis-driven and interdisciplinary in nature. Papers on animal behaviour, ecology, physiology, anatomy, developmental biology, evolution, systematics, genetics and genomics will be considered; research that explores the interface between these disciplines is strongly encouraged. Studies dealing with geographically and/or taxonomically restricted topics should test general hypotheses, describe novel findings or have broad implications. The Journal of Zoology aims to maintain an effective but fair peer-review process that recognises research quality as a combination of the relevance, approach and execution of a research study.
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