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Volatilome Analysis of Soursop Fruits for the Determination of Kairomone Components That Attract the Annonaceae Fruit Weevil ( Optatus palmaris Pascoe).

J M Pineda-RíosJuan Cibrián-TovarR M López-RomeroLuis Martín Hernández-FuentesLauro Soto-RojasC Llanderal-CázaresP R García-SosaLuis Francisco Salomé-Abarca
Published in: Plants (Basel, Switzerland) (2023)
Soursop possesses the largest fruit size of the Annona genus. However, this species is threatened by the Annonaceae fruit weevil ( Optatus palmaris ), which can cause the destruction of whole soursop fruits. Recently, the potential of semiochemicals for the management of this insect is highlighted, and its aggregation pheromone has been elucidated. This pheromone works well only when mixed with soursop volatiles. Thus, the aim of this research was to determine specific kairomone components to potentiate the aggregation pheromone of this Annonaceae fruit weevil. This task was carried out via volatilome analysis of soursop fruits, which was correlated with the biological activity of the identified volatiles. The GC-MS analysis of aroma collections of mature soursop fruits and flowers, determined using multivariate data analysis, confirmed a volatile differentiation between these organs. The volatile variation between fruits and flowers was reflected in weevils' preference for mature fruits instead of flowers. Moreover, weevils' response to soursop fruits increased with more mature fruits. This was correlated with volatile changes throughout the phenological stages of soursop fruits. The two volatiles most correlated with weevils' attraction were benzothiazole and ( E )- β -caryophyllene. These volatiles only evoked a response when mixed and potentiated the attraction of the aggregation pheromone. Thus, these two volatiles are active kairomone components with the potential for being used in combination with the aggregation pheromone of Annonaceae fruit weevils in field trials.
Keyphrases
  • data analysis
  • gas chromatography mass spectrometry
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  • solid phase extraction
  • aedes aegypti
  • simultaneous determination