Random dispersal in a predator-prey-parasite system

Authors

Sophia R.-J. Jang, Texas Tech University
James Baglama, University of Rhode Island
Li Wu, University of Rhode Island

Document Type

Article

Date of Original Version

12-1-2010

Abstract

We propose predator-prey-parasite models to study the effects of parasites upon the predator-prey interaction. There are two parameters that are used to model the effectiveness of the infected prey and infected predator. For the spatial homogeneous system, the asymptotic dynamics depend on the reproductive number of the parasite. The parasite can persist in the population if this reproductive number is larger than one. Numerical simulations suggest that less competitiveness of the infected predator can make the predator-prey interaction less stable. The dynamics may move from coexisting steady state to oscillations. For the spatial heterogeneous system, diffusion may destabilize the homogeneous interior steady state for a particular set of diffusion coefficients. However, both systems do not exhibit complicated dynamical behavior. © 2010 World Scientific Publishing Company.

Publication Title, e.g., Journal

Journal of Biological Systems

Volume

18

Issue

4

Citation/Publisher Attribution

Jang, Sophia R., James Baglama, and Li Wu. "Random dispersal in a predator-prey-parasite system." Journal of Biological Systems 18, 4 (2010): 825-845. doi: 10.1142/S0218339010003536.