BACKGROUND: The banana moth, Opogona sacchari Bojer, is a polyphagous agricultural pest in many tropical areas of the world. The identification of an attractant for male O. sacchari could offer new methods for detection, study and control.
RESULTS: A compound extracted from female O. sacchari elicited responses from antennae of male moths. This compound was identified as a 2/3,(Z)13‐octadecadienal by gas chromatography‐mass spectrometry. An analog, 2/3,(Z)13‐octadecadienol, was also detected in some extracts at roughly a 1:20 ratio (alcohol:aldehyde) but did not elicit responses from antennae of male moths. Electroantennograms of synthetic candidate dienals found the strongest responses from (Z, Z)‐2,13‐octadecadienal and (E, Z)‐2,13‐octadecadienal. In field trials, (E, Z)‐2,13‐octadecadienal attracted more male O. sacchari than (Z, Z)‐2,13‐octadecadienal. Attraction was not improved for either of these compounds when the corresponding stereoisomeric alcohol was added at ratios of 1:1, 1:10 or 1:100 (alcohol:aldehyde). Jackson sticky traps containing 250 µg lures of (E, Z)‐2,13‐octadecadienal caught as many males as did traps holding virgin females.
CONCLUSION: (E, Z)‐2,13‐octadecadienal has been identified as an attractant for O. sacchari males and can be used as a monitoring lure of populations of this moth. Copyright © 2010 Society of Chemical Industry