Factors involved in host recognition by the egg parasitoid Anaphes iole Girault (Hymenoptera: My- maridae) have been investigated in the laboratory toward Lygus hesperus Knight (Heteroptera: Miridae). The female parasitoid readily recognized all the host eggs when they were embedded by L. hesperus in an artificial substrate, as well as the eggs that were artificially reembedded at a normal depth, i.e., with only the egg cap protruding above the substrate. How- ever, the percentage of acceptance decreased and the examination time before acceptance increased if the eggs were deeply embedded or more exposed. Com- pletely exposed eggs, with no substrate wounds in- volved, were accepted in half of the cases after a long examination, suggesting that although plant wound is not necessary for recognition, it affects the parasi- toid’s host selection behavior. In fact, even artificial wounds not containing eggs or host-derived chemicals were sometimes probed. Almost all eggs soaked with different solvents were also accepted, but when ap- plied to a smooth glass surface, chemicals extracted from the eggs elicited intense examination. Neverthe- less, when solvent extracts were applied to glass cylin- ders, simulating host eggs, acceptance did not increase compared to untreated glass cylinders. It is suggested that both the host-derived chemical cues and the exudates from the substrate are involved in A. iole host recognition behavior together with physical factors, although a contemporary combination of all these factors is not indispensable for host acceptance.

Physical and chemical factors involved in host recognition behavior of Anaphes iole Girault, an egg parasitoid of Lygus hesperus Knight (Hymenoptera: Mymaridae; Heteroptera: Miridae)

CONTI, Eric;
1996

Abstract

Factors involved in host recognition by the egg parasitoid Anaphes iole Girault (Hymenoptera: My- maridae) have been investigated in the laboratory toward Lygus hesperus Knight (Heteroptera: Miridae). The female parasitoid readily recognized all the host eggs when they were embedded by L. hesperus in an artificial substrate, as well as the eggs that were artificially reembedded at a normal depth, i.e., with only the egg cap protruding above the substrate. How- ever, the percentage of acceptance decreased and the examination time before acceptance increased if the eggs were deeply embedded or more exposed. Com- pletely exposed eggs, with no substrate wounds in- volved, were accepted in half of the cases after a long examination, suggesting that although plant wound is not necessary for recognition, it affects the parasi- toid’s host selection behavior. In fact, even artificial wounds not containing eggs or host-derived chemicals were sometimes probed. Almost all eggs soaked with different solvents were also accepted, but when ap- plied to a smooth glass surface, chemicals extracted from the eggs elicited intense examination. Neverthe- less, when solvent extracts were applied to glass cylin- ders, simulating host eggs, acceptance did not increase compared to untreated glass cylinders. It is suggested that both the host-derived chemical cues and the exudates from the substrate are involved in A. iole host recognition behavior together with physical factors, although a contemporary combination of all these factors is not indispensable for host acceptance.
1996
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11391/120639
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