Non‐host volatiles disturb the feeding behavior and reduce the fecundity of the green peach aphid, <scp><i>Myzus persicae</i></scp>

Dardouri, Tarek; Gomez, Laurent; Ameline, Arnaud; Costagliola, Guy; Schoeny, Alexandra; Gautier, Hélène

doi:10.1002/ps.6190

Cited by 11 publications

(11 citation statements)

References 30 publications

(55 reference statements)

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“…Although for D. plantaginea aphids the total time allocated to stylet penetration (i.e., general probing phase) was unchanged, garlic EO volatiles disrupted the feeding activity through a greater number of probes performed (n_Pr). Dardouri et al (2021) showed that the repellent effect of the two companion plants Tagetes patula L. (marigold) and Ocimum basilicum L. (basil) translated into greater numbers of probes (n_Pr) and a shorter total duration of probing (s_Pr) for M. persicae on sweet pepper. Although the pathway phase was not altered in our experiment, garlic EO seemed to have impacted behavioral phases within mesophyll occurring before the initiation of sap ingestion, which was shown by an increase in the median duration of stylet derailment events.…”

Section: Discussionmentioning

confidence: 99%

Behavioral disruption of two orchard hemipteran pests by garlic essential oil

Denoirjean

Rivière

Doury

et al. 2022

Entomologia Exp Applicata

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Manipulating the odorscape of insects is a key component of most pest control strategies. It can be achieved using natural chemical products such as those emitted by nonhost plants (Conchou et al., 2019). In particular, companion plants can disrupt the pest olfactory environment, owing to the chemical masking properties and/or repelling effects of non-host volatile organic compounds (VOCs) they naturally emit when associated with focal crops (Parker et al., 2013). Exploiting other sources of non-host plantderived odors can be attained with essential oils (EOs) that provide a wide range of bioactive compounds. Distilled from plants, EOs are highly volatile secondary metabolites that may play a key role in plant-insect interactions, such as alkaloids, amides, chalcones, flavones, kawapirones, lignans, neolignans, or phenols (

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Section: Discussionmentioning

confidence: 99%

Behavioral disruption of two orchard hemipteran pests by garlic essential oil

Denoirjean

Rivière

Doury

et al. 2022

Entomologia Exp Applicata

Self Cite

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“…Furthermore, this structure modifies the innate behavior of B. tabaci for settling and feeding on the abaxial surface of tomato leaves [46]. The VOCs from Ocimum basilicum L. and Tagetes patula L. also reduced sustained feeding and increased nonproductive probing and searching [47]. The surface resistance characteristics of Rough Lemon, Olinda, and Eureka mentioned above remains to be elucidated.…”

Section: Discussionmentioning

confidence: 99%

Different Host Plants Distinctly Influence the Feeding Ability of the Brown Citrus Aphid Toxoptera citricida

Zhao

et al. 2021

Insects

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Piercing–sucking insects are important crop pests, and an understanding of their feeding behavior and population development plays a crucial role in studying insect population dynamics and crop resistance. In our study, we examined the probing behavior of the brown citrus aphid, Toxoptera citricida, using electropenetrography and assessed its population development after 8 days on seven host plants: Yuzu, Citrus junos Sieb. ex Tanaka; Rough Lemon, C. jambhiri Lush.; ‘Luofu’ kumquat, Fortunella margarita Swingle; ‘Olinda’ valencia orange, C. sinensis (L.) Osbeck; ‘Yanxiwanlu’ Ponkan, C. reticulata Blanco; ‘Rohde Red’ valencia orange, C. sinensis; and ‘Eureka’ lemon, C. limon (L.) Osbeck. The results demonstrated that probing by the brown citrus aphid differed significantly according to the target hosts. Toxoptera citricida produced significantly more pathway activities on Eureka than on Rough Lemon and Yuzu. Toxoptera citricida spent more time from the first probe to first salivation into phloem sieve elements on Eureka compared to Yuzu. In addition, the total duration of ingestion from sieve cells of each aphid in the phloem-feeding phase was shortest on Eureka, and this was significantly shorter than that on Yuzu, Rough Lemon, Luofu, and Olinda. The population number of T. citricida on Eureka after 8 days was significantly lower than that on the other hosts. Overall, Eureka was found to have obvious resistance to T. citricida, whereas Yuzu and Rough Lemon were susceptible host plants. These results provide a theoretical basis for exploring aphid-resistant fruit tree resources using resistant varieties.

