The herbivore‐induced plant volatile tetradecane enhances plant resistance to Holotrichia parallela larvae in maize roots

BACKGROUND Many herbivore‐induced volatiles have been proven to act as signaling compounds to regulate nearby plant defense responses. However, the precise roles of key volatiles produced by maize roots after Holotrichia parallela larva feeding remain largely unknown. RESULTS We investigated changes...

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Published in:Pest management science 2022-02, Vol.78 (2), p.550-560
Main Authors: Pan, Yu, Wang, Zhun, Zhao, Shi‐Wen, Wang, Xiao, Li, Yun‐Shuo, Liu, Jia‐Nan, Wang, Shang, Xi, Jing‐Hui
Format: Article
Language:English
Subjects:
Alkanes
Allelochemicals
Animals
benzoxazinoids
Bioassays
Coleoptera
Corn
Cyclopentanes - pharmacology
defense induction
Defense mechanisms
Exposure
Gene expression
Herbivores
Herbivory
Holotrichia
Holotrichia parallela larvae
jasmone
Jasmonic acid
Larva
Larvae
Larval development
Metabolites
Oxylipins
Pest resistance
Plant hormones
Plant resistance
Plant Roots
Roots
Salicylic acid
Secondary metabolites
Tetradecane
Volatile compounds
Volatiles
Zea mays - genetics
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Summary:BACKGROUND Many herbivore‐induced volatiles have been proven to act as signaling compounds to regulate nearby plant defense responses. However, the precise roles of key volatiles produced by maize roots after Holotrichia parallela larva feeding remain largely unknown. RESULTS We investigated changes in phytohormones and volatiles in maize roots after H. parallela larval infestation. Marked increases in the phytohormone jasmonic acid (JA) and the volatiles jasmone and tetradecane were induced by herbivores, whereas the salicylic acid content decreased. In addition, pre‐exposure to tetradecane markedly increased the levels of the stress hormone JA, its precursors and derivatives, and related gene expression. In addition, pre‐exposure altered the production of defensive benzoxazinoid secondary metabolites, resulting in increased plant resistance to H. parallela larvae. Plants pre‐exposed to jasmone did not differ from control plants. In addition, bioassays showed that H. parallela larval growth was suppressed by feeding maize roots after pre‐exposure to tetradecane. CONCLUSION These results demonstrate that tetradecane may function as a potent defense induction signal that prepares neighboring plants for incoming attacks. © 2021 Society of Chemical Industry. Tetradecane may enhance the defense level in neighboring non‐attacked plants by regulating the jasmonic acid and benzoxazinoid biosynthesis pathways in maize roots. From an ecological point of view, this indicates the possibility of using attacked plant signals, transmitted via rhizosphere connections to the main crop, to increase the defense level.
ISSN:1526-498X
1526-4998
DOI:10.1002/ps.6660