Your search keyword '"Wu, Jianhua"' showing total 3 results

1. Asymptotic behavior and stability of positive solutions to a spatially heterogeneous predator–prey system.

Author

Li, Shanbing and Wu, Jianhua

Subjects

*ASYMPTOTIC expansions, *ASYMPTOTIC theory of algebraic ideals, *DIFFERENTIAL equations, *NONLINEAR theories, *MATHEMATICAL analysis

Abstract

In this paper, we continue to study a spatially heterogeneous predator–prey system where the interaction is governed by a Holling type II functional response, which has been studied in Du and Shi (2007) [14] . We further study the asymptotic profile of positive solutions and give a complete understanding of coexistence region. Moreover, a good understanding of the number, stability and asymptotic behavior of positive solutions is gained for large m . Finally, we further compare the difference of steady-state solutions between m > 0 and m = 0 . It turns out that the spatial heterogeneity of the environment and the Holling type II functional response play a very important role in this model. [ABSTRACT FROM AUTHOR]

Published

2018

2. Positive solutions of a competition model for two resources in the unstirred chemostat

Author

Nie, Hua and Wu, Jianhua

Subjects

*ECOLOGICAL models, *CHEMOSTAT, *MULTIPLICITY (Mathematics), *FIXED point theory, *MONOTONE operators, *MATHEMATICAL analysis

Abstract

Abstract: This paper deals with a competition model between two species for two growth-limiting and perfectly complementary resources in the unstirred chemostat. The main purpose is to determine the exact range of the parameters of two species so that the system possesses positive solutions, and to investigate multiple positive steady states of the system. The main tools used here include the monotone methods and the topological fixed point theory developed by Amann. [Copyright &y& Elsevier]

Published

2009

3. Asymptotic behavior of an unstirred chemostat model with internal inhibitor

Author

Nie, Hua and Wu, Jianhua

Subjects

*PERTURBATION theory, *CHEMOSTAT, *MATHEMATICAL analysis

Abstract

Abstract: This paper deals with a chemostat model with an internal inhibitor. First, the elementary stability and asymptotic behavior of solutions of the system are determined. Second, the effects of the inhibitor are considered. It turns out that the parameter μ, which measures the effect of the inhibitor, plays a very important role in deciding the stability and longtime behavior of solutions of the system. The results show that if μ is sufficiently large, this model has no coexistence solution and one of the semitrivial equilibria is a global attractor when the maximal growth rate a of the species u lies in certain range; but when a belongs to another range, all positive solutions of this model are governed by a limit problem, and two semitrivial equilibria are bistable. The main tools used here include monotone system theory, degree theory, bifurcation theory and perturbation technique. [Copyright &y& Elsevier]

Published

2007