| Volume 6, Number 3, 2016, Pages 865-875 DOI:10.11948/2016055 |
| Global dynamics analysis of a nonlinear impulsive stochastic chemostat system in a polluted environment |
| Xinzhu Meng,Lu Wang,Tonghua Zhang |
| Keywords:Stochastic chemostat model, impulsive stochastic differential equations, extinction, permanence in mean, saturated growth rate. |
| Abstract: |
| This paper intends to develop a new method to obtain the threshold of an impulsive stochastic chemostat model with saturated growth rate in a polluted environment. By using the theory of impulsive differential equations and stochastic differential equations, we obtain conditions for the extinction and the permanence of the microorganisms of the deterministic chemostat model and the stochastic chemostat model. We develop a new numerical computation method for impulsive stochastic differential system to simulate and illustrate our theoretical conclusions. The biological results show that a small stochastic disturbance can cause the microorganism to die out, that is, a permanent deterministic system can go to extinction under the white noise stochastic disturbance. The theoretical method can also be used to explore the threshold of some impulsive stochastic differential equations. |
PDF Download reader
|
|
|
|