Network Structure of Bat-Ectoparasitic Interactions in Tropical Dry Forests at Two Different Regions in Brazil

Pub Date : 2022-08-18 DOI:10.3161/15081109ACC2022.24.1.019
Luiz A. Dolabela Falcão, W. Araújo, L. Leite, M. Fagundes, M. Espírito-Santo, Magno A. Zazá-Borges, P. Vasconcelos, G. Fernandes, A. Paglia
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引用次数: 2

Abstract

Network analysis has been used for understanding complex systems in biology for decades. However, scant information is available for networks of antagonistic interactions. The aim of this study was to describe and compare bat-ectoparasite interaction networks in tropical dry forests (TFDs) in the Brazilian Cerrado and Caatinga biomes, which have contrasting environmental conditions and surrounding matrix. Bats and ectoparasites were sampled at six sites in northern and central Minas Gerais State, southeast Brazil. Network connectance, nestedness and number of compartments were compared between regions, as well as bat species richness, abundance and centrality, and ectoparasite specialization. The effect of bat phylogenetic relatedness on the similarity of their associated ectoparasite species was also tested. Bat-ectoparasite networks were nested, connected and highly compartmentalized in TDFs from both regions, with no significant differences in network structure. In addition, host species richness negatively influenced nestedness and connectance, but was positively related to compartment number. These findings are likely related to the high specialization observed for bat-fly species (usually one exclusive parasite species per host), resulting in networks with few interactions. Bat abundance positively affected bat-fly richness, indicating that resource availability is important in determining host-parasite relationships. Finally, phylogenetically related species of bats possessed more similar ectoparasite faunas, which may be associated with evolutionary responses of ectoparasites to escape defensive mechanisms of different bat species. Our results suggest that local bat-ectoparasite interactions are influenced by both ecological factors and evolutionary constraints, but the effects of environmental conditions on network topology deserved further detailed studies.
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巴西两个不同地区热带干燥森林中蝙蝠-外寄生相互作用的网络结构
几十年来,网络分析一直被用于理解生物学中的复杂系统。然而,关于对抗性相互作用网络的信息却很少。本研究的目的是描述和比较巴西塞拉多和卡廷加生物群落热带干燥森林(TFD)中蝙蝠体外寄生虫相互作用网络,这两个生物群落具有不同的环境条件和周围基质。在巴西东南部米纳斯吉拉斯州北部和中部的六个地点对蝙蝠和体外寄生虫进行了采样。比较了不同地区之间的网络连通性、嵌套性和隔室数量,以及蝙蝠物种的丰富度、丰度和中心性,以及体外寄生虫的特化。还测试了蝙蝠系统发育相关性对其相关体外寄生虫物种相似性的影响。蝙蝠体外寄生虫网络在两个地区的TDF中嵌套、连接并高度分区,网络结构没有显著差异。此外,寄主物种丰富度对巢性和连通性产生负向影响,但与隔室数呈正相关。这些发现可能与观察到的蝙蝠蝇物种的高度特化有关(通常每个宿主只有一个寄生虫物种),导致网络很少相互作用。蝙蝠的丰度对蝙蝠-苍蝇的丰富度有积极影响,表明资源的可用性在决定宿主-寄生虫关系方面很重要。最后,系统发育相关的蝙蝠物种拥有更相似的外寄生虫动物群,这可能与外寄生虫逃避不同蝙蝠物种防御机制的进化反应有关。我们的研究结果表明,本地蝙蝠外寄生虫的相互作用受到生态因素和进化约束的影响,但环境条件对网络拓扑结构的影响值得进一步详细研究。
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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