模拟降雨和温度对热带环境中昆虫不育控制策略的影响

IF 1.3 4区 数学 Q3 BIOLOGY Journal of Biological Systems Pub Date : 2024-01-05 DOI:10.1142/s0218339024500128
Y. DUMONT, M. DUPREZ
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引用次数: 0

摘要

昆虫不育技术(SIT)是一种生物控制技术,既可用于消灭野生蚊子种群,也可用于在给定阈值下使其衰减,以减少滋扰或流行病风险。在这项工作中,我们提出了一个考虑到降雨量和温度随时间变化的差分系统模型,并研究了它们对不育雄蚊释放策略的影响。我们的模型尽可能简单,以避免复杂性,同时能够捕捉到位于留尼汪岛的白纹伊蚊种群在经 SIT 处理的区域内的时间变化。主要目的是确定一年中哪个时期最适合开始 SIT 控制,以尽量缩短大规模释放的持续时间和释放不育雄蚊的数量,从而减少蚊虫滋扰或降低流行病风险。由于绝育并非百分之百有效,我们还研究了释放的不育雄蚊群体中不同水平的剩余生育力的影响。我们的研究表明,降雨量对蚊子的动态和 SIT 控制起着重要作用,从 7 月到 12 月是开始大规模 SIT 处理的最佳时期,残余繁殖力必须尽可能小,至少是为了减少滋扰。事实上,当主要目标是降低流行病学风险时,我们发现剩余生殖力并不一定是个问题。增加释放量并不总是有意义的。我们还强调了将 SIT 与机械控制(即清除繁殖地)相结合的重要性,尤其是在初始蚊虫数量较大时。最后但并非最不重要的一点是,我们的研究显示了建模方法的实用性,可以通过各种模拟来预测不育昆虫生产方面的问题和需求。
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MODELING THE IMPACT OF RAINFALL AND TEMPERATURE ON STERILE INSECT CONTROL STRATEGIES IN A TROPICAL ENVIRONMENT

The sterile insect technique (SIT) is a biological control technique that can be used either to eliminate or decay a wild mosquito population under a given threshold to reduce the nuisance or the epidemiological risk. In this work, we propose a model using a differential system that takes into account the variations of rainfall and temperature over time and study their impacts on sterile males’ releases strategies. Our model is as simple as possible to avoid complexity while being able to capture the temporal variations of an Aedes albopictus mosquito population in a domain treated by SIT, located in Réunion island. The main objective is to determine what period of the year is the most suitable to start a SIT control to minimize the duration of massive releases and the number of sterile males to release, either to reduce the mosquito nuisance, or to reduce the epidemiological risk. Since sterilization is not 100% efficient, we also study the impact of different levels of residual fertility within the released sterile males population. Our study shows that rainfall plays a major role in the dynamics of the mosquito and the SIT control, that the best period to start a massive SIT treatment lasts from July to December, that residual fertility has to be as small as possible, at least for nuisance reduction. Indeed, when the main objective is to reduce the epidemiological risk, we show that residual fertility is not necessarily an issue. Increasing the size of the releases is not always interesting. We also highlight the importance of combining SIT with mechanical control, i.e., the removal of breeding sites, in particular when the initial mosquito population is large. Last but not least our study shows the usefulness of the modeling approach to derive various simulations to anticipate issues and demand in terms of sterile insects’ production.

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来源期刊
CiteScore
2.80
自引率
12.50%
发文量
31
审稿时长
1 months
期刊介绍: The Journal of Biological Systems is published quarterly. The goal of the Journal is to promote interdisciplinary approaches in Biology and in Medicine, and the study of biological situations with a variety of tools, including mathematical and general systems methods. The Journal solicits original research papers and survey articles in areas that include (but are not limited to): Complex systems studies; isomorphies; nonlinear dynamics; entropy; mathematical tools and systems theories with applications in Biology and Medicine. Interdisciplinary approaches in Biology and Medicine; transfer of methods from one discipline to another; integration of biological levels, from atomic to molecular, macromolecular, cellular, and organic levels; animal biology; plant biology. Environmental studies; relationships between individuals, populations, communities and ecosystems; bioeconomics, management of renewable resources; hierarchy theory; integration of spatial and time scales. Evolutionary biology; co-evolutions; genetics and evolution; branching processes and phyllotaxis. Medical systems; physiology; cardiac modeling; computer models in Medicine; cancer research; epidemiology. Numerical simulations and computations; numerical study and analysis of biological data. Epistemology; history of science. The journal will also publish book reviews.
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