Molecular diagnostics of insecticide resistance in Australian Tetranychus urticae Koch (Acari: Tetranychidae) quarantine intercepts

IF 1.1 3区 农林科学 Q3 ENTOMOLOGY
Yizhou Chen, Duong T. Nguyen, Grant A. Herron
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引用次数: 0

Abstract

Australian ports are continuously exposed to exotic and invasive mite and insect species associated with imported fresh produce. Much effort is focused on preventing the exotic species from entering Australia by product fumigation or destruction in a timely manner. However, quarantine intercepts of invasive species may contain unwanted resistance to pesticides or carry viruses that can undermine Australian agricultural sustainability. We examined pesticide resistance status in 1275 Tetranychus urticae samples from quarantine intercepts from the Department of Agriculture, Fisheries and Forestry originating from some 29 countries spread over 6 main continents (Africa [4], Asia [12], Europe [3], North America [2], Oceania [4] and South America [4]). We used a high-throughput multiamplicon sequencing platform to screen major target-site mutations that cause acaricide resistance in T. urticae. These included G119S, A201S, T280A, G328A and F331Y (Ace-1) associated with mode of action (MoA) 1 insecticide (organophosphates and carbamates); M918, L925I, L1014F and F1538I (VGSC) associated with MoA 3 insecticide (pyrethroids); G314D (GluCl1) associated with MoA 6 insecticide (avermectins and milbemycins); and finally, H92R (PSST) associated with MoA 21 insecticide (fenpyroximate, pyridaben and tebufenpyrad). The results revealed that four known mutations (G119S, T280A, G328A and F331W) were abundant in the quarantine samples including those from Norfolk Island and New Zealand. The mutations L1024V, F1538I and L925V (VGSC) associated with pyrethroid resistance were widespread through many samples, but the super Kdr mutation M918 was not detected. Similarly, H92R (PSST) that causes resistance to fenpyroximate, pyridaben and tebufenpyrad was found in most of the T. urticae intercept samples. We conclude that resistance alleles entering Australia through quarantine intercepts are common, suggesting that unwanted or rare alleles could enter Australia via this route. However, exotic quarantine breaches carrying such alleles remain of most serious concern.

澳大利亚检疫截获的 Tetranychus urticae Koch(蛔虫:Tetranychidae)的杀虫剂抗药性分子诊断法
澳大利亚港口不断受到与进口新鲜农产品有关的外来入侵螨虫和昆虫物种的危害。很多努力都集中在通过产品熏蒸或及时销毁来防止外来物种进入澳大利亚。然而,检疫截获的外来物种可能含有对杀虫剂的抗药性或携带病毒,从而破坏澳大利亚农业的可持续发展。我们研究了农渔林业部从分布在 6 大洲(非洲 [4]、亚洲 [12]、欧洲 [3]、北美洲 [2]、大洋洲 [4] 和南美洲 [4])约 29 个国家的检疫截获物中采集的 1275 份 Tetranychus urticae 样品的杀虫剂抗药性状况。我们利用高通量多扩增子测序平台筛选出了导致荨麻蝇产生杀螨剂抗性的主要靶位点突变。这些突变包括 G119S、A201S、T280A、G328A 和 F331Y(Ace-1),与作用方式(MoA)1 杀虫剂(有机磷类和氨基甲酸酯类)有关;M918、L925I、L1014F 和 F1538I(VGSC),与作用方式(MoA)3 杀虫剂(拟除虫菊酯类)有关;G314D(GluCl1)与 MoA 6 杀虫剂(阿维菌素和米贝菌素)有关;最后,H92R(PSST)与 MoA 21 杀虫剂(杀虫脒、哒螨灵和特丁硫磷)有关。结果显示,在检疫样品(包括来自诺福克岛和新西兰的样品)中,有四种已知突变(G119S、T280A、G328A 和 F331W)。与拟除虫菊酯抗性相关的 L1024V、F1538I 和 L925V(VGSC)突变在许多样本中广泛存在,但没有检测到超级 Kdr 突变 M918。同样,在大多数截获的 T. urticae 样本中都发现了导致对氟螨酯、哒螨灵和特丁螨酯产生抗性的 H92R(PSST)。我们的结论是,通过检疫截获进入澳大利亚的抗性等位基因很常见,这表明不需要的或罕见的等位基因可能通过这一途径进入澳大利亚。然而,携带此类等位基因的外来检疫违规行为仍然是最令人担忧的问题。
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来源期刊
Austral Entomology
Austral Entomology ENTOMOLOGY-
CiteScore
3.20
自引率
0.00%
发文量
40
期刊介绍: Austral Entomology is a scientific journal of entomology for the Southern Hemisphere. It publishes Original Articles that are peer-reviewed research papers from the study of the behaviour, biology, biosystematics, conservation biology, ecology, evolution, forensic and medical entomology, molecular biology, public health, urban entomology, physiology and the use and control of insects, arachnids and myriapods. The journal also publishes Reviews on research and theory or commentaries on current areas of research, innovation or rapid development likely to be of broad interest – these may be submitted or invited. Book Reviews will also be considered provided the works are of global significance. Manuscripts from authors in the Northern Hemisphere are encouraged provided that the research has relevance to or broad readership within the Southern Hemisphere. All submissions are peer-reviewed by at least two referees expert in the field of the submitted paper. Special issues are encouraged; please contact the Chief Editor for further information.
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