STABILITY ANALYSIS OF A TRITROPHIC FOOD CHAIN MODEL WITH AN ADAPTIVE PARAMETER FOR THE PREDATOR |
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Authors: | JEAN M TCHUENCHE CHRISTINAH CHIYAKA |
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Institution: | 1. Mathematics Department, University of Dar es SalaamP.O.Box 35062, Dar es Salaam, TanzaniaE‐mail: jmt_biomaths@yahoo.co.uk;2. Department of Applied MathematicsNational University of Science and TechnologyP.O. Box AC 939 AscotBulawayo, ZimbabweE‐mail: chrischiyaka@gmail.com |
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Abstract: | Abstract The study of three‐species communities have become the focus of considerable attention, and because the studies of ecological communities start with their food web, we consider a tritrophic food chain model comprised of the prey, the predator, and the super‐predator. The classical assumption of the domino effect is supplemented with an adaptive parameter for the predator (in the absence of prey). Thus, the model exhibits an equilibrium with the predator‐top‐predator steady state, which is a saddle point. Dynamical behaviors such as boundedness, existence of periodic orbits, persistence, as well as stability are analyzed. The long‐term coexistence of the three interacting species is addressed, and the stability analysis of the model shows that the biologically most relevant equilibrium point is globally asymptotically stable whenever it satisfies a certain criterion. Practical implications are explored and related to real populations. |
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Keywords: | Tritrophic food chain model predator adaptation parameter boundedness permanence stability |
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