甘蓝生物量中木虱侵染动态的参数估计、全局敏感性分析和模型拟合

Daniel Paul , Maranya Makuru Mayengo , Salamida Daudi
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引用次数: 0

摘要

木虱(Plutella xylostella)俗称钻心虫(DBM),原产于欧洲,是一种破坏性极强、传播迅速的农业害虫。这种害虫对全球粮食安全构成重大威胁,据估计,金刚夜蛾的周期性爆发导致全球每年农作物损失高达 40 亿至 50 亿美元。鉴于可能造成如此巨大的损失,采用各种方法和技术来了解影响金刚夜蛾与卷心菜植物之间相互作用的因素,进而影响卷心菜的生物量至关重要。在本文中,我们提出了一个确定性生态模型,以捕捉小菜蛾在小白菜生物量中的侵染动态。该模型是根据害虫的生命周期阶段设计的,旨在有效地针对特定阶段进行防治。合成数据采用最小平方算法生成,通过在现有文献的数值中加入高斯噪声来模拟现实世界的数据。通过拉丁超立方取样进行了全局敏感性分析,结果表明ψ、αE 和 δ 等参数的重要性对卷心菜生物量中钻心虫的生长有积极影响。鉴于这些发现,本研究建议应专门针对这些敏感参数采取控制策略。这样做既能减少害虫数量,又能提高甘蓝产量。
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Parameters estimation, global sensitivity analysis and model fitting for the dynamics of Plutella xylostella infestations in a cabbage biomass

Plutella xylostella, commonly called Diamondback moth (DBM), a highly destructive and rapidly spreading agricultural pest originally from Europe. This pest poses a significant threat to global food security, with estimates suggesting that periodic outbreaks of Diamondback moth lead to annual crop losses of up to $US 45 billion worldwide. Given the potential for such substantial losses, it is crucial to employ various methods and techniques to understand the factors affecting the interaction between Diamondback moths and cabbage plants, which, in turn, impact cabbage biomass. In this paper, we propose a deterministic ecological model to capture the dynamics of Plutella xylostella infestations in cabbage biomass. The model is designed based on the life cycle stages of the pest, aiming at targeting the specific stage effectively. The synthetic data is generated using Least Square Algorithm through addition of Gaussian noise into numerically obtained values from existing literature to simulate real-world data. Global sensitivity analysis was done through Latin Hypercube sampling, highlights the significance of parameters such as ψ,αE and δ positively influence the growth of the diamondback moth in a cabbage biomass. In light of these findings, the study proposes that control strategies should be specifically directed towards these sensitive parameters. By doing so, we mitigate the pest population and enhance cabbage production.

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来源期刊
Chaos, Solitons and Fractals: X
Chaos, Solitons and Fractals: X Mathematics-Mathematics (all)
CiteScore
5.00
自引率
0.00%
发文量
15
审稿时长
20 weeks
期刊最新文献
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