Plant Interactions with Multiple Insect Herbivores: From Community to Genes

Stam, Jeltje M.; Kroes, Anneke; Li, Yehua; Gols, Rieta; Loon, Joop J. A. van; Poelman, Erik H.; Dicke, Marcel

doi:10.1146/annurev-arplant-050213-035937

Cited by 376 publications

(505 citation statements)

References 145 publications

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“…Interactions between soil moisture, plants, herbivores and natural enemies are expected to depend on a number of factors, including (a) the range of soil moisture levels (Aslam, Johnson, & Karley, 2013; Mahmoud et al., 2016; Schmitz & Barton, 2014), (b) the timing of changes in soil moisture relative to the development of all three trophic levels (Rosenblatt & Schmitz, 2016; Schmitz & Barton, 2014; Wade, Karley, Johnson, Hartley, & Bell, 2017) (c) the plant genotype (Stam et al., 2014), (d) the severity of herbivore attack (Soler, Bezemer, van der Putten, Vet, & Harvey, 2005) and (e) the abundance and diversity of herbivore natural enemies (Erb & Lu, 2013; Thomson, Macfadyen, & Hoffmann, 2010). Our study was conducted at low soil moisture close to the plant's wilting point, relatively low WCR infestation levels and a relatively short period between the application of EPNs and plant performance measurements.…”

Section: Discussionmentioning

confidence: 99%

Influence of drought on plant performance through changes in belowground tritrophic interactions

Guyer

Hibbard

Holzkämper

et al. 2018

Ecology and Evolution

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Climate change is predicted to increase the risk of drought in many temperate agroecosystems. While the impact of drought on aboveground plant‐herbivore‐natural enemy interactions has been studied, little is known about its effects on belowground tritrophic interactions and root defense chemistry. We investigated the effects of low soil moisture on the interaction between maize, the western corn rootworm (WCR, Diabrotica virgifera), and soil‐borne natural enemies of WCR. In a manipulative field experiment, reduced soil moisture and WCR attack reduced plant performance and increased benzoxazinoid levels. The negative effects of WCR on cob dry weight and silk emergence were strongest at low moisture levels. Inoculation with entomopathogenic nematodes (EPNs, Heterorhabditis bacteriophora) was ineffective in controlling WCR, and the EPNs died rapidly in the warm and dry soil. However, ants of the species Solenopsis molesta invaded the experiment, were more abundant in WCR‐infested pots and predated WCR independently of soil moisture. Ant presence increased root and shoot biomass and was associated with attenuated moisture‐dependent effects of WCR on maize cob weight. Our study suggests that apart from directly reducing plant performance, drought can also increase the negative effects of root herbivores such as WCR. It furthermore identifies S. molesta as a natural enemy of WCR that can protect maize plants from the negative impact of herbivory under drought stress. Robust herbivore natural enemies may play an important role in buffering the impact of climate change on plant‐herbivore interactions.

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Section: Discussionmentioning

confidence: 99%

Influence of drought on plant performance through changes in belowground tritrophic interactions

Guyer

Hibbard

Holzkämper

et al. 2018

Ecology and Evolution

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“…JA positively regulated a series of genes conferring resistance to herbivory insects, whereas ET and SA mainly functioned as negative regulators, which have antagonistic effects on JA-dependent responses (Wu and Baldwin 2009). In addition to JA, ET and SA, other phytohormones such as abscisic acid (ABA), auxin, cytokinin and gibberellins, are also involved in herbivore-induced responses (Gatehouse 2002;Stam et al 2014). In addition to phytohormones, anti-herbivore secondary metabolites such as phenylpropanoids, glucosinolates, alkaloids and phenolics, also had important functions in conferring resistance to herbivores in plants (Wu and Baldwin 2009).…”

Section: Introductionmentioning

confidence: 99%

Comparative analyses of transcriptome and proteome in response to cotton bollworm between a resistant wild soybean and a susceptible soybean cultivar

