A fractional mathematical modeling of protectant and curative fungicide application

Pushpendra Kumar , Vedat Suat Erturk , V. Govindaraj , Sunil Kumar
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引用次数: 0

Abstract

Fungicides are consumed to foreclose or slow the epidemics of disease germ by fungi. Crop cultivation is a favorable business platform for farmers, but it is also very common for them to have losses. These losses happen by attacking pathogens, such as fungi, oomycetes (water fungi), viruses, bacteria, nematodes, and viroid that spread the infection into the plants. In this article, we derive a fractional mathematical model for simulating the dynamics of fungicide application via Caputo-Fabrizio fractional derivative. Caputo-Fabrizio operator is defined with non-singular type kernel which is better than singular kernel. We give some important proofs related to the existence of a unique solution of the given model. We derive the solution of the model by using the Adams-Bashforth algorithm and also mentioned the stability of the method. We plotted the number of graphs at different fungicide application rate, fungicide decay rate, fungicide effectiveness, curatives rate of fungicide, growth rate of the host, and removal rate. A complete structure of the given problem can be understood by this paper. The main novelty of this work is to understand the role of fungicide application in the disease caused by fungi with the help of fractional derivatives consisting memory effects.

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保护剂和治疗性杀菌剂应用的分数数学模型
杀菌剂的作用是防止或减缓真菌对病菌的传播。农作物种植对农民来说是一个有利的经营平台,但也经常出现亏损。这些损失是通过攻击病原体发生的,如真菌、卵菌(水真菌)、病毒、细菌、线虫和将感染传播到植物中的类病毒。本文利用Caputo-Fabrizio分数阶导数,推导了一个用于模拟杀菌剂施用动态的分数阶数学模型。Caputo-Fabrizio算子具有优于奇异核的非奇异型核。给出了该模型唯一解存在性的几个重要证明。利用Adams-Bashforth算法推导了该模型的解,并指出了该方法的稳定性。我们绘制了不同杀菌剂施用量、杀菌剂衰减率、杀菌剂有效性、杀菌剂治愈率、寄主生长率和去除率下的图数。通过本文可以理解给定问题的完整结构。这项工作的主要新颖之处在于利用分数衍生物的记忆效应来理解杀菌剂在真菌引起的疾病中的作用。
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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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