Mingyue Feng scite author profile

Mingyue Feng

5Publications

35Citation Statements Received

162Citation Statements Given

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China Agricultural University

Publications

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The male‐produced aggregation pheromone of the bean flower thrips Megalurothrips usitatus in China: identification and attraction of conspecifics in the laboratory and field

Qin

Feng

et al. 2020

Pest Management Science

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BACKGROUNDThrips, Megalurothrips usitatus, usually display aggregation behavior, which is probably mediated by a male‐produced aggregation pheromone. Aggregation pheromones are species‐specific, and can be used to develop commercial lures for monitoring and mass‐trapping of pests. The active components of the aggregation pheromone for four thrips species have been identified. However, the components of M. usitatus‐produced aggregation pheromone are still not clear.RESULTY‐tube olfactometer assays showed that both male and virgin female M. usitatus were significantly attracted to male but not female volatiles. This was additionally supported by electroantennogram (EAG) assays. Coupled gas chromatography‐electroantennogram detection (GC‐EAD) showed that one component of male‐specific odors elicited a significant electrophysiological response. This compound was characterized as (2E,6E)‐farnesyl acetate, which is structurally different from the active components of the aggregation pheromones of other reported thrips species. Electroantennal responses of M. usitatus increased with increasing doses of synthetic (2E,6E)‐farnesyl acetate. Additionally, this compound significantly attracted adults in laboratory behavioral bioassays. Under field conditions, sticky traps with synthetic (2E,6E)‐farnesyl acetate caught 1.5‐7‐fold more M. usitatus than controls, and this effect of the compound at a dose of 60 μg lasted at least 6 days.CONCLUSION(2E,6E)‐Farnesyl acetate was identified as the male‐produced aggregation pheromone of M. usitatus. It could attract this thrips species under laboratory and field conditions, suggesting considerable potential as a commercial application to control M. usitatus populations. © 2020 Society of Chemical Industry

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The impact of Bt maize expressing the Cry1Ac protein on non-target arthropods

Xing

Qin

Feng

et al. 2019

Environ Sci Pollut Res

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Defensive Resistance of Cowpea Vigna unguiculata Control Megalurothrips usitatus Mediated by Jasmonic Acid or Insect Damage

Feng

Chi

et al. 2023

Plants

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Vigna unguiculata is a vital vegetable crop in Southeast Asia, and Megalurothrips usitatus can cause huge damage to this crop. Enhancing the resistance of V. unguiculata against M. usitatus is a promising way to protect this crop; however, there is limited information regarding the mechanism underlying the resistance of V. unguiculata against M. usitatus. Here, a behavior assay was performed to explore the resistance of V. unguiculata against M. usitatus after insect damage or treatment by jasmonic acid (JA). Furthermore, transcriptome and metabonomics analysis was used to detect the putative mechanism underlying the resistance of V. unguiculata against M. usitatus. The pre-treatment of Vigna unguiculata with JA or infestation with Megalurothrips usitatus alleviated the damage resulting from the pest insect. We further identified differentially expressed genes and different metabolites involved in flavonoid biosynthesis and alpha-linolenic acid metabolism. Genes of chalcone reductase and shikimate O-hydroxycinnamoyltransferase involved in flavonoid biosynthesis, as well as lipoxygenase and acyl-CoA oxidase involved in alpha-linolenic acid metabolism, were upregulated in plants after herbivory or JA supplementation. The upregulation of these genes contributed to the high accumulation of metabolites involved in flavonoid biosynthesis and the alpha-linolenic acid metabolism pathway. These transcriptional and metabolite changes are potentially responsible for plant defense and a putative regulatory model is thus proposed to illustrate the cowpea defense mechanism against insect attack. Our study provides candidate targets for the breeding of varieties with resistance to insect herbivory by molecular technology.

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Parasitism Potential and Laboratory Rearing of Psyllaephagus sp., a Newly Discovered Parasitoid of Cacopsylla chinensis

et al. 2023

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Psyllaephagus sp. (Hymenoptera: Encyrtidae) is a newly recognized and important parasitoid of Cacopsylla chinensis (Yang and Li) (Hemiptera: Psyllidae), a pest of pear orchards. Its parasitism potential and rearing were studied in the laboratory. The studies showed that the most suitable hosts were fourth- and fifth-instar nymphs of pear psyllids (C. chinensis). The development duration of Psyllaephagus sp. females and males was 15.25 ± 0.37 and 13.57 ± 0.27 days when laying eggs in fourth-instar psyllid nymphs. The wasps did not survive longer than three days when they were fed only water, while they survived about an average of 20 days (23.20 ± 1.12 for females and 19.00 ± 0.80 for males) when fed 20% honey water. The provision of honey water could thus increase adult parasitoid longevity significantly. The lifetime fecundity of Psyllaephagus sp. females was 21.60 ± 0.88. Tests of parasitoid efficiency showed that the wasp’s functional response was Holling type II, with the number of hosts parasitized increasing with the host density to a maximum parasitism rate. The model suggested that a single Psyllaephagus sp. female could parasitize a maximum of 13.66 nymphs per day. The mutual interference of foraging Psyllaephagus sp. females occurred at high parasitoid densities. Psyllaephagus sp. has potential as a biocontrol agent for use against C. chinensis.

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Mechanism of Excessive Nitrogen Fertilization Aggravates the Damage of Cacopsylla Chinensis to Pear

Qin

Jia

et al. 2021

Preprint

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Cacopsylla chinensis (Hemiptera: Psyllidae) is one of the most important pests on pear trees. Although nitrogen fertilization is known to often benefit the performance of many herbivores including psyllids, physiochemical and molecular mechanisms of how psyllids respond to excessive nitrogen application remain unclear. Study showed that nitrogen fertilizer concentrations significantly impacted phenolic acids compositions in pear leaves, there was an upward trend in ferulic acid concentration when increasing nitrogen fertilizers. The increased ferulic acid concentration accelerated the C. chinensis development. Moreover, high nitrogen fertilization also caused a significant increase in psyllid honeydew secretion and several amino acids concentrations in honeydew. The increased amino-acid content in pear leaves under high nitrogen fertilization improved the feed intakes of psyllid, however decreased more significantly the expression levels of several C. chinensis genes in amino-acid synthesis pathways. The mechanism of excessive nitrogen fertilization aggravating the damage of C. chinensis to pear trees was defined preliminarily.

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Mingyue Feng

The male‐produced aggregation pheromone of the bean flower thrips Megalurothrips usitatus in China: identification and attraction of conspecifics in the laboratory and field

The impact of Bt maize expressing the Cry1Ac protein on non-target arthropods

Defensive Resistance of Cowpea Vigna unguiculata Control Megalurothrips usitatus Mediated by Jasmonic Acid or Insect Damage

Parasitism Potential and Laboratory Rearing of Psyllaephagus sp., a Newly Discovered Parasitoid of Cacopsylla chinensis

Mechanism of Excessive Nitrogen Fertilization Aggravates the Damage of Cacopsylla Chinensis to Pear

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