Abstract
Fall armyworm (Spodoptera frugiperda), a highly destructive and fast spreading agricultural pest native to North and South America, poses a real threat to global food security. In this paper, to explore the dynamics and implications of fall armyworm outbreak in a field of maize biomass, we propose a new dynamical system for maize biomass and fall armyworm interaction via Caputo fractional-order operator, which is not only a nonlocal operator but also contains all characteristics concerned with memory of the dynamical system. We define the basic reproduction number, which represents the average number of newborns produced by one individual female moth during its life span. We establish that the basic reproduction number is a threshold quantity, which determines persistence and extinction of the pest. Finally, we simulate the Caputo system using the Adam–Bashforth–Moulton method to illustrate the main results.
Highlights
Fall armyworm (FAW), Spodoptera frugiperda, a highly destructive and fast spreading agricultural pest native to North and South America, poses a real threat to global food security
The FAW has six larval instar stages, we have considered this as a single group to reduce complexity of the model
3 Model formulation and analysis 3.1 Model formulation A fractional-order model we introduce consists of two populations, maize biomass and the FAW population, where one of the populations is a stage-structured giving a total of five populations
Summary
Fall armyworm (FAW), Spodoptera frugiperda, a highly destructive and fast spreading agricultural pest native to North and South America, poses a real threat to global food security. The following equation summarizes the population dynamics of the adult FAW: caDqt A(t) = αPqP – μqA + uqA A, (2021) 2021:99
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