Plant-mediated interactions between a vector and a non-vector herbivore promote the spread of a plant virus

P. Chisholm, S. Eigenbrode, R. Clark, Saumik Basu, D. Crowder
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引用次数: 19

Abstract

Herbivores that transmit plant pathogens often share hosts with non-vector herbivores. These co-occurring herbivores can affect vector fitness and behaviour through competition and by altering host plant quality. However, few studies have examined how such interactions may both directly and indirectly influence the spread of a plant pathogen. Here, we conducted field and greenhouse trials to assess whether a defoliating herbivore (Sitona lineatus) mediated the spread of a plant pathogen, Pea enation mosaic virus (PEMV), by affecting the fitness and behaviour of Acrythosiphon pisum, the PEMV vector. We observed higher rates of PEMV spread when infectious A. pisum individuals shared hosts with S. lineatus individuals. Using structural equation models, we showed that herbivory from S. lineatus increased A. pisum fitness, which stimulated vector movement and PEMV spread. Moreover, plant susceptibility to PEMV was indirectly enhanced by S. lineatus, which displaced A. pisum individuals to the most susceptible parts of the plant. Subsequent analyses of plant defence genes revealed considerable differences in plant phytohormones associated with anti-herbivore and anti-pathogen defence when S. lineatus was present. Given that vectors interact with non-vector herbivores in natural and managed ecosystems, characterizing how such interactions affect pathogens would greatly enhance our understanding of disease ecology.
植物介导的媒介与非媒介草食动物之间的相互作用促进了植物病毒的传播
传播植物病原体的食草动物通常与非媒介食草动物共享宿主。这些共同发生的食草动物可以通过竞争和改变寄主植物的质量来影响媒介的适应性和行为。然而,很少有研究考察这种相互作用如何直接或间接地影响植物病原体的传播。在这里,我们进行了田间和温室试验,以评估一种落叶食草动物(Sitona lineatus)是否通过影响豌豆生长花叶病毒(PEMV)载体丙烯吸管(Acrythosiphon pisum)的适合度和行为来介导植物病原体豌豆生长花叶病毒(PEMV)的传播。我们观察到,当具有传染性的棘球绦虫个体与线纹绦虫个体共用宿主时,PEMV的传播率更高。利用结构方程模型,研究结果表明,植食性增加了沙蚕的适合度,促进了媒介运动和PEMV的传播。此外,线线虫间接增强了植物对PEMV的敏感性,取代了梨花草个体对植物最敏感的部位。随后的植物防御基因分析显示,当线线虫存在时,与抗草食动物和抗病原体防御相关的植物激素存在相当大的差异。鉴于在自然和管理的生态系统中,病媒与非病媒食草动物相互作用,描述这种相互作用如何影响病原体将大大增强我们对疾病生态学的理解。
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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