A generalized Poisson model to predict host-seeking female Aedes aegypti marked by dusted Metarhizium anisopliae-exposed males.

IF 1.4 3区农林科学 Q2 ENTOMOLOGY

Journal of Vector Ecology Pub Date : 2023-06-01 DOI:10.52707/1081-1710-48.1.52

Filiberto Reyes-Villanueva, Javier A Garza-Hernández, Annabel F V Howard, Mario A Rodríguez-Pérez

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Abstract

We developed a biological control method directed toward Aedes aegypti using the release of Metarhizium anisopliae-contaminated males to spread the fungus to wild females. A generalized Poisson model was used to relate Ae. aegypti marked females (MKF) to M. anisopliae-exposed males (FEM). In a mark-recapture parallel arm trial, FEM release was a better predictor than unexposed male (UM) releases to forecast MKF by FEM. Total females (TF), marked males (MKM), and wild males (WM) as predictors were counted in human-landings in 15 households treated with 40 FEM each, vs 40 UM released/household/week in 15 households for eight weeks. Fit of MKF to standard, generalized Poisson (GP), and negative binomial models/arm built by TF, MKM, WM, and interactions as predictors were computed. In both arms, MKF was better modeled by GP, which in treated, all but one of the eight observed data fell within the confidence intervals predicted by the model. However, the control GP had two outliers and MKM as a single predictor. Likewise, the pseudo-R² measures of 95% and 46% for treated and control groups also showed that the GP with FEM was more suitable to predict MKF. It should thus be possible to use the GP model to indirectly estimate that an increase of one TF or one fungus-exposed male would increase the number of marked-females by 8% or 9%, respectively, while wild males were an irrelevant predictor to the model.

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用广义泊松模型预测以暴露于绿僵菌的雄性为标志的寻找寄主的雌性埃及伊蚊。

本研究开发了一种针对埃及伊蚊的生物防治方法，即释放被绿僵菌污染的雄蚊，使其向野生雌蚊传播真菌。一个广义泊松模型被用来描述Ae。埃及伊蚊标记雌蚊(MKF)与暴露于绿僵菌的雄蚊(FEM)。在标记-再捕获平行臂试验中，FEM释放比未暴露男性(UM)释放更好地预测FEM预测MKF。作为预测因子的总雌性(TF)、标记雄性(MKM)和野生雄性(WM)在15个家庭中被计算为人类登陆，每个家庭使用40个FEM，而15个家庭在8周内每户/周释放40个UM。计算MKF与标准、广义泊松(GP)和由TF、MKM、WM和相互作用作为预测因子建立的负二项模型/臂的拟合。在两组中，MKF用GP更好地建模，在治疗中，8个观察到的数据中除了一个之外都落在模型预测的置信区间内。然而，对照GP有两个异常值，MKM作为单一预测因子。同样，治疗组和对照组的伪r2测量值分别为95%和46%，也表明GP与FEM更适合预测MKF。因此，应该可以使用GP模型间接估计，增加一个TF或一个真菌暴露的雄性会使标记雌性的数量分别增加8%或9%，而野生雄性对模型来说是一个无关的预测因子。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Vector Ecology 生物-昆虫学

CiteScore

2.60

自引率

5.90%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Vector Ecology is an international journal published by the Society for Vector Ecology. It is concerned with all aspects of the biology, ecology, and control of arthropod and vertebrate vectors and the interrelationships between the vectors and the agents of disease that they transmit. The journal publishes original research articles and scientific notes, as well as comprehensive reviews of vector biology based on presentations at Society meetings. All papers are reviewed by at least two qualified scientists who recommend their suitability for publication. Acceptance of manuscripts is based on their scientific merit and is the final decision of the editor, but these decisions may be appealed to the editorial board. The journal began publishing in 1974 and now publishes on-line only.