Wang

Lü

Chen

et al. 2017

Plant Cell Tiss Organ Cult

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and four genes were significantly up-regulated in response to H. armigera in ED059 while down-regulated or not changed in cv. Tianlong 2. GO analyses showed the specifically expressed genes in ED059 were mainly enriched in metabolism-related pathways. The function of one potential resistant gene involved in the phenylpropanoid pathway was confirmed by use of transgenic Arabidopsis. Our study provided useful resources for the soybean improvement, which could contribute to the elucidation of defense mechanisms against chewing insects in plants.Keywords Soybean · Cotton bollworm · Transcriptome · Proteome · Defence Abstract Soybean is an important oil and protein crop in the world. Cotton bollworm (Helicoverpa armigera) is one of primary defoliating insects which seriously damage the soybean production. The wild soybean, ED059, was reported to be highly resistant to H. armigera. However, the molecular mechanism of resistance to H. armigera remains unknown. In this study, we conducted the transcript and protein profilings for ED059 and a susceptible soybean cultivar (cv.) Tianlong 2. In summary, 2213 genes and 116 proteins were specifically expressed in response to H. armigera in ED059, while 2179 genes and 9 proteins were specifically expressed in cv. Tianlong 2. Four hundred Xiaoyi Wang and Jianhua Lu have contributed equally to this work. Electronic supplementary materialThe online version of this article

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“…Multiple herbivores can co-occur on the same plant, and can be separated spatially or temporally, while plant pathogens represent another class of ubiquitous attackers. There has been increasing focus on the effects of multiple stress on the performance and preference of associated insect community members, notably in the Brassicaceae (Stam et al, 2014), yet induced VOC emissions have been extensively studied primarily in response to individual abiotic or biotic stress, with little known of the mechanisms of VOC induction during dual stress. However, as the effects of multiple stress are expressed at the molecular level, it is expected that plant defense responses can be affected at other levels as well, such as induced volatile production, and lead to changes in plant interactions with their community members ).…”

Section: Introductionmentioning

confidence: 99%

“…While the direct effects of multiple attack on herbivore life-history parameters and behavior have been investigated in detail (For reviews see Denno et al, 1995;Kaplan & Denno, 2007;Stam et al, 2014), to date comparatively fewer studies have investigated HIPVs and the ensuing effects on tritrophic interactions in the context of multiple herbivore attack (Shiojiri et al, 2001;Rodriguez-Saona et al, 2003;Zhang et al, 2009;Erb et al, 2010;Hare & Sun, 2011). Insects are not the sole organisms to attack plants; plant pathogens also commonly infect plants, yet little attention has been paid to the effects of plant pathogen infection on tritrophic interactions despite the strong prevalence of pathogens in natural systems, frequently co-occurring with herbivory (Tack & Dicke, 2013).…”

Section: Introductionmentioning

confidence: 99%

“…However, these chemical cues can be exploited by members of a different species, for instance to locate prey (Wyatt, 2003). This makes chemical information an important element in structuring individual behavior and the interactions between community members (Vet, 1996;Stam et al, 2014). Volatile chemicals emitted by plants have a wide range of functions, such as plant-toplant signals, defense chemicals or pollinator attractants (Holopainen, 2004;Peñuelas & Llusià, 2004;Heil & Karban, 2010), and so a volatile blend can have different meanings for different organisms.…”

Section: Introductionmentioning

confidence: 99%

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Plants under dual attack : consequences for plant chemistry and parasitoid behavior

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Plant Interactions with Multiple Insect Herbivores: From Community to Genes

Cited by 376 publications

References 145 publications

Influence of drought on plant performance through changes in belowground tritrophic interactions

Influence of drought on plant performance through changes in belowground tritrophic interactions

Comparative analyses of transcriptome and proteome in response to cotton bollworm between a resistant wild soybean and a susceptible soybean cultivar

Plants under dual attack : consequences for plant chemistry and parasitoid behavior

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