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吡丙醚田间抗性近等基因系小菜蛾的特性研究。

Characterization of field-evolved resistance to pyridalyl in a near-isogenic line of diamondback moth, Plutella xylostella.

机构信息

Institute of Plant and Environment Protection, Beijing Academy of Agriculture and Forestry Sciences, Beijing, China.

Agriculture Biotechnology Institute, Hunan Academy of Agricultural Sciences, Changsha, China.

出版信息

Pest Manag Sci. 2021 Mar;77(3):1197-1203. doi: 10.1002/ps.6129. Epub 2020 Oct 21.

DOI:10.1002/ps.6129
PMID:33035398
Abstract

BACKGROUND

Plutella xylostella has developed resistance to a variety of pesticides in the field. Selection, inheritance, a near-isogenic line, cross-resistance and biochemical mechanisms of pyridalyl resistance were characterized in a field-collected resistant population of P. xylostella from China.

RESULTS

Compared with a susceptible IVF-S strain, the field-collected FZ population showed ~ 350-fold resistance to pyridalyl. The FZ-PY strain, selected from the FZ population using pyridalyl, developed ~ 640-fold resistance to pyridalyl. Inheritance tests indicated that pyridalyl resistance in the FZ-PY strain was autosomal and incompletely recessive. Through successive backcrossing to IVF-S, a near-isogenic strain (NIL-PY) was established that exhibited 191.21-fold resistance to pyridalyl and no cross-resistance to other tested popular insecticides. No significant effects of synergists and higher activities of metabolic enzymes were observed in NIL-PY compared with IVF-S. Furthermore, the survival rate of NIL-PY larvae, and female oviposition, fecundity and egg viability were markedly reduced in NIL-PY compared with IVF-S. The fitness of NIL-PY was found to be 0.56 compared with IVF-S.

CONCLUSION

Considering that no relevant effects of synergists or oxidative metabolism were observed in NIL-PY, and that pyridalyl resistance results in significant fitness costs compared with IVF-S, further research will be conducted on the mechanism of target-site resistance. © 2020 Society of Chemical Industry.

摘要

背景

小菜蛾在田间已对多种杀虫剂产生了抗性。本研究对田间采集的对啶虫脒产生抗性的小菜蛾种群进行了抗性选择、遗传、近等基因系、交互抗性和生化机制研究。

结果

与敏感 IVF-S 品系相比,田间采集的 FZ 种群对啶虫脒表现出约 350 倍的抗性。从 FZ 种群中用啶虫脒选择得到的 FZ-PY 品系对啶虫脒表现出约 640 倍的抗性。遗传试验表明,FZ-PY 品系对啶虫脒的抗性为常染色体不完全隐性遗传。通过连续回交到 IVF-S 品系,建立了一个近等基因系(NIL-PY),对啶虫脒表现出 191.21 倍的抗性,对其他测试的常用杀虫剂没有交互抗性。与 IVF-S 相比,NIL-PY 中增效剂没有显著影响,代谢酶的活性也更高。此外,与 IVF-S 相比,NIL-PY 幼虫的存活率、雌虫产卵量、繁殖力和卵活力明显降低。与 IVF-S 相比,NIL-PY 的适合度为 0.56。

结论

考虑到在 NIL-PY 中没有观察到增效剂或氧化代谢的相关影响,而且啶虫脒抗性与 IVF-S 相比会导致显著的适合度成本,因此将进一步研究靶标抗性的机制。 © 2020 英国化学学会。

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