关于具有成本效益的病虫-天敌系统的易感成熟害虫优化控制

Kunwer Singh Mathur, Bhagwan Kumar
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引用次数: 0

摘要

本文探讨了印度虫害爆发这一紧迫问题,它给农民和生态学家带来了重大挑战。文章提出了一种利用天敌进行有效控制的新型系统。在这里,害虫被分为幼虫和成熟个体,并进一步分为易感虫和已感染虫。该研究在一个害虫流行的捕食者-捕食者系统中引入了收获,其中包含外部努力和自然现象,具有捕食阶段结构。该模型揭示了三种平衡态:微不足道的平衡态、边界平衡态(表示没有天敌)和内部平衡态。值得注意的是,微不足道的平衡始终是不稳定的。稳定性分析表明,天敌的生存或灭绝取决于控制变量,包括收获率、疾病传播率和自然死亡率。局部稳定性采用 Routh-Hurwitz 准则进行评估,而全局稳定性则采用 Lyapunov 方法进行探讨。此外,最优控制理论和庞特里亚金最大原则被应用于模型优化,揭示了关键的最优性条件,并确定了易感成熟猎物的最优捕获率。数值计算验证了理论观点,为制定政策提供了宝贵的指导,这些政策可优化病虫害诱发的害虫-天敌系统中易感成虫的控制,确保持续的成本效益。
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Optimal control of susceptible mature pest concerning disease-induced pest-natural enemy system with cost-effectiveness
This article addresses the pressing issue of pest outbreaks in India, which poses significant challenges for farmers and ecologists. A novel system is proposed for effective control that leverages natural enemies. Here, the pests are classified into juveniles and mature individuals, further categorized as susceptible or infected. The study introduces harvesting, incorporating external efforts and natural phenomena, in a pest-epidemic prey–predator system featuring a prey-stage structure. The model reveals three equilibria: trivial, boundary (indicating the absence of natural enemies), and interior equilibria. Notably, the trivial equilibrium is consistently unstable. As demonstrated by stability analysis, the survival or extinction of natural enemies hinges on control variables, including the harvesting rate, disease transmission rate, and natural death rate. Local stability is assessed using the Routh–Hurwitz criterion, while global stability is explored through the Lyapunov method. Furthermore, optimal control theory and Pontryagin’s maximum principle are applied for model optimization, unveiling crucial optimality conditions and determining the optimal harvesting rate for susceptible mature prey. Numerical computations validate theoretical insights, offering valuable guidance for formulating policies that optimize the control of susceptible adult pests within a disease-induced pest-natural enemy system, ensuring sustained cost-effectiveness.
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来源期刊
Computational and Mathematical Biophysics
Computational and Mathematical Biophysics Mathematics-Mathematical Physics
CiteScore
2.50
自引率
0.00%
发文量
8
审稿时长
30 weeks
期刊最新文献
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