Stochastic analysis of a full system of two competing populations in a chemostat

Abstract: This paper formulates two 3D stochastic differential equations (SDEs) of two microbial populations in a chemostat competing over a single substrate. The two models have two distinct noise sources. One is general noise whereas the other is dilution rate induced noise. Nonlinear Monod growth rates are assumed and the paper is mainly focused on the parameter values where coexistence is present deterministically. Nondimensionalising the equations around the point of intersection of the two growth rates leads to a … Show more

“…Zhao et al [34] discussed on a stochastic competition system and derived sufficient conditions of persistence and stationary distribution for each population. Actually, a great number of stochastic competition models have been studied [35][36][37][38][39][40].…”

Dynamical Analysis of a Stochastic Multispecies Turbidostat Model

“…Zhao et al [34] discussed on a stochastic competition system and derived sufficient conditions of persistence and stationary distribution for each population. Actually, a great number of stochastic competition models have been studied [35][36][37][38][39][40].…”

Dynamical Analysis of a Stochastic Multispecies Turbidostat Model

Noise-induced bifurcations in the stochastic chemostat model with general nutrient uptake functions

Dynamics of a chemostat model with Ornstein–Uhlenbeck process and general response function