Costs and benefits of priming for defense in
            <i>Arabidopsis</i>

Hulten, Marieke van; Pelser, Maaike; Loon, L.C. van; Pieterse, Corné M. J.; Ton, Jurriaan

doi:10.1073/pnas.0510213103

Cited by 739 publications

(640 citation statements)

References 40 publications

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“…This is not illogical, because activation of inducible defenses involves major costs that affect plant growth and reproduction [57], and this is inconsistent with the beneficial nature of these plant-microbe interactions. Through the study of the costs and benefits of priming in Arabidopsis, it was recently shown that the fitness costs of priming are lower than those of constitutively activated defenses, such as those expressed in the constitutive SAR-expressing mutant cpr1 [58 ]. Intriguingly, the fitness benefits of priming outweighed its costs under pathogen pressure, which suggests that priming functions as an ecological adaptation of the plant to respond faster to its hostile environment.…”

Section: Resultsmentioning

confidence: 99%

Plant immune responses triggered by beneficial microbes

Wees

Ent

Pieterse

2008

Current Opinion in Plant Biology

760

511

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This article appeared in a journal published by Elsevier. The attached copy is furnished to the author for internal non-commercial research and education use, including for instruction at the authors institution and sharing with colleagues.Other uses, including reproduction and distribution, or selling or licensing copies, or posting to personal, institutional or third party websites are prohibited. In most cases authors

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Section: Resultsmentioning

confidence: 99%

Plant immune responses triggered by beneficial microbes

Wees

Ent

Pieterse

2008

Current Opinion in Plant Biology

760

511

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“…A recent field study confirmed that SAR increases the fitness of plants exposed to pathogens, which translates into enhanced crop yield [52]. However, unlike the fitness cost of constitutive resistance that associated with inducible resistance generally appears to outweigh the cost of pathogen infection, although this might depend on additional environmental factors [53,54 ]. In the era of metabolomics, large-scale surveys might reveal additional candidate compounds involved in SAR induction (e.g.…”

Section: Signal Perception and Amplificationmentioning

confidence: 99%

Systemic acquired resistance: the elusive signal(s)

Vlot¹,

Klessig²,

Park³

2008

Current Opinion in Plant Biology

280

184

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“…Priming for defence against pathogens has been shown to involve considerably fewer costs than the induction of direct defence, and the benefits derived from this priming outweigh the costs under conditions of disease pressure [12]. The phenomenon of volatile-induced priming against insects also fits in this ecological context of costs and benefits.…”

Section: The Role Of Hipvs In Indirect Plant Defencesmentioning

confidence: 99%

“…In addition, we address the recent studies that point to a priming effect in plants that are exposed to certain HIPVs, conferring an enhanced defensive capacity against future insect attack [6 ,7-11]. We conclude, with some reservations, that there is not only reason for optimism that manipulation of HIPVs emissions can indeed lead to enhanced repulsion of pests and attraction of their natural enemies but, moreover, that enhanced volatile information transfer between plants might, if exploited appropriately, improve the efficiency of the plant's direct and indirect defence strategies through priming [4,12]. Figures 1 and 2 summarize the various interactions in which HIPVs are implicated as we have studied them for maize plants.…”

Section: Introductionmentioning

confidence: 99%

“…This so-called priming for defence has proven to be an important mechanism behind induced resistance against pathogens [28], and has now also been reported as a likely mechanism behind volatile-induced resistance [6 ,24 ]. Priming through volatiles might also be important in enhancing indirect defences [6 ,7,29].Priming for defence against pathogens has been shown to involve considerably fewer costs than the induction of direct defence, and the benefits derived from this priming outweigh the costs under conditions of disease pressure [12]. The phenomenon of volatile-induced priming against insects also fits in this ecological context of costs and benefits.…”

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Exploiting scents of distress: the prospect of manipulating herbivore-induced plant odours to enhance the control of agricultural pests

Turlings

Ton

2006

Current Opinion in Plant Biology

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In response to feeding by arthropods, plants actively and systemically emit various volatile substances. It has been proposed that these herbivore-induced volatiles (HIPVs) can be exploited in agricultural pest control because they might repel herbivores and because they serve as attractants for the enemies of the herbivores. Indeed, recent studies with transgenic plants confirm that odour emissions can be manipulated in order to enhance the plants' attractiveness to beneficial arthropods. An additional advantage of manipulating HIPV emissions could be their effects on neighbouring plants, as a rapidly increasing number of studies show that exposure to HIPVs primes plants for augmented defence expression. Targeting the right volatiles for enhanced emission should lead to ecologically and economically sound ways of combating important pests. IntroductionPlant defences against herbivores are not limited to physical and chemical barriers that directly aim to harm their attackers, it is becoming increasingly evident that plants also employ strategies of indirect defence. One form of indirect defence in plants is to attract predators and parasitoids by signalling the presence of potential prey or hosts. This attraction of the third trophic level is one of the presumed functions of herbivore-induced plant volatiles (HIPVs), which are released more or less specifically in response to herbivore attack. The first evidence for tritrophic signalling [1,2] has generated a remarkable interest in this phenomenon from scientists from a broad range of disciplines. This interest has resulted in what can be considered the most interdisciplinary approach to any aspect of plant-arthropod interactions. A rapidly increasing number of behavioural, chemical and evolutionary ecologists, plant physiologists and crop scientists devote their research efforts to the understanding of the mechanisms, selective pressures and ecological consequences of the interactions. Moreover, there is increased interest in understanding the implications of induced plant signalling in the light of agricultural pest control, as has been outlined in previous reviews [3][4][5]. Here we focus, after a brief historical account, on the latest developments in this area. In addition, we address the recent studies that point to a priming effect in plants that are exposed to certain HIPVs, conferring an enhanced defensive capacity against future insect attack [6 ,7-11]. We conclude, with some reservations, that there is not only reason for optimism that manipulation of HIPVs emissions can indeed lead to enhanced repulsion of pests and attraction of their natural enemies but, moreover, that enhanced volatile information transfer between plants might, if exploited appropriately, improve the efficiency of the plant's direct and indirect defence strategies through priming [4,12]. Figures 1 and 2 summarize the various interactions in which HIPVs are implicated as we have studied them for maize plants. The role of HIPVs in indirect plant defencesPrice and colleagues [13] w...

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Costs and benefits of priming for defense in Arabidopsis

Cited by 739 publications

References 40 publications

Plant immune responses triggered by beneficial microbes

Plant immune responses triggered by beneficial microbes

Systemic acquired resistance: the elusive signal(s)

Exploiting scents of distress: the prospect of manipulating herbivore-induced plant odours to enhance the control of agricultural pests

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