Better Together: Volatile-Mediated Intraguild Effects on the Preference of Tuta absoluta and Trialeurodes vaporariorum for Tomato Plants.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-12-01 Epub Date: 2023-11-04 DOI:10.1007/s10886-023-01458-7
F Rodrigo, A P Burgueño, A González, C Rossini
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Abstract

Plant-herbivore interactions have been extensively studied in tomato plants and their most common pests. Tomato plant chemical defenses, both constitutive and inducible, play a role in mediating these interactions. Damaged tomato plants alter their volatile profiles, affecting herbivore preferences between undamaged and damaged plants. However, previous studies on tomato volatiles and herbivore preferences have yielded conflicting results, both in the volatile chemistry itself as well as in the attraction/repellent herbivore response. This study revisits the volatile-mediated interactions between tomato plants and two of their main herbivores: the leafminer Tuta absoluta and the whitefly Trialeurodes vaporariorum. Tomato plant volatiles were analyzed before and after damage by each of these herbivores, and the preference for oviposition (T. absoluta) and settling (T. vaporariorum) on undamaged and damaged plants was assessed both after conspecific and heterospecific damage. We found that both insects consistently preferred damaged plants over undamaged plants. The emission of herbivore-induced plant volatiles (HIPVs) increased after T. absoluta damage but decreased after T. vaporariorum damage. While some of our findings are in line with previous reports, T. absoluta preferred to oviposit on plants damaged by conspecifics, which differs from earlier studies. A comparison of HIPVs emitted after damage by T. absoluta and T. vaporariorum revealed differences in up- or down-regulation, as well as significant variations in specific compounds (12 for T. absoluta and 26 for T. vaporariorum damaged-plants). Only two compounds, β-caryophyllene and tetradecane, significantly varied because of damage by either herbivore, in line with the overall variation of the HIPV blend. Differences in HIPVs and herbivore preferences may be attributed to the distinct feeding habits of both herbivores, which activate different defensive pathways in plants. The plant's challenge in simultaneously activating both defensive pathways may explain the preference for heterospecific damaged plants found in this study, which are also in line with our own observations in greenhouses.

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更好地结合在一起:挥发性介导的公会内部对Tuta absoluta和Trialeurodes vaporarium对番茄植物偏好的影响。
植物与食草动物的相互作用在番茄植物及其最常见的害虫中得到了广泛的研究。番茄植物的化学防御,包括组成型和诱导型,在介导这些相互作用中发挥作用。受损的番茄植物改变了其挥发性特征,影响了食草动物在未受损和受损植物之间的偏好。然而,先前对番茄挥发物和食草动物偏好的研究在挥发物化学本身以及吸引/排斥食草动物的反应方面都产生了相互矛盾的结果。这项研究重新审视了番茄植物与其两种主要食草动物之间的挥发性介导的相互作用:叶潜蝇Tuta absoluta和粉虱Trialeurodes vaporariorum。分析了每种食草动物损伤前后番茄植物的挥发物,并在同种和异源损伤后评估了对未受损和受损植物的产卵偏好(绝对T.absoluta)和沉降偏好(蒸发T.vaporariorum)。我们发现,与未受损的植物相比,这两种昆虫一直更喜欢受损的植物。食草动物诱导的植物挥发物(HIPV)的排放在绝对T.absoluta损伤后增加,但在蒸发T.vaporarium损伤后减少。虽然我们的一些发现与之前的报道一致,但绝对T.absoluta更喜欢在被同种破坏的植物上产卵,这与早期的研究不同。对绝对T.absoluta和蒸发T.vaporarium损伤后释放的HIPV的比较揭示了上调或下调的差异,以及特定化合物的显著变化(绝对T.abstrata为12种,蒸发T.vamorarium损伤植物为26种)。只有两种化合物,β-石竹烯和十四烷,由于两种食草动物的破坏而发生了显著变化,这与HIPV混合物的总体变化一致。HIPV和食草动物偏好的差异可能归因于两种食草动物不同的进食习惯,这激活了植物中不同的防御途径。这种植物在同时激活两种防御途径方面的挑战可能解释了本研究中发现的对异性受损植物的偏好,这也与我们自己在温室中的观察结果一致。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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