Advancing tomato crop protection: Green leaf volatile-mediated defense mechanisms against Nesidiocoris tenuis plant damage

IF 3.7 2区 农林科学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Biological Control Pub Date : 2024-04-23 DOI:10.1016/j.biocontrol.2024.105517
Laura Depalo , Carolina Gallego , Raúl Ortells-Fabra , Carlos Salas , Rafael Montalt , Alberto Urbaneja , Meritxell Pérez-Hedo
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Abstract

Although Nesidiocoris tenuis is highly effective as a biological control agent, it can also damage tomato plants due to its zoophytophagous behavior. When N. tenuis pierces the stems and petioles of tomato plants with its stylets, it triggers callose deposition and subsequent cell death, resulting in blocked nutrient transport, floral abortions, or wilting of tender shoots. Recently, it has been shown that exposure of tomato plants to the green leaf volatile (Z)-3-hexenyl propanoate [(Z)-3-HP] activates defensive mechanisms, including the regulation of genes involved in the synthesis and degradation of callose. In this study, conducted under greenhouse conditions, we tested the hypothesis that damage caused by N. tenuis could be reduced by exposing tomato plants to (Z)-3-HP through polymeric dispensers. Tomato plants exposed to (Z)-3-HP and non-exposed control plants were inoculated with N. tenuis. Nesidiocoris tenuis established in both groups with no significant differences between the two treatments. However, as hypothesized, the damage caused by N. tenuis was significantly lower in the plants exposed to (Z)-3-HP. Gene expression analysis of salicylic, jasmonic, and abscisic acids, along with histochemical staining methods, was used to compare the defensive responses of tomato plants infested solely with N. tenuis versus those infested with N. tenuis and exposed to (Z)-3-HP. Our findings confirm the influence of (Z)-3-HP exposure on differential defensive activation between treatments and reduced callose deposition in (Z)-3-HP-exposed plants. These results pave the way for improved management of N. tenuis by enhancing the plant's defenses based on inter-plant communication.

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推进番茄作物保护:绿叶挥发性物质介导的抵御天牛科植物危害的防御机制
尽管天牛(Nesidiocoris tenuis)作为生物控制剂非常有效,但由于它的食性,它也会损害番茄植株。当 Nesidiocoris tenuis 用其花柱刺入番茄植株的茎和叶柄时,会引发胼胝质沉积和随后的细胞死亡,导致养分运输受阻、花朵凋谢或嫩芽枯萎。最近的研究表明,番茄植株接触绿叶挥发性物质 (Z)-3- 己烯基丙酸酯[(Z)-3-HP]会激活防御机制,包括调节参与胼胝质合成和降解的基因。本研究是在温室条件下进行的,我们测试了通过聚合分配器让番茄植株接触 (Z)-3-HP 可以减少 N. tenuis 造成的损害的假设。番茄植株暴露于 (Z)-3-HP 和未暴露的对照植株都接种了天牛。Nesidiocoris tenuis 在两组中均有生长,两种处理之间无显著差异。然而,正如假设的那样,接触 (Z)-3-HP 的植株受到的 N. tenuis 危害明显较低。利用水杨酸、茉莉酸和脱落酸的基因表达分析以及组织化学染色方法,比较了仅受天牛侵染的番茄植株与受天牛侵染并接触 (Z)-3-HP 的植株的防御反应。我们的研究结果证实了 (Z)-3-HP 暴露对不同处理间防御激活的影响,以及 (Z)-3-HP 暴露植物中胼胝质沉积的减少。这些结果为在植物间交流的基础上增强植物的防御能力,从而改善对 N. tenuis 的管理铺平了道路。
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来源期刊
Biological Control
Biological Control 生物-昆虫学
CiteScore
7.40
自引率
7.10%
发文量
220
审稿时长
63 days
期刊介绍: Biological control is an environmentally sound and effective means of reducing or mitigating pests and pest effects through the use of natural enemies. The aim of Biological Control is to promote this science and technology through publication of original research articles and reviews of research and theory. The journal devotes a section to reports on biotechnologies dealing with the elucidation and use of genes or gene products for the enhancement of biological control agents. The journal encompasses biological control of viral, microbial, nematode, insect, mite, weed, and vertebrate pests in agriculture, aquatic, forest, natural resource, stored product, and urban environments. Biological control of arthropod pests of human and domestic animals is also included. Ecological, molecular, and biotechnological approaches to the understanding of biological control are welcome.
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