Repulsive chemotaxis and predator evasion in predator prey models with diffusion and prey taxis
| Autor: | Mishra, Purnedu, Wrzosek, Dariusz |
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| Rok vydání: | 2021 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | The role of predator evasion mediated by chemical signaling is studied in a diffusive prey-predator model when prey-taxis is taken into account (model A) or not (model B) with taxis strength coefficients $\chi$ and $\xi$ respectively. In the kinetic part of the models it is assumed that the rate of prey consumption includes functional responses of Holling, Bedington-DeAngelis or Crowley-Martin. Existence of global-in-time classical solutions to model A is proved in space dimension n=1 while to model B for any $n\geq 1$. The Crowley-Martin response combined with bounded rate of signal production precludes blow-up of solution in model A for $n\leq 3$. Local and global stability of a constant coexistence steady state which is stable for ODE and purely diffusive model are studied along with mechanism of Hopf bifurcation for Model B when $\chi$ exceeds some critical value. In model A it is shown that prey taxis may destabilize the coexistence steady state provided $\chi$ and $\xi$ are big enough. Numerical simulation depicts emergence of complex space-time patterns for both models and indicate existence of solutions to model A which blow-up in finite time for $n=2$ Comment: Na |
| Databáze: | arXiv |
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