Moctezuma Coral, Hammerbacher Almuth, Heil Martin, Gershenzon Jonathan, Méndez-Alonzo Rodrigo, Oyama Ken
Centro de Investigaciones en Ecosistemas, Universidad Nacional Autónoma de México (UNAM), Antigua Carretera a Pátzcuaro No. 8701 Col. Ex-Hacienda de San José de La Huerta, Morelia, Michoacán, 58190, Mexico,
J Chem Ecol. 2014 May;40(5):458-67. doi: 10.1007/s10886-014-0431-3. Epub 2014 May 9.
The role of plant polyphenols as defenses against insect herbivores is controversial. We combined correlative field studies across three geographic regions (Northern Mexico, Southern Mexico, and Costa Rica) with induction experiments under controlled conditions to search for candidate compounds that might play a defensive role in the foliage of the tropical oak, Quercus oleoides. We quantified leaf damage caused by four herbivore guilds (chewers, skeletonizers, leaf miners, and gall forming insects) and analyzed the content of 18 polyphenols (including hydrolyzable tannins, flavan-3-ols, and flavonol glycosides) in the same set of leaves using high performance liquid chromatography and mass spectrometry. Foliar damage ranged from two to eight percent per region, and nearly 90% of all the damage was caused by chewing herbivores. Damage due to chewing herbivores was positively correlated with acutissimin B, catechin, and catechin dimer, and damage by mining herbivores was positively correlated with mongolinin A. By contrast, gall presence was negatively correlated with vescalagin and acutissimin B. By using redundancy analysis, we searched for the combinations of polyphenols that were associated to natural herbivory: the combination of mongolinin A and acutissimin B had the highest association to herbivory. In a common garden experiment with oak saplings, artificial damage increased the content of acutissimin B, mongolinin A, and vescalagin, whereas the content of catechin decreased. Specific polyphenols, either individually or in combination, rather than total polyphenols, were associated with standing leaf damage in this tropical oak. Future studies aimed at understanding the ecological role of polyphenols can use similar correlative studies to identify candidate compounds that could be used individually and in biologically meaningful combinations in tests with herbivores and pathogens.
植物多酚作为抵御昆虫食草动物的防御作用存在争议。我们将横跨三个地理区域(墨西哥北部、墨西哥南部和哥斯达黎加)的相关实地研究与受控条件下的诱导实验相结合,以寻找可能在热带橡树柳叶栎叶片中发挥防御作用的候选化合物。我们量化了四个食草动物类群(咀嚼者、食叶肉者、潜叶虫和造瘿昆虫)造成的叶片损伤,并使用高效液相色谱和质谱分析了同一组叶片中18种多酚(包括水解单宁、黄烷 - 3 - 醇和黄酮醇苷)的含量。每个区域的叶片损伤率在2%至8%之间,几乎所有损伤的90%是由咀嚼式食草动物造成的。咀嚼式食草动物造成的损伤与刺槐素B、儿茶素和儿茶素二聚体呈正相关,潜叶式食草动物造成的损伤与蒙古鞣花素A呈正相关。相比之下,瘿的存在与 vescalagin 和刺槐素B呈负相关。通过冗余分析,我们寻找了与自然食草作用相关的多酚组合:蒙古鞣花素A和刺槐素B的组合与食草作用的关联度最高。在一项针对橡树幼苗的共同花园实验中,人工损伤增加了刺槐素B、蒙古鞣花素A和 vescalagin 的含量,而儿茶素的含量则下降。在这种热带橡树中,特定的多酚,无论是单独还是组合,而不是总多酚,与现存叶片损伤有关。未来旨在了解多酚生态作用的研究可以使用类似的相关研究来识别候选化合物,这些化合物可以单独使用,并以具有生物学意义的组合用于与食草动物和病原体的测试中。
