Mathematical Modelling of the Population Dynamics of Two- Prey and One- Predator Systems at the Human-Livestock-Wildlife Interface
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Date
2019
Journal Title
Journal ISSN
Volume Title
Publisher
EC Veterinary Sciencem
Abstract
Understanding the population dynamics at the human-livestock-wildlife interface is key to managing zoonotic and cross-species
diseases as well as maintaining ecosystem biodiversity at this interface. This necessitates elucidation of the effects of within and
between species interactions and human activities such as farming and animal harvesting among others.
Keywords: Prey-Predator Systems; Predation; Population Dynamics; Ecological Modelling; Harvesting Threshold
In this study, a mathematical model was developed and analyzed to study the dynamics of two- prey (Uganda-kobs (kobus kob
thomasi) and the buffaloes (Syncerus caffer)) and one-predator (the lions (Panthera leo)) system at the human-livestock-wildlife interface.
The model was analysed qualitatively for equilibrium points and their stability and, upon parametrization based on data in
literature, numerical simulations were performed.
Our findings re-echoed/re-emphasized that, for co-existence of the three species, the rate of human harvesting of kobus kob
thomasi needed to be maintained below the species’ intrinsic growth rate. Existence of such a critical harvesting threshold was demonstrated
and any harvesting rate exceeding that threshold would lead to ultimate extinction of both the kobus kob thomasi and the
Panthera leo. Our findings further revealed that, for their long-term survival, the predator needs not to focus only on the easy-to-catch
prey but use a balanced approach to ensure continued survival of both prey species.
We conclude that, given the field data limitations, our findings are rather preliminary and more of a basis for future studies
geared towards improving management of ecosystems involving interacting species. Most importantly, this study demonstrates that
mathematical models can play a significant role in tackling complex system dynamics to generate useful information to guide policy
decisions.
Description
Keywords
Prey-Predator Systems, Predation, Population Dynamics, Ecological Modelling, Harvesting Threshold
Citation
Ssematimba, A. (2019). Mathematical Modelling of the Population Dynamics of Two-Prey and One-Predator Systems at the Human-Livestock-Wildlife Interface. EC Veterinary Sciencem, 4, 311-321.
URI
https://www.researchgate.net/profile/Cliff-Kikawa/publication/334225083_Mathematical_Modelling_of_the_Population_Dynamics_of_Two-Prey_and_One-Predator_Systems_at_the_Human-Livestock-Wildlife_Interface/links/5d1daf7c92851cf4406319d3/Mathematical-Modelling-of-the-Population-Dynamics-of-Two-Prey-and-One-Predator-Systems-at-the-Human-Livestock-Wildlife-Interface.pdf
https://nru.uncst.go.ug/handle/123456789/6822
https://nru.uncst.go.ug/handle/123456789/6822