The structure of plant-herbivore interactions in urban savanna fragments reveals an unexpected high specialization and dependency on plant and insect attributes

IF 2.5 3区 环境科学与生态学 Q2 BIODIVERSITY CONSERVATION Urban Ecosystems Pub Date : 2024-08-14 DOI:10.1007/s11252-024-01599-x
Walter Santos de Araújo, Érica Vanessa Durães de Freitas
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Abstract

Urbanization profoundly alters natural landscapes, leading to changes in species assemblages and ecological interactions. Despite increasing interest in understanding the effects of urbanization on species interactions, there is still a gap in knowledge regarding the structure of plant-herbivore networks in urban environments. Previous studies have indicated that anthropogenic impacts can alter the topology of plant-herbivore networks, making them more generalized in disturbed environments. Here, we investigate the topology of a plant-herbivore network in urban fragments of neotropical savanna in Brazil. As specialist species (i.e., those with few interactions) tend to be more sensitive to urbanization than generalist species (i.e., those with many interactions), we hypothesized that the urban savanna network would exhibit low specialization and modularity but high nestedness. We also tested if different attributes of insects (abundance, feeding guild, developmental stage, and taxon) and plants (abundance, height, and coverage) affect the diversity of their interactions at the species level. Contrary to our expectations, the network exhibited higher specialization and modularity than expected by null models, indicating urban environments may foster levels of specialization comparable to observed in previous studies for wild savannas. Regarding the species-level descriptors, we found that different characteristics of insect and plant species affect the diversity and specialization of their interactions. Our results showed that adult insects have higher degree and centrality in shaping the network, possibly attributed to their increased mobility and capacity to link various segments of the network. Similarly, chewing insects and thrips (Thysanoptera), known for their generalist interactions with plants, had higher number of interactions and were central within the network. Furthermore, larger plant species had a higher degree and greater betweenness centrality, while plant species with greater cover had lower specialization compared to herbs. This indicates that plant species with greater structural complexity accumulate more generalized interactions. Our results also show that more abundant species, both insects and plants, had a higher number of interactions and greater centrality in the network. Our study provides insights into the structure of plant-herbivore networks in urban savanna fragments, contributing to our understanding of species interactions in urban environments and their response to anthropogenic pressures.

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城市热带稀树草原片段中植物与食草动物之间的相互作用结构揭示了意想不到的高度专业化以及对植物和昆虫属性的依赖性
城市化深刻地改变了自然景观,导致物种组合和生态相互作用发生变化。尽管人们越来越关注了解城市化对物种相互作用的影响,但对城市环境中植物-食草动物网络结构的了解仍然存在差距。以往的研究表明,人为影响会改变植物-食草动物网络的拓扑结构,使其在受干扰的环境中更加普遍。在这里,我们研究了巴西新热带稀树草原城市片段中植物食草动物网络的拓扑结构。由于专性物种(即相互作用较少的物种)往往比通性物种(即相互作用较多的物种)对城市化更敏感,我们假设城市稀树草原网络将表现出较低的专性和模块化,但具有较高的嵌套性。我们还测试了昆虫(丰度、取食行会、发育阶段和类群)和植物(丰度、高度和覆盖率)的不同属性是否会影响它们在物种水平上的相互作用多样性。与我们的预期相反,该网络表现出了比空模型预期更高的专业化和模块化程度,这表明城市环境可能会促进与以往研究中观察到的野生稀树草原相当的专业化水平。关于物种层面的描述因子,我们发现昆虫和植物物种的不同特征会影响其相互作用的多样性和专业化程度。我们的研究结果表明,成虫在形成网络方面具有更高的程度和中心性,这可能是由于它们具有更强的流动性和连接网络各部分的能力。同样,咀嚼昆虫和蓟马(蓟马科)以与植物的通性相互作用而著称,它们的相互作用次数较多,在网络中处于中心位置。此外,与草本植物相比,较大的植物物种具有更高的度数和更大的间度中心性,而覆盖度较大的植物物种的专业化程度较低。这表明,结构更复杂的植物物种会积累更多的泛化相互作用。我们的研究结果还表明,无论是昆虫还是植物,数量越多的物种在网络中的相互作用次数越多,中心度越高。我们的研究提供了对城市稀树草原片段中植物-食草动物网络结构的见解,有助于我们了解城市环境中物种的相互作用及其对人为压力的响应。
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来源期刊
Urban Ecosystems
Urban Ecosystems BIODIVERSITY CONSERVATION-ECOLOGY
CiteScore
5.70
自引率
6.90%
发文量
113
期刊介绍: Urban Ecosystems is an international journal devoted to scientific investigations of urban environments and the relationships between socioeconomic and ecological structures and processes in urban environments. The scope of the journal is broad, including interactions between urban ecosystems and associated suburban and rural environments. Contributions may span a range of specific subject areas as they may apply to urban environments: biodiversity, biogeochemistry, conservation biology, wildlife and fisheries management, ecosystem ecology, ecosystem services, environmental chemistry, hydrology, landscape architecture, meteorology and climate, policy, population biology, social and human ecology, soil science, and urban planning.
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