Abstract
Vines that coil around plants heavily infested with ambulate polyphagous mites can be heavily damaged by the mites. To explore whether vines avoid mite-infested plants, we observed the coiling responses of morning glory (Ipomoea nil var. Heavenly Blue) vines and bush killer (Cayratia japonica (Thunb) Gagnep) tendrils around nearby kidney bean (Phaseolus vulgaris L.) plants that were either uninfested or heavily infested with the two-spotted spider mite (Tetranychus urticae Koch). The proportions of I. nil vines that coiled around spider mite-infested and uninfested bean plants did not differ significantly; however, no C. japonica tendril coiled around spider mite-infested plants. The proportion of such tendrils was thus significantly lower than that around uninfested plants. The ability of C. japonica tendrils to avoid spider mite-infested plants would prevent serious “contact infections” by mites. We further found that tendril avoidance seemed to be attributable to the mite webs that covered infested plants; neither spider mite-induced bean volatiles nor spider mite intrusion onto tendrils seemed to explain the avoidance.
Highlights
Vines coil around neighbouring plants, seeking support[1]
Coiling responses of I. nil and C. japonica to bean plants infested with spider mites
The proportion of C. japonica tendrils that coiled around spider mite-infested plants was significantly lower than the proportion that coiled around uninfested plants (P = 0.029, Fisher’s exact test, Fig. 2b), suggesting that C. japonica tendrils avoided mite-infested plants
Summary
Vines coil around neighbouring plants, seeking support[1]. The avoidance behaviour of C. japonica tendrils is thought to feature the chemoreceptive detection of chemical cues[7] Given such sophistication, we hypothesised that C. japonica tendrils, and those of other vines, might not coil around plants infested by spider mites. The infected plants produce mite-specific volatile compounds[9]. Both changes are reliable indicators of a mite infection and are used by predators to detect the mites[10,11,12]. The effects of mite webs and mite-induced plant volatiles (hereinafter, SMIPVs) on the avoidance responses of vines adjacent to mite-infested plants were examined
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