Demographic population cycles and ℛ0 in discretetime epidemic models

Date

2018

Authors

van den Driessche, P.
Yakubu, Abdul-Aziz

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Journal ISSN

Volume Title

Publisher

Journal of Biological Dynamics

Abstract

We use a general autonomous discrete-time infectious disease model to extend the next generation matrix approach for calculating the basic reproduction number, R0, to account for populations with locally asymptotically stable period k cycles in the disease-free systems, where k≥1. When R0<1 and the demographic equation (in the absence of the disease) has a locally asymptotically stable period k population cycle, we prove the local asymptotic stability of the disease-free period k cycle. That is, the disease goes extinct whenever R0<1. Under the same period k demographic assumption but with R0>1, we prove that the disease-free period k population cycle is unstable and the disease persists. Using the Ricker recruitment function, we apply our results to discrete-time infectious disease models that are formulated for Susceptible-Infectious-Recovered (SIR) infections with and without vaccination, and Infectious Salmon Anemia Virus (ISAv) infections in a salmon population. When R0>1, our simulations show that the disease-free period k cycle dynamics drives the SIR disease dynamics, but not the ISAv disease dynamics.

Description

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Citation

van den Driessche, P. & Yakubu, A. (2018). Demographic population cycles and ℛ0 in discrete-time epidemic models. Journal of Biological Dynamics, 13(1), 179-200. https://doi.org/10.1080/17513758.2018.1537449