On the Effect of Lowering Population’s Movement to Control the Spread of an Infectious Disease

Authors

Keoni Castellano, University of Nevada, Las Vegas
Rachidi B. Salako, University of Nevada, Las VegasFollow

Document Type

Article

Publication Date

4-15-2022

Publication Title

Journal of Differential Equations

Volume

316

First page number:

1

Last page number:

27

Abstract

We study the asymptotic behavior of endemic equilibrium solutions of a diffusive epidemic model in spatially heterogeneous environment when the diffusion rates dS of the susceptible and dI of the infected groups approach zero. Our results indicate that when dI and dS are sufficiently small, the size of [Formula presented] plays a crucial role in the dynamics of the disease in the sense that: (i) if [Formula presented] is small, the disease may persist and the total size of the infected group will be maximized; (ii) if [Formula presented] is large, then the total size of the susceptible group is maximized while the total size of the infected group is minimized. Hence, our results suggest that lowering the movement rate of the population in an attempt to limit infection is an effective control strategy if the susceptible hosts' movement rate is kept sufficiently smaller than that of the infected individuals.

Keywords

Asymptotic profiles; Endemic equilibrium; Infectious disease; Reaction-diffusion

Disciplines

Demography, Population, and Ecology | Immunology and Infectious Disease

Repository Citation

Castellano, K., Salako, R. B. (2022). On the Effect of Lowering Population’s Movement to Control the Spread of an Infectious Disease. Journal of Differential Equations, 316 1-27.
http://dx.doi.org/10.1016/j.jde.2022.01.031