Evaluation of d-Limonene and β-Ocimene as Attractants of Aphytis melinus (Hymenoptera: Aphelinidae), a Parasitoid of Aonidiella aurantii (Hemiptera: Diaspididae) on Citrus spp.

Mohammed, Khalid; Agarwal, Manjree; Li, Beibei; Newman, J.; Liu, Tao; Ren, Yonglin

doi:10.3390/insects11010044

Cited by 24 publications

(21 citation statements)

References 28 publications

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“…Although D-limonene was the dominant compound detected in citrus plants, there were no variations in the amounts released after herbivore damage. Contrary to this result, Mohammed et al (2020) found that D-limonene levels sharply increased in several Citrus species after infestation with the pest Aonidiella aurantii (Maskell) (Hemiptera: Diaspididae), and that its parasitoid, Aphytis melinus DeBach (Hymenoptera: Aphelinidae), was attracted to this volatile combined with β-Ocimene. This last compound is released by grapevines plants after feeding and oviposition of the proconiini sharpshooter Homalodisca vitripennis (Germar) and it affects the foraging behavior of the egg parasitoid Cosmocomoidea ashmeadi Girault (formerly Gonatocerus), which positively responded to this volatile when it was combined with α-farnesene (Krugner et al 2014).…”

Section: Discussioncontrasting

confidence: 69%

Behavioral Response of The Egg Parasitoid Cosmocomoidea Annulicornis (Hymenoptera: Mymaridae) and Characterization of The Chemical Cues That Guide Females Toward Host Eggs Located In Taxonomically Distant Plants Species

Manzano

Fernández

Hill

et al. 2022

Preprint

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Parasitoids are known to exploit volatile cues emitted by plants after herbivore attack to locate their hosts. Feeding and oviposition of a polyphagous herbivore can induce emission of odor blends that differ among distant plant species, and parasitoids have evolved an incredible ability to discriminate them and locate their hosts relying on olfactive cues. We evaluated the host searching behavior of the egg parasitoid Cosmocomoidea annulicornis (Ogloblin) (Hymenoptera: Mymaridae) in response to odors emitted by two taxonomically distant host plants, citrus and johnsongrass, after infestation by the sharpshooter Tapajosa rubromarginata (Signoret) (Hemiptera: Cicadellidae), vector of Citrus Variegated Chlorosis. Olfactory response of parasitoid females toward plants with no herbivore damage and plants with feeding damage, oviposition damage and parasitized eggs was tested in a Y-tube olfactometer. In addition, volatiles released by the two host plant species constitutively and under herbivore attack were characterized. Females of C. annulicornis were able to detect and significantly preferred plants with host eggs, irrespectively of plant species. However, wasps were unable to discriminate between plants with healthy eggs and those with eggs previously parasitized by conspecifics. Analysis of plant volatiles induced after sharpshooter attack showed only two common volatiles between the two plant species, indole and β-caryophyllene. Our results suggest that this parasitoid wasp uses common chemical cues released by different plants after herbivory at long range and that, once on the plant, other more specific chemical cues could trigger the final decision to oviposit.

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Section: Discussioncontrasting

confidence: 69%

Behavioral Response of The Egg Parasitoid Cosmocomoidea Annulicornis (Hymenoptera: Mymaridae) and Characterization of The Chemical Cues That Guide Females Toward Host Eggs Located In Taxonomically Distant Plants Species

Manzano

Fernández

Hill

et al. 2022

Preprint

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“…More mealybugs were parasitized on cyclolavandulyl butyrate‐treated trees 58 . d ‐Limonene and β‐ocimene were significantly increased in fruit infested with Aonidiella aurantii and elicited a strong attraction for Aphytis melinus parasitoids 59 . Applications of these semiochemicals in the field may greatly enhance the efficiency of biological control of A. aurantia 60 .…”

Section: Discussionmentioning

confidence: 99%

“…58 D-Limonene and ⊎-ocimene were significantly increased in fruit infested with Aonidiella aurantii and elicited a strong attraction for Aphytis melinus parasitoids. 59 Applications of these semiochemicals in the field may greatly enhance the efficiency of biological control of A. aurantia. 60 We also discovered that volatiles from honeydew produced by P. solenopsis were attractive to A. bambawalei, therefore treatments with more honeydew on www.soci.org C Xu et al…”

Section: Discussionmentioning

confidence: 99%

Discovery of behaviorally active semiochemicals in Aenasius bambawalei using a reverse chemical ecology approach

