Composition of fatty acids in hemp leaves (Cannabis sativa L.) under the impact of aphids and a herbicide

Composition of fatty acids in hemp leaves (Cannabis sativa L.) under the impact of aphids and a herbicide

Cannabis aphid Phorodon (Diphorodon) cannabis Passerini 1860 is an economically impor­tant pest of oil hemp (Cannabis sativa L.) and is controlled by insecticides. Oil hemp crops are treated with herbicides, which are non-target pesticides for aphids but may also affect aphid populations. Such ecolo...

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Bibliographic Details
Main Authors: Roma Durak, Beata Borowiak-Sobkowiak, Ewa Szpyrka, Tomasz Durak, Beata Ciak, Małgorzata Jedryczka
Format: Article
Language:English
Published: Polish Academy of Sciences 2025-07-01
Series:Journal of Plant Protection Research
Subjects:
atr-ftir spectroscopy
cannabis aphid
fatty acids
jasmonate pathway
nontarget pesticide
oil hemp
Online Access:https://journals.pan.pl/Content/135773/PDF/241%E2%80%93254_OA_JPPR_65_1_1968_Durak_2024.pdf
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Summary:Cannabis aphid Phorodon (Diphorodon) cannabis Passerini 1860 is an economically impor­tant pest of oil hemp (Cannabis sativa L.) and is controlled by insecticides. Oil hemp crops are treated with herbicides, which are non-target pesticides for aphids but may also affect aphid populations. Such ecological implications of plant protection products are rarely in­vestigated. The aim of the present research was to better understand plant ‒ aphid ‒ her­bicide interactions, specifically, changes of fatty acids (FAs) in leaves, caused by cannabis aphids and a common herbicide used in hemp fields. Of 21 FAs detected in hemp leaves, aphid feeding significantly increased the amounts of myristic and oleic acids and decreased the content of α-linolenic acid. This effect was found when aphids fed on hemp plants and especially when plants were treated with an herbicide containing quizalofop-P-tefuryl. This compound on its own did not affect the FA composi­tion. In spite of the extremely high increase of myristic acid (7- to 9-fold, depending on the experiment variant), which could cause the repellent effect in hemp plants, the decreased amount of α-linolenic acid, the precursor of jasmonic acid may have helped aphids to ma­nipulate the jasmonate signaling pathway involved in plant defense to herbivory enabling their continued feeding on hemp. This study revealed the importance of FAs in plant de­fense as well as the side effects of non-target plant protection products. Future pest man­agement should take into account the complex interactions between crop plants, their pests and non-target effects of chemicals used in real field situations.
ISSN:1427-4345
1899-007X

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