Dynamical analysis of a diffusive population-toxicant model with toxicant-taxis in polluted aquatic environments

Math Biosci. 2024 Apr 22:109193. doi: 10.1016/j.mbs.2024.109193. Online ahead of print.ABSTRACTThis paper deals with a diffusive population-toxicant model in polluted aquatic environments, with a toxicant-taxis term describing a toxicant-induced behavior change, that is, the population tends to move away from locations with high-level toxicants. The global existence of solutions is established by the techniques of the semigroup estimation and Moser iteration. Based on a detailed study on the properties of the principal eigenvalue for non-self-adjoint eigenvalue problems, we investigated the local and global stability of the toxin-only steady-state solution and the existence of positive steady state, which yields sufficient conditions that lead to population persistence or extinction. Finally, by numerical simulations, we studied the effects of some key parameters, such as toxicant-taxis coefficient, advection rate, and effect coefficient of the toxicant on population growth, on population persistence. Both numerical and analytical results show that a weak chemotaxis effect, a small advection rate of the population, and a weak effect of the toxicant on population growth are favorable for population persistence.PMID:38657944 | DOI:10.1016/j.mbs.2024.109193
Source: Mathematical Biosciences - Category: Statistics Authors: Source Type: research