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晚期帝王蝶幼虫破坏马利筋以获取毒素,而不是削弱植物防御。

Late-instar monarch caterpillars sabotage milkweed to acquire toxins, not to disarm plant defence.

机构信息

Department of Applied Entomology, University of Hohenheim, 70599 Stuttgart, Germany.

KomBioTa-Center for Biodiversity and Integrative Taxonomy, University of Hohenheim and State Museum of Natural History, 70599 Stuttgart, Germany.

出版信息

Proc Biol Sci. 2024 Feb 28;291(2017):20232721. doi: 10.1098/rspb.2023.2721. Epub 2024 Feb 21.

DOI:10.1098/rspb.2023.2721
PMID:38378155
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10878802/
Abstract

Sabotaging milkweed by monarch caterpillars () is a famous textbook example of disarming plant defence. By severing leaf veins, monarchs are thought to prevent the flow of toxic latex to their feeding site. Here, we show that sabotaging by monarch caterpillars is not only an avoidance strategy. While young caterpillars appear to avoid latex, late-instar caterpillars actively ingest exuding latex, presumably to increase sequestration of cardenolides used for defence against predators. Comparisons with caterpillars of the related but non-sequestering common crow butterfly () revealed three lines of evidence supporting our hypothesis. First, monarch caterpillars sabotage inconsistently and therefore the behaviour is not obligatory to feed on milkweed, whereas sabotaging precedes each feeding event in caterpillars. Second, monarch caterpillars shift their behaviour from latex avoidance in younger to eager drinking in later stages, whereas caterpillars consistently avoid latex and spit it out during sabotaging. Third, monarchs reared on detached leaves without latex sequestered more cardenolides when caterpillars imbibed latex offered with a pipette. Thus, we conclude that monarch caterpillars have transformed the ancestral 'sabotage to avoid' strategy into a 'sabotage to consume' strategy, implying a novel behavioural adaptation to increase sequestration of cardenolides for defence.

摘要

被帝王蝶幼虫()破坏的马利筋是一个著名的教科书案例,说明了植物防御机制被削弱的现象。通过切断叶脉,帝王蝶幼虫被认为可以阻止有毒乳胶流向它们的取食部位。在这里,我们表明,帝王蝶幼虫的破坏行为不仅是一种回避策略。虽然年幼的幼虫似乎避免接触乳胶,但晚期幼虫会主动摄取渗出的乳胶,大概是为了增加用于防御捕食者的强心甾类的隔离。与相关但不隔离的普通乌鸦蝴蝶()的幼虫进行比较,有三条证据支持我们的假设。首先,帝王蝶幼虫的破坏行为不一致,因此这种行为不是取食马利筋的强制性行为,而在 幼虫中,破坏行为先于每一次取食事件。其次,帝王蝶幼虫的行为从幼年时的乳胶回避转变为后期的渴望饮用,而 幼虫则始终回避乳胶并在破坏时吐出乳胶。第三,在用移液器提供乳胶时,在没有乳胶隔离的分离叶片上饲养的帝王蝶幼虫在摄取乳胶时会隔离更多的强心甾类。因此,我们得出结论,帝王蝶幼虫已经将祖先的“破坏以避免”策略转化为“破坏以消耗”策略,这意味着一种新的行为适应策略,以增加强心甾类的隔离以进行防御。

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本文引用的文献

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Mol Ecol Resour. 2023 Aug;23(6):1195-1210. doi: 10.1111/1755-0998.13786. Epub 2023 Mar 31.
2
Cardenolides, toxicity, and the costs of sequestration in the coevolutionary interaction between monarchs and milkweeds.卡德林内酯、毒性和君主蝶与马利筋在共同进化相互作用中的隔离成本。
Proc Natl Acad Sci U S A. 2021 Apr 20;118(16). doi: 10.1073/pnas.2024463118.
3
Toxicity of Milkweed Leaves and Latex: Chromatographic Quantification Versus Biological Activity of Cardenolides in 16 Asclepias Species.
马利筋叶片和乳汁的毒性:16种马利筋属植物中强心甾类化合物的色谱定量分析与生物活性
J Chem Ecol. 2019 Jan;45(1):50-60. doi: 10.1007/s10886-018-1040-3. Epub 2018 Dec 7.
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Oecologia. 1997 Oct;112(3):362-369. doi: 10.1007/s004420050321.
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Milkweed butterfly resistance to plant toxins is linked to sequestration, not coping with a toxic diet.马利筋蝴蝶对植物毒素的抗性与毒素隔离有关,而非应对有毒饮食。
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