The large cabbage moth, Crocidolomia pavonana (F.) (Lepidoptera: Crambidae), is one of the most significant pests of Brassica crops and has re-emerged as a serious pest of crucifer crops in tropical and sub-tropical Asia because of the control used against the diamondback moth, Plutella xylostella (L.) (Lepidoptera: Plutellidae). The damage caused by this pest can be significant because larvae devour young tissues of the plant at different stages and bore into the centre of the cabbage head at maturity and can damage the whole cabbage plant. Despite its economic importance the interaction of this pest with its host plant is not well understood.The current study showed that larval feeding by C. pavonana was influenced by the presence of cabbage in artificial diet, in laboratory bioassays. Of the four diets developed and tested, neonates survived and completed developmental stages (81%) on diet containing cabbage (Brassica oleracea cv sugarloaf) more so than on base diet (diet without cabbage), diet containing wheat grass or spinach powder. Neonates were able to locate diet with cabbage powder but not when cabbage was absent (i.e. base diet).Similarly, in an olfactometer test, neonates were strongly attracted to the odour of diet with cabbage compared with diet without cabbage. More than twice the number of feeding events was observed on filter paper disks impregnated with diet containing cabbage powder than on paper disks with base diet. The behavioural responses of neonates to diet with cabbage are linked to the glucosinolates present on cabbage plants. Sinigrin elicited feeding when added to diet without cabbage and also when applied to a non-host plant, Gossypium hirsutum (Sicot 71RRF). Neonates' response to allyl isothiocyanate in a twoarm olfactometer was stronger than to sinigrin, which would explain larval attraction to damaged cabbage plants. These results indicate that sinigrin and allyl isothiocyanate provide important feeding and olfactory cues for C. pavonana larvae.Larval feeding and moth oviposition behaviour of C. pavonana was further studied using whole cabbage plants of two different ages (6 and 8-leaf stage) and this was compared to the response of a well-studied crucifer specialist, P. xylostella. Plant age did not significantly affect oviposition and feeding preference by C. pavonana whereas P. xylostella preferred younger plants for oviposition and larval feeding. The intra-plant distribution of eggs and feeding sites was similar for both species, but egg distribution showed a pattern different from feeding sites. Neonates that hatched from eggs deposited ii on lower leaves moved towards the apical portion of the plant and established a majority of feeding sites on younger leaves. Preference for younger leaves was also observed on excised leaves, indicating architectural position was not the factor driving choice. Younger leaves are known to have a higher concentration of nitrogen content and proteins suitable for larval development, whereas lower leaves are considered not palatable b...
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