Hopf bifurcation and stability analysis of a delay differential equation model for biodegradation of a class of microcystins

Abstract

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In this paper, a delay differential equation model is investigated, which describes the biodegradation of microcystins (MCs) by Sphingomonas sp. and its degrading enzymes. First, the local stability of the positive equilibrium and the existence of the Hopf bifurcation are obtained. Second, the global attractivity of the positive equilibrium is obtained by constructing suitable Lyapunov functionals, which implies that the biodegradation of microcystins is sustainable under appropriate conditions. In addition, some numerical simulations of the model are carried out to illustrate the theoretical results. Finally, the parameters of the model are determined from the experimental data and fitted to the data. The results show that the trajectories of the model fit well with the trend of the experimental data.

Keywords

• microcystins
• sphingomonas sp.
• enzyme
• biodegradation
• delay differential equations
• hopf bifurcation
• lyapunov functional