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“…Psyllid-infested pear trees produced more limonene, α-farnesene, and δ-cadinene after infestation, as well as green leaf volatiles such as (Z)-3-hexen-1-yl acetate and (Z)-3-hexen-1-ol [44]. Peach trees that were infested with the green peach aphid released higher levels of β-ocimene, α-and β-farnesene, and E-nerolidol [43]. Many VOCs also stimulate the volatile defenses of nearby plants (defensive priming) or act as kairomones for attracting the natural predators or parasitoids of the target pest, demonstrating complex inter-trophic relationships between plants and their pests [41].…”

Section: Introductionmentioning

confidence: 99%

“…Among the many roles of leaf volatiles are those of attracting pollinators, repelling herbivores, or attracting their natural predators. Induction of terpenoids as a plant defense following insect herbivory has been widely reported in both annual and perennial crop plants including corn [41], citrus [42], peach [43], and pear [44]. Psyllid-infested pear trees produced more limonene, α-farnesene, and δ-cadinene after infestation, as well as green leaf volatiles such as (Z)-3-hexen-1-yl acetate and (Z)-3-hexen-1-ol [44].…”

Section: Introductionmentioning

confidence: 99%

Influence of Rootstock on the Leaf Volatile Organic Compounds of Citrus Scion Is More Pronounced after the Infestation with Diaphorina citri

Jones

Killiny

2021

Plants

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Nowadays, citrus greening or Huanglongbing is considered the most destructive disease in the citrus industry worldwide. In the Americas and Asia, the disease is caused by the putative pathogen, ‘Candidatus Liberibacter asiaticus’ and transmitted by the psyllid vector, Diaphorina citri. It has been shown that volatile organic compounds (VOC) that are released from citrus leaves attract the psyllid vector. Herein, we tested whether the rootstock influenced the stored VOC profile in the scion leaves and if these influences were altered after infestation with D. citri. The VOC profiles of the hexane-extracted leaves of the mandarin hybrid ‘Sugar Belle’ that were grafted on three different rootstocks (C-35, sour orange (SO), and US-897) with and without infestation with D. citri were studied. The GC-MS analysis showed that the scion VOC profiles of the non-infested control trees were similar to each other, and rootstock was not a strong influence. However, after one month of infestation with D. citri, clear differences in the scion VOC profiles appeared that were rootstock dependent. Although the total scion leaf VOC content did not differ between the three rootstocks, the infestation increased scion monoterpenes significantly on US-897 and C-35 rootstock, increased terpene alcohols on US-897 and SO rootstock, and increased sesquiterpenes on SO. Infestation with D. citri significantly reduced fatty acids and fatty acid esters across all of the rootstocks. Therefore, our results suggest that rootstock choice could influence scions with an inducible volatile defense by enhancing the amounts of VOCs that are available for repelling vectors or for signaling to their natural enemies or parasitoids. According to this study, US-897 may be the best choice among the three that were studied herein, due to its diverse and robust VOC defense response to infestation with D. citri.

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Non‐host volatiles disturb the feeding behavior and reduce the fecundity of the green peach aphid, Myzus persicae

Cited by 11 publications

References 30 publications

Behavioral disruption of two orchard hemipteran pests by garlic essential oil

Behavioral disruption of two orchard hemipteran pests by garlic essential oil

Different Host Plants Distinctly Influence the Feeding Ability of the Brown Citrus Aphid Toxoptera citricida

Influence of Rootstock on the Leaf Volatile Organic Compounds of Citrus Scion Is More Pronounced after the Infestation with Diaphorina citri

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