Combined impacts of predation mutualism and dispersal on the dynamics of a four-species ecological system

Aliyu Murtala Bello, . and Mohd Hafiz Mohd, . Combined impacts of predation mutualism and dispersal on the dynamics of a four-species ecological system. pp. 233-249. ISSN 2231-8526

Multi-species and ecosystem models have provided ecologist with an excellent opportunity to study the effects of multiple biotic interactions in an ecological system. Predation and mutualism are among the most prevalent biotic interactions in the multi-species system. Several ecological studies exist but they are based on one-or two-species interactions and in real life multiple interactions are natural characteristics of a multi-species community. Here we use a system of partial differential equations to study the combined effects of predation mutualism and dispersal on the multi-species coexistence and community stability in the ecological system. Our results show that predation provided a defensive mechanism against the negative consequences of the multiple species interactions by reducing the net effect of competition. Predation is critical in the stability and coexistence of the multi-species community. The combined effects of predation and dispersal enhance the multiple species coexistence and persistence. Dispersal exerts a positive effect on the system by supporting multiple species coexistence and stability of community structures. Dispersal process also reduces the adverse effects associated with multiple species interactions. Additionally mutualism induces oscillatory behaviour on the system through Hopf bifurcation. The roles of mutualism also support multiple species coexistence mechanisms (for some threshold values) by increasing the stable coexistence and the stable limit cycle regions. We discover that the stability and coexistence mechanisms are controlled by the transcritical and Hopf bifurcation that occurs in this system. Most importantly our results show the important influences of predation mutualism and dispersal in the stability and coexistence of the multi-species communities.

Full text available from: Official URL: http://www.pertanika.upm.edu.my/resources/files/Pe...

Abstract

Multi-species and ecosystem models have provided ecologist with an excellent opportunity to study the effects of multiple biotic interactions in an ecological system. Predation and mutualism are among the most prevalent biotic interactions in the multi-species system. Several ecological studies exist but they are based on one-or two-species interactions and in real life multiple interactions are natural characteristics of a multi-species community. Here we use a system of partial differential equations to study the combined effects of predation mutualism and dispersal on the multi-species coexistence and community stability in the ecological system. Our results show that predation provided a defensive mechanism against the negative consequences of the multiple species interactions by reducing the net effect of competition. Predation is critical in the stability and coexistence of the multi-species community. The combined effects of predation and dispersal enhance the multiple species coexistence and persistence. Dispersal exerts a positive effect on the system by supporting multiple species coexistence and stability of community structures. Dispersal process also reduces the adverse effects associated with multiple species interactions. Additionally mutualism induces oscillatory behaviour on the system through Hopf bifurcation. The roles of mutualism also support multiple species coexistence mechanisms (for some threshold values) by increasing the stable coexistence and the stable limit cycle regions. We discover that the stability and coexistence mechanisms are controlled by the transcritical and Hopf bifurcation that occurs in this system. Most importantly our results show the important influences of predation mutualism and dispersal in the stability and coexistence of the multi-species communities.

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Item Type:	Article
AGROVOC Term:	Predation
AGROVOC Term:	Species
AGROVOC Term:	Ecosystems
AGROVOC Term:	Models
AGROVOC Term:	Mathematical models
AGROVOC Term:	Population density
AGROVOC Term:	Biodiversity
AGROVOC Term:	Stability
AGROVOC Term:	Population dynamics
Depositing User:	Mr. AFANDI ABDUL MALEK
Last Modified:	24 Apr 2025 00:55
URI:	http://webagris.upm.edu.my/id/eprint/9516

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