2019
DOI: 10.1080/15592324.2019.1665454
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Eavesdropping on gall–plant interactions: the importance of the signaling function of induced volatiles

Abstract: The galling insect manipulates the host plant tissue to its own benefit, building the gall structure where it spends during most of its life cycle. These specialist herbivore insects can induce and manipulate plant structure and metabolism throughout gall development and may affect plant volatile emission. Consequently, volatile emission from altered metabolism contribute to eavesdropping cueing. Eavesdropping can be part of adaptive strategies used by evolution for both galling insects and the entire-associat… Show more

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Cited by 9 publications
(6 citation statements)
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“…The greater diameter and mass per dry boll in plants infested with boll weevils indicate changes in these structures resulting from infestation, as observed with other herbivorous arthropods (Barônio & Oliveira, 2019;de Lillo et al, 2018;Giron et al, 2016).…”
Section: Diameter and Length Of Dry Bollsmentioning
confidence: 82%
See 1 more Smart Citation
“…The greater diameter and mass per dry boll in plants infested with boll weevils indicate changes in these structures resulting from infestation, as observed with other herbivorous arthropods (Barônio & Oliveira, 2019;de Lillo et al, 2018;Giron et al, 2016).…”
Section: Diameter and Length Of Dry Bollsmentioning
confidence: 82%
“…Herbivorous arthropods can induce their host to form structures, such as galls and erinoses, which they use for protection and feeding, increasing their survival (Barônio & Oliveira, 2019; de Lillo et al., 2018; Eitle et al., 2019). Such structures may increase the development and survival of eriophyid mites and other galling arthropods (de Lillo et al., 2018; Giron et al., 2016; Ronquist et al., 2015) and reduce the impact action of natural enemies (Barônio & Oliveira, 2019; Borges, 2018; Giron et al., 2016).…”
Section: Introductionmentioning
confidence: 99%
“…Gall signalling (colouration, shape, and scent) may be part of their defensive arsenal. Insects can manipulate the chemical production and accumulation of defensive substances in the galls (Martinson et al, 2022;Davidovich-Rikanati, 2022), alter volatile emission from the galls to reduce the level of parasitism or deter enemies (Tooker et al, 2008;Rostás et al, 2013;Barônio and Oliveira, 2019), and manipulate gall phenotypes including pigmentation (Korgaonkar et al, 2021; see also Maderspacher, 2021). Considering the selective evolutionary forces on the gall systems, and having the ecological, behavioural, biochemical and molecular tools available, the adaptive significance (or not) of gall signalling could be readily addressed, and many new and exiting discoveries are expected.…”
Section: Discussionmentioning
confidence: 99%
“…A more diverse plant community surrounding the host plant can lead to background complexity that masks the specific host volatiles the insects use in host localisation (Barbosa et al, 2009). Although the use of plant volatiles as cues to predict galling insect distribution is still unknown (Barônio & Oliveira, 2019), these volatile cues are mainly used when the insects are close enough to the resource (as in our study area), where the airflow causes little dilution (Finch, 1980). Since volatile preferences are highly site-adapted, and differ among insects (Doddala et al, 2016), shifts in species composition may confound the galling insect orientation when searching for a host.…”
Section: Bottom-up Effects On Gall Abundancementioning
confidence: 99%