Plant-herbivore interaction: Dissection of the cellular pattern of Tetranychus urticae feeding on the host plant
- Bensoussan, N. 3
- Santamaria, M. Estrella 13
- Zhurov, V. 3
- Diaz, I. 1
- Grbić, M. 23
- Grbić, V. 3
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1
Universidad Politécnica de Madrid
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2
Universidad de La Rioja
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3
University of Western Ontario
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ISSN: 1664-462X
Año de publicación: 2016
Volumen: 7
Número: JULY2016
Tipo: Artículo
beta Ver similares en nube de resultadosOtras publicaciones en: Frontiers in Plant Science
Resumen
The two-spotted spider mite, Tetranychus urticae Koch (Acari: Tetranychidae), is one of the most polyphagous herbivores feeding on cell contents of over 1100 plant species including more than 150 crops. It is being established as a model for chelicerate herbivores with tools that enable tracking of reciprocal responses in plant-spider mite interactions. However, despite their important pest status and a growing understanding of the molecular basis of interactions with plant hosts, knowledge of the way mites interface with the plant while feeding and the plant damage directly inflicted by mites is lacking. Here, utilizing histology and microscopy methods, we uncovered several key features of T. urticae feeding. By following the stylet path within the plant tissue, we determined that the stylet penetrates the leaf either in between epidermal pavement cells or through a stomatal opening, without damaging the epidermal cellular layer. Our recordings of mite feeding established that duration of the feeding event ranges from several minutes to more than half an hour, during which time mites consume a single mesophyll cell in a pattern that is common to both bean and Arabidopsis plant hosts. In addition, this study determined that leaf chlorotic spots, a common symptom of mite herbivory, do not form as an immediate consequence of mite feeding. Our results establish a cellular context for the plant-spider mite interaction that will support our understanding of the molecular mechanisms and cell signaling associated with spider mite feeding. © 2016 Bensoussan, Santamaria, Zhurov, Diaz, Grbić and Grbić.