Hierarchical structure in kairomone preference of the predatory mite Amblyseius potentillae: dietary component indispensable for diapause induction affects prey location behaviour

Abstract

ABSTRACT.

• 1The phytoseiid predator Amblyseius potentillae (Garman) responded to volatile kairomones emitted from leaves infested by the two-spotted spider mite (Tetranychus urticae Koch), the apple rust mite (Aculus schlechtendali (Nalepa)) or the thrips Frankliniella pallida (Uzel), only when the predators had been reared on a carotenoid-free diet. In contrast A.potentillae responded to the European red spider mite (Panonychus ulmi (Koch)) both when the predators had been reared on a carotenoid-containing and a carotenoid-free diet.
• 2Carotenoid-deficient predators did not respond to odour emitted from a host plant that was infested by larvae of the fruit-tree leaf roller (Adoxophyes orana (F.v.R)), a carotenoid-containing phytophage, that cannot be preyed upon by A.potentillae.
• 3Carotenoids are indispensable for diapause induction in A.potentillae. Hence, carotenoid-deficient predators can increase their fitness by feeding from a carotenoid source. This may explain the response of carotenoid-deficient predators to the kairomones of the two-spotted spider mite, F.pallida and the apple rust mite (all containing ingestible carotenoids). As the fruit-tree leaf roller cannot serve as prey and thus as a carotenoid source, it makes sense that the predators lacking carotenoids do not respond to the kairomone of this phytophagous insect.
• 4Two-choice experiments in a Y-tube olfactometer showed that the kairomone preference of A.potentillae has a hierarchical structure: the kairomone of the European red spider mite is the most preferred one, followed by that of apple rust mite, whereas the kairomone of the two-spotted spider mite is the least preferred of these three.