Pan Shi scite author profile

Pest species are often able to develop resistance to pesticides used to control them, depending on how rapidly resistance can emerge within a population or spread from another resistant population. We examined the evolution of bifenazate resistance in China in the two‐spotted spider mite (TSSM) Tetranychus uticae Koch (Acari: Tetranychidae), one of the most resistant arthropods, by using bioassays, detection of mutations in the target cytb gene, and population genetic structure analysis using microsatellite markers. Bioassays showed variable levels of resistance to bifenazate. The cytb mutation G126S, which confers medium resistance in TSSM to bifenazate, had previously been detected prior to the application of bifenazate and was now widespread, suggesting likely resistance evolution from standing genetic variation. G126S was detected in geographically distant populations across different genetic clusters, pointing to the independent origin of this mutation in different TSSM populations. A novel A269V mutation linked to a low‐level resistance was detected in two southern populations. Widespread resistance associated with a high frequency of the G126S allele was found in four populations from the Beijing area which were not genetically differentiated. In this case, a high level of gene flows likely accelerated the development of resistance within this local region, as well as into an outlying region distant from Beijing. These findings, therefore, suggest patterns consistent with both local evolution of pesticide resistance as well as an impact of migration, helping to inform resistance management strategies in TSSM.

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Chromosome‐level assembly of the melon thrips genome yields insights into evolution of a sap‐sucking lifestyle and pesticide resistance

Guo

Cao

Song

et al. 2020

Molecular Ecology Resources

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Many insects feed on plant sap by using their sucking and piercing mouthparts. A sap-sucking lifestyle evolved mainly in the superorder Condylognatha, including thrips from the order Thysanoptera, and psyllids, whiteflies, aphids, mealybugs and true bugs et al. from the order Hemiptera. Sap-sucking insects include a large number of notorious agricultural pests that have developed pesticide resistance, such as the western flower thrips Frankliniella occidentalis, whitefly Bemisia tabaci, green peach aphid Myzus persicae and

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Increased density of endosymbiotic Buchnera related to pesticide resistance in yellow morph of melon aphid

et al. 2020

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Association Between Susceptibility of Thrips palmi to Spinetoram and Frequency of G275E Mutation Provides Basis for Molecular Quantification of Field-Evolved Resistance

Shi

Guo

Gao

et al. 2021

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Putative mechanisms underlying spinosyn resistance have been identified in controlled studies on many species; however, mechanisms underlying field-evolved resistance and the development of a molecular diagnostic method for monitoring field resistance have lagged behind. Here, we examined levels of resistance of melon thrips, Thrips palmi Karny (Thysanoptera:Thripidae), to spinetoram as well as target site mutations in field populations across China to identify potential mechanisms and useful molecular markers for diagnostic and quantifying purposes. In resistant populations, we identified the G275E mutation, which has previously been linked to spinosyns resistance, and F314V mutation, both located in the α6 subunit of the nicotinic acetylcholine receptor. There was a strong correlation between levels of spinetoram resistance and allele frequency of G275E mutation in field-collected populations (r2 = 0.84) and those reared under laboratory conditions for two to five generations (r2 = 0.91). LC50 ranged from 0.12 to 0.66 mg/liter in populations without G275E mutation, whereas it ranged from 33.12 to 39.91 mg/liter in most populations with a G275E mutation frequency more than 90%. Our results indicate that the field-evolved resistance of T. palmi to spinetoram in China is mainly conferred by the G275E mutation. The frequency of the G275E mutation provides a useful diagnostic for quantifying resistance levels in field populations of T. palmi.

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Pan Shi

Independently evolved and gene flow‐accelerated pesticide resistance in two‐spotted spider mites

Chromosome‐level assembly of the melon thrips genome yields insights into evolution of a sap‐sucking lifestyle and pesticide resistance

Increased density of endosymbiotic Buchnera related to pesticide resistance in yellow morph of melon aphid

Association Between Susceptibility of Thrips palmi to Spinetoram and Frequency of G275E Mutation Provides Basis for Molecular Quantification of Field-Evolved Resistance

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