ABSTRACT
Predator-prey models describe the interaction between two species, the prey which
serves as a food source to the predator. The migration of the prey for safety reasons
after a predator attack and the predator in search of food, from a patch to another
may not be instantaneous. This may be due to barriers such as a swollen river or
a busy infrastructure through the natural habitat. Recent predator-prey models
have either incorporated a logistic growