一种改良的自杀死卵诱捕器，用于控制和监测埃及伊蚊。

An improved autocidal gravid ovitrap for the control and surveillance of Aedes aegypti.

机构信息

Entomology and Ecology Activity, Dengue Branch, Centers for Disease Control and Prevention, 1324 Calle Cañada, San Juan, Puerto Rico.

出版信息

Parasit Vectors. 2013 Aug 6;6(1):225. doi: 10.1186/1756-3305-6-225.

DOI:10.1186/1756-3305-6-225

PMID:23919568

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3750875/

Abstract

BACKGROUND

Limited success has been achieved using traditional vector control methods to prevent the transmission of dengue viruses. Integrated control programs incorporating alternative tools, such as gravid ovitraps (lethal ovitraps and sticky ovitraps) may provide greater potential for monitoring and reducing vector populations and dengue virus transmission. We had developed an autocidal gravid ovitrap (AGO) as a simple, low-cost device for surveillance and control of Ae. aegypti without the use of pesticides that does not require servicing for an extended period of time. The purpose of our study was to improve the efficacy and efficiency of this device.

METHODS

Competitive assays were performed in the laboratory and an outdoor cage to evaluate whether modifications to the structure and appearance of our original trap design (AGO-A), and the addition of an olfactory bait (hay infusion), improve trap function. The performance of a modified trap design (AGO-B) was then assessed and compared with conventional ovitraps in a series of field tests in San Juan City, Puerto Rico. Generalized linear mixed models were used to analyze adult Ae. aegypti capture data from the laboratory, outdoor cage and field experiments.

RESULTS

Increasing the size of the trap entrance, altering the color of trap components, and increasing the volume/surface area of the aqueous bait significantly improved the performance of the AGO in the outdoor cage. In a subsequent field comparison, captures of Ae. aegypti females were 3.7 fold greater in the improved trap (AGO-B), compared with the original design (AGO-A). An infusion bait produced "in situ" significantly improved capture rates of the improved trap under both semi-natural and field conditions. Semi-weekly collections of Ae. aegypti females in the AGO-B were significantly correlated with cumulative rainfall 8 to 28 days prior to sampling, whereas egg collections in paired conventional ovitraps were not. When vector abundance was low, the AGO-B provided greater sensitivity and precision as a surveillance device, compared with paired conventional ovitraps.

CONCLUSIONS

The AGO-B can be used to efficiently attract and capture gravid Ae. aegypti females for more than 8 weeks without the need for trap maintenance.

摘要

背景

传统的病媒控制方法在预防登革热病毒传播方面取得的成效有限。结合替代工具的综合控制方案，如带卵诱捕器（致死性带卵诱捕器和粘性带卵诱捕器），可能为监测和减少病媒种群和登革热病毒传播提供更大的潜力。我们开发了一种自杀性带卵诱捕器（AGO），作为一种简单、低成本的监测和控制埃及伊蚊的工具，无需使用农药，而且不需要长时间维护。我们研究的目的是提高该装置的功效和效率。

方法

在实验室和户外笼中进行竞争试验，以评估对我们原始诱捕器设计（AGO-A）的结构和外观的修改以及添加嗅觉诱饵（马草料浸液）是否可以改善诱捕器的功能。然后，评估了一种改良的诱捕器设计（AGO-B）的性能，并在波多黎各圣胡安市进行了一系列现场试验，将其与传统的带卵诱捕器进行了比较。使用广义线性混合模型分析了来自实验室、户外笼和现场试验的埃及伊蚊成虫捕获数据。

结果

增加诱捕器入口的大小、改变诱捕器组件的颜色以及增加水基诱饵的体积/表面积，显著提高了 AGO 在户外笼中的性能。在随后的现场比较中，改良的诱捕器（AGO-B）捕获的埃及伊蚊雌蚊数量是原始设计（AGO-A）的 3.7 倍。“原位”产生的马草料浸液诱饵显著提高了改良诱捕器在半自然和现场条件下的捕获率。在 AGO-B 中，每半周收集的埃及伊蚊雌蚊与采样前 8 至 28 天的累积降雨量呈显著相关，而配对的传统带卵诱捕器中的卵收集则没有。当蚊媒数量较少时，与配对的传统带卵诱捕器相比，AGO-B 作为监测工具具有更高的灵敏度和精度。

结论

AGO-B 可用于高效吸引和捕获带卵的埃及伊蚊雌蚊，持续时间超过 8 周，无需进行诱捕器维护。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b459/3750875/dfb141e37ef9/1756-3305-6-225-1.jpg

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一种改良的自杀死卵诱捕器，用于控制和监测埃及伊蚊。

An improved autocidal gravid ovitrap for the control and surveillance of Aedes aegypti.

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