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Oviposition preference but not adult feeding preference matches with offspring performance in the bronze bug T haumastocoris peregrinus
Author(s) -
Martínez Gonzalo,
Finozzi María Victoria,
Cantero Gissel,
Soler Roxina,
Dicke Marcel,
González Andrés
Publication year - 2017
Publication title -
entomologia experimentalis et applicata
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.765
H-Index - 83
eISSN - 1570-7458
pISSN - 0013-8703
DOI - 10.1111/eea.12554
Subject(s) - biology , pest analysis , botany , offspring , host (biology) , nymph , zoology , foraging , horticulture , ecology , pregnancy , genetics
Abstract Optimal foraging and optimal oviposition are two major forces leading to plant selection by insect females, but the contribution of these forces to the host‐selection process has been little studied for sucking herbivores. We studied feeding and oviposition behavior of a global pest, the bronze bug, T haumastocoris peregrinus C arpintero & D ellapé ( H eteroptera: T haumastocoridae), using dual‐choice bioassays to evaluate the preference of females between host species, developmental leaf stage, or prior plant exposure to conspecifics. We assessed the link between these preferences and the performance of the offspring, by comparing survival and developmental time of nymphs reared on the various treatments. Finally, we compared the composition of the leaf wax of healthy and damaged leaves, and tested the effects of leaf wax on female preference behavior. Using healthy adult leaves of E ucalyptus tereticornis Sm. ( M yrtaceae) as a reference, we found that females prefer to feed on E ucalyptus grandis W. Hill ex Maiden and E . tereticornis adult leaves that had been previously damaged by female conspecifics, whereas they reject juvenile leaves of E . tereticornis as food. Females also prefer to oviposit on leaves previously damaged by conspecifics but they rejected E . grandis as oviposition substrate. Nymphal performance varied among leaf treatments, suggesting a correlation with oviposition preference (but not feeding preference). Epicuticular wax extracts from damaged leaves contained higher concentrations of long‐chain, saturated linear alkanes, aldehydes, and alcohols than extracts from undamaged leaves. However, a choice assay failed to demonstrate an oviposition preference based on leaf surface wax chemistry. We discuss these findings in the context of the preference‐performance relationship.