非致死剂量的吡丙醚对雌雄白纹伊蚊生殖能力的影响。

IF 2.4 Q1 ENTOMOLOGY Frontiers in insect science Pub Date : 2024-07-02 eCollection Date: 2024-01-01 DOI:10.3389/finsc.2024.1430422
Sri Jyosthsna Kancharlapalli, Corey L Brelsfoard
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引用次数: 0

摘要

导言:由于白纹伊蚊的雌蚊喜欢在小型天然和人工容器中产卵,而这些容器往往难以清除或用杀虫剂处理,因此白纹伊蚊的控制受到其行为的困扰。利用强效昆虫生长调节剂(IGRs)的自传播策略已成为控制这种栖息在容器中的物种的有效工具。自动传播方法的预期目标是利用蚊子向这些隐蔽的产卵地点自行投放 IGR。以前的研究主要集中在这些方法对自然种群的影响,但很少关注蚊子在接触非致命剂量的 IGRs 后对其产生的影响,这些剂量的 IGRs 与蚊子在自动传播方法中接触的剂量相似:本研究调查了非致死剂量的吡丙醚(PPF)对白喙伊蚊繁殖能力的影响。将雌性和雄性白纹伊蚊暴露于非致死剂量的吡丙醚中,测量它们的繁殖力和生殖力。为了研究非致死剂量 PPF 的影响,测定了参与卵黄发生的蜕皮激素调控基因 USP、HR3 和 Vg 的表达:结果:我们的研究结果表明,暴露于非致死剂量的PPF后,雌性受精率、采血率和卵孵化率显著下降。经 PPF 处理的雌鱼的卵细胞发育也会延迟。此外,暴露于非致死剂量的 PPF 会改变参与卵黄发生的基因的表达,这表明激素调节发生了紊乱。有趣的是,接触 PPF 还会降低雄性动物的精子产量,这表明 PPF 可能具有半杀菌作用:这些研究结果表明,非致死剂量的PPF可通过影响雄性和雌性的生殖能力来提高自传播方法的效果。不过,还需要进一步研究,以便在实地环境中验证这些实验室研究结果,并评估其对病媒控制策略的实际影响。
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The impact of non-lethal doses of pyriproxyfen on male and female Aedes albopictus reproductive fitness.

Introduction: Control of the mosquito Aedes albopictus is confounded by its behavior due to females preferring to oviposition in small natural and artificial containers that are often difficult to remove or treat with insecticides. Autodissemination strategies utilizing highly potent insect growth regulators (IGRs) have emerged as promising tools for the control of this container-inhabiting species. The intended goal of autodissemination approaches is to use mosquitoes to self-deliver an IGR to these cryptic oviposition locations. Previous studies have focused on the efficacy of these approaches to impact natural populations, but little focus has been placed on the impacts on mosquitoes when exposed to non-lethal doses of IGRs similar to the levels they would be exposed to with autodissemination approaches.

Methods: In this study, the impact of non-lethal doses of pyriproxyfen (PPF) on the reproductive fitness of Ae. albopictus was investigated. Female and male Ae. albopictus mosquitoes were exposed to non-lethal doses of PPF and their fecundity and fertility were measured. To examine the impact of non-lethal doses of PPF, the expression of the ecdysone-regulated genes USP, HR3, and Vg, which are involved in vitellogenesis, was determined.

Results: Our results demonstrated a significant reduction in female fecundity and in the blood feeding and egg hatching rates upon exposure to non-lethal doses of PPF. Oocyte development was also delayed in PPF-treated females. Furthermore, exposure to non-lethal doses of PPF altered the expression of the genes involved in vitellogenesis, indicating disruption of hormonal regulation. Interestingly, PPF exposure also reduced the sperm production in males, suggesting a potential semi-sterilization effect.

Discussion: These findings suggest that non-lethal doses of PPF could enhance the efficacy of autodissemination approaches by impacting the reproductive fitness of both males and females. However, further research is needed to validate these laboratory findings in field settings and to assess their practical implications for vector control strategies.

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