Yang

Duan

et al. 2021

Pest Management Science

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BACKGROUND The invasive mealybug, Phenacoccus solenopsis, has caused serious damage to cotton crops throughout the world. Aenasius bambawalei is a dominant endoparasitoid of P. solenopsis. Exploration of behaviorally active semiochemicals may promote the efficacy of parasitoids used in biological control. Reverse chemical ecology, based on the physiological function of odorant‐binding proteins (OBPs), provides an effective approach to screen behaviorally active compounds to target insect pests. Determination of the binding mechanisms and specificity towards different odorants in A. bambawalei may facilitate the development of more‐efficient biological control strategies. RESULTS We characterized the expression profile and analyzed the binding affinity of OBP28 in A. bambawalei. AbamOBP28 showed high expression in the wings and antennae of both male and female A. bambawalei. A fluorescence competitive binding assay indicated that AbamOBP28 displayed strong binding affinity to most candidate ligands. Circular dichroism spectra demonstrated that 1‐octen‐3‐one, myrcene, dodecane, 2,4,4‐trimethyl‐2‐pentene, nonanal, and limonene elicited conformational changes in AbamOBP28. Electrophysiological and behavioral bioassays revealed that diethyl sebacate, 2,4,4‐trimethyl‐2‐pentene, and 1‐octen‐3‐one evoked significant electroantennography responses and functioned as attractants in A. bambawalei at specific concentrations. Furthermore, three‐dimensional structure modeling and molecular docking showed that hydrogen bonds were formed by Glu1 and Ser75 of AbamOBP28 with diethyl sebacate, respectively. CONCLUSION These results demonstrate that AbamOBP28 is involved in the chemoreception of A. bambawalei. The identified protein provides a potential target for efficient enemy utilization and pest control, and the overall results may help develop protocols for more effective screening of behaviorally active semiochemicals. © 2021 Society of Chemical Industry

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“…The aphid solitary endoparasitoid Aphelinus varipes Foerster (Hymenoptera: Aphelinidae) is being used as a control measure against the Russian wheat aphid Diuraphis noxia (Mordwilko) in Australia [ 23 ] and the USA [ 24 ]; M. persicae in Canada [ 25 ] and China [ 26 ]; and Rhopalosiphum padi , R. maidis and Macrosiphum euphorbiae in other regions [ 27 , 28 ]. Parasitoids use HIPVs to locate their prey [ 29 , 30 ]; as indicated by Mohammed et al (2020) [ 31 ], Aphytis melinus (DeBach; Hymenoptera: Aphelinidae) is significantly attracted towards HIPVs emitted by Aonidiella aurantii -fed citrus plants. The aim of the present study was thus to assess whether HIPVs can mediate the parasitoid behavior in the tritrophic interactions among A. varipes , M. persicae and host plants.…”

Section: Introductionmentioning

confidence: 99%

Plant Volatiles and Herbivore Induced Plant Volatiles from Chili Pepper Act as Attractant of the Aphid Parasitoid Aphelinus varipes (Hymenoptera: Aphelinidae)

Ali

Naseem

Zhang

et al. 2022

Plants

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Plants have evolved a number of different chemical defenses, covering nearly all classes of (secondary) metabolites, that represent a major barrier to herbivory: some are constitutive; others are induced after attacks from herbivores (HIPVs) and may elicit the attraction of predators and parasitoids. Here, we studied how the female solitary endoparasitoid Aphelinus varipes responds to plant and host aphid volatiles in a series of experiments on five commercially important vegetables that were either healthy or infested with the aphid Myzus persicae: chili pepper, eggplant, crown daisy, Chinese cabbage and cabbage. The results for the olfactory responses of A. varipes showed that the presence of M. persicae increased the attraction of the endoparasitoid to the infested plants. In a second experiment, volatiles from highly attractive and repellent plants were obtained via headspace collection to investigate volatiles from healthy and aphid-damaged plants. The results for the differences in volatile profiles in response to aphid infestation in chili pepper cultivar were dominated by the volatile blends, including α-pinene, decanal and phthalic acid, while in cabbage they were dominated by isophorone. Moreover, when HIPVs with different concentrations were compared, α-pinene at a dose rate of 100 ng/μL attracted more parasitoids, and the comparison was useful to understand the mechanisms of plant secondary volatiles during aphid infestation and to provide new resources to control this insect pest. Overall our study shows how HIPVs can bolster tritrophic interactions by enhancing the attractiveness of parasitoids.

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Evaluation of d-Limonene and β-Ocimene as Attractants of Aphytis melinus (Hymenoptera: Aphelinidae), a Parasitoid of Aonidiella aurantii (Hemiptera: Diaspididae) on Citrus spp.

Cited by 24 publications

References 28 publications

Behavioral Response of The Egg Parasitoid Cosmocomoidea Annulicornis (Hymenoptera: Mymaridae) and Characterization of The Chemical Cues That Guide Females Toward Host Eggs Located In Taxonomically Distant Plants Species

Behavioral Response of The Egg Parasitoid Cosmocomoidea Annulicornis (Hymenoptera: Mymaridae) and Characterization of The Chemical Cues That Guide Females Toward Host Eggs Located In Taxonomically Distant Plants Species

Discovery of behaviorally active semiochemicals in Aenasius bambawalei using a reverse chemical ecology approach

Plant Volatiles and Herbivore Induced Plant Volatiles from Chili Pepper Act as Attractant of the Aphid Parasitoid Aphelinus varipes (Hymenoptera: Aphelinidae)

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