Volatile Terpene Profiles of Needle and Phloem Tissues of Healthy and Tomicus destruens-Infested Pinus brutia Trees.

IF 2.2 3区环境科学与生态学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Chemical Ecology Pub Date : 2024-10-01 Epub Date: 2024-08-23 DOI:10.1007/s10886-024-01541-7

Kübra Kocabıyık, Nadir Erbilgin, Gürkan Semiz

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Abstract

Coniferous trees produce secondary or defense chemicals, such as terpenes, against pest insects. Terpenes could serve as constitutive or induced defensive mechanisms, defending the tree from invasive herbivores. The Mediterranean pine shoot beetle Tomicus destruens colonizes stems and branches of Pinus brutia trees and even can kill mature trees during periodic outbreaks. We investigated whether terpene profiles of needle and stem of P. brutia trees differ between health and those infested by T. destruens. We selected 20 healthy and T. destruens-infested trees and analyzed the monoterpenes and sesquiterpenes of their needles and phloem. We found higher concentrations of tricyclene, camphene and p-cymene in the phloem of infested trees. Similarly, the needles of infested trees had higher concentrations of α-pinene, β-pinene, myrcene, limonene, trans-β-caryophyllene and α-humulene than healthy trees. These results show that the monoterpene and sesquiterpene profiles of P. brutia trees differed between healthy and infested trees, suggesting that volatile terpenes may be an important part of plant-induced responses against T. destruens.

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健康松树和受腐烂松树侵染的松针和叶肉组织的挥发性萜烯谱。

针叶树会产生次生或防御化学物质（如萜烯）来对付害虫。萜烯可作为构成性或诱导性防御机制，抵御入侵的食草动物。地中海松树嫩枝甲虫（Tomicus destruens）会在欧洲赤松（Pinus brutia）的茎和枝上定殖，甚至会在周期性爆发时杀死成熟的树木。我们研究了健康松树和受毁坏松甲虫侵扰的松树的针叶和茎干的萜烯特征是否存在差异。我们选取了 20 棵健康和受 T. destruens 侵染的树木，分析了其针叶和韧皮部的单萜和倍半萜。我们发现，受侵染树木的韧皮部含有更高浓度的三环烯、莰烯和对伞花烯。同样，受侵染树木针叶中的α-蒎烯、β-蒎烯、月桂烯、柠檬烯、反式-β-石竹烯和α-胡麻烯含量也高于健康树木。这些结果表明，健康树木与受侵染树木的单萜烯和倍半萜烯含量存在差异，这表明挥发性萜烯可能是植物诱导的抗倒伏反应的重要组成部分。

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来源期刊

Journal of Chemical Ecology 环境科学-生化与分子生物学

CiteScore

5.10

自引率

4.30%

发文量

审稿时长

4 months

期刊介绍： Journal of Chemical Ecology is devoted to promoting an ecological understanding of the origin, function, and significance of natural chemicals that mediate interactions within and between organisms. Such relationships, often adaptively important, comprise the oldest of communication systems in terrestrial and aquatic environments. With recent advances in methodology for elucidating structures of the chemical compounds involved, a strong interdisciplinary association has developed between chemists and biologists which should accelerate understanding of these interactions in nature. Scientific contributions, including review articles, are welcome from either members or nonmembers of the International Society of Chemical Ecology. Manuscripts must be in English and may include original research in biological and/or chemical aspects of chemical ecology. They may include substantive observations of interactions in nature, the elucidation of the chemical compounds involved, the mechanisms of their production and reception, and the translation of such basic information into survey and control protocols. Sufficient biological and chemical detail should be given to substantiate conclusions and to permit results to be evaluated and reproduced.