Herbicide Stress Inducesbeetle Oviposition on Red Maples.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-10-01 Epub Date: 2024-08-26 DOI:10.1007/s10886-024-01539-1
Cindy Perkovich, Anthony L Witcher, Jason B Oliver, Karla M Addesso
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引用次数: 0

Abstract

Flatheaded borers (FHB; Chrysobothris spp.), are woodboring-beetles that lay their eggs in the bark and cambium of deciduous trees in North America. Females often target stressed host-plants for oviposition. The reason why is unknown; however, stressed plants often suffer various induced phytochemical changes that may enhance larval infestation success depending on the stressor such as induced upregulation of defenses, reallocation of nutrients, and changes to volatile organic compound (VOC) emissions. To understand attraction of FHB to specific stress-induced changes, we analyzed phytochemical changes associated with stress treatments and attractiveness maple trees to FHB. Trees were stressed by: (1) chemical stress (pelargonic acid herbicide), (2) physical stress (physically removing leaves), and (3) physical stress (removing portions of bark near the root crown). After reflush of defoliated trees, bark tissues where FHB larvae feed were analyzed for nutritional changes (carbon and nitrogen), anti-nutritive changes (polyphenols and tannins) and emissions of foliar VOCs. At the end of the growing season, trees were assessed for FHB larval presence and oviposition attempts. There were more larvae and oviposition attempts on trees stressed by herbicide application. Compared to other treatments, herbicide-stressed trees had greater nitrogen and total polyphenol concentrations. Greater nitrogen may play a role in the fitness of feeding larvae, and the greater polyphenol concentration may stimulate female oviposition in the herbicide stressed trees. Females may be able to locate the herbicide-stressed trees by using volatile cues such as increases in limonene, α-farnesene, (E)-4,8-dimethyl-1,3,7-nonatriene (DMNT) and hexenyl acetate.

Abstract Image

除草剂压力诱导红枫上的甲虫产卵。
扁头蛀虫(FHB;Chrysobothris spp.)是一种木蠹蛾,产卵于北美落叶乔木的树皮和骨架中。雌虫通常以受压寄主植物为产卵目标。其原因尚不清楚;不过,受压植物通常会发生各种诱导性植物化学变化,这些变化可能会提高幼虫侵染的成功率,具体取决于受压植物,如诱导性防御上调、养分重新分配以及挥发性有机化合物(VOC)排放的变化。为了了解 FHB 对特定胁迫诱导变化的吸引力,我们分析了与胁迫处理和枫树对 FHB 的吸引力相关的植物化学变化。树木受到的胁迫包括(1) 化学胁迫(壬酸除草剂);(2) 物理胁迫(物理摘叶);(3) 物理胁迫(去除根冠附近的部分树皮)。在重新刷洗落叶树木后,对 FHB 幼虫取食的树皮组织进行营养变化(碳和氮)、抗营养变化(多酚和单宁酸)和叶面挥发性有机化合物排放分析。在生长季节结束时,对树木的 FHB 幼虫存在情况和产卵尝试进行评估。施用除草剂后,受压树木上的幼虫和产卵尝试更多。与其他处理相比,受除草剂胁迫的树木具有更高的氮浓度和总多酚浓度。更高的氮浓度可能对幼虫的取食能力有影响,而更高的多酚浓度可能会刺激雌虫在受除草剂胁迫的树木中产卵。雌虫可能会利用挥发性线索(如柠檬烯、α-法呢烯、(E)-4,8-二甲基-1,3,7-壬三烯(DMNT)和乙酸己烯酯含量的增加)找到受除草剂胁迫的树木。
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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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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