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与蜜蜂寄生虫瓦螨对拟除虫菊酯类杀虫剂的抗药性相关的突变在美国广泛存在。

Mutations associated with pyrethroid resistance in Varroa mite, a parasite of honey bees, are widespread across the United States.

机构信息

Department of Genetics, Institute BIOTECMED, Universitat de València, Burjassot, Spain.

Department of Entomology, University of Maryland, College Park, MD, USA.

出版信息

Pest Manag Sci. 2021 Jul;77(7):3241-3249. doi: 10.1002/ps.6366. Epub 2021 Apr 1.

DOI:10.1002/ps.6366
PMID:33728766
Abstract

BACKGROUND

Managed honey bees are key pollinators of many crops and play an essential role in the United States food production. For more than ten years, beekeepers in the United States have been reporting high rates of colony losses. One of the drivers of these losses is the parasitic mite Varroa destructor. Maintaining healthy honey bee colonies in the United States is dependent on a successful control of this mite. The pyrethroid tau-fluvalinate (Apistan®) was among the first synthetic varroacides registered in the United States. With over 20 years of use, mites resistant to Apistan® have emerged, and so it is unsurprising that treatment failures have been reported. Resistance to tau-fluvalinate in US mite populations is associated with point mutations at position 925 of the voltage-gated sodium channel.

RESULTS

Here, we have generated a distribution map of pyrethroid resistance alleles in Varroa samples collected from US apiaries in 2016 and 2017, using a high throughput allelic discrimination assay based on TaqMan®. Our results evidence that knockdown resistance (kdr)-type mutations are widely distributed in Varroa populations across the country showing high variability among apiaries. We used these data to predict the phenotype of the mites in the case of treatments with pyrethroids.

CONCLUSION

We highlight the relevance of monitoring the resistance in mite populations to achieve an efficient control of this pest. We also put forward the benefits of implementing this methodology to provide data for designing pest management programs aiming to control Varroa. © 2021 Society of Chemical Industry.

摘要

背景

经过人工养殖的蜜蜂是许多作物的主要授粉者,在美国的粮食生产中发挥着重要作用。十多年来,美国的养蜂人一直在报告蜂群大量死亡的情况。造成这些损失的原因之一是寄生螨瓦螨。要想维持美国健康的蜜蜂群体,就必须成功控制这种螨虫。拟除虫菊酯类药剂四氟螨酯(Apistan®)是首批在美国注册的合成杀螨剂之一。在使用了 20 多年后,对 Apistan®产生抗药性的螨虫已经出现,因此出现治疗失败也就不足为奇了。美国螨种群对四氟螨酯的抗性与电压门控钠离子通道 925 位的点突变有关。

结果

在这里,我们使用基于 TaqMan®的高通量等位基因鉴别检测,对 2016 年和 2017 年从美国养蜂场采集的瓦螨样本中的拟除虫菊酯抗性等位基因进行了分布图谱绘制。我们的研究结果表明,击倒抗性(kdr)型突变广泛分布于全国范围内的螨种群中,各养蜂场之间存在高度变异性。我们使用这些数据预测了在使用拟除虫菊酯类药物治疗时螨虫的表型。

结论

我们强调了监测螨种群抗性的重要性,以实现对这种害虫的有效控制。我们还提出了实施这种方法的好处,为旨在控制瓦螨的害虫管理计划提供数据。© 2021 英国化学学会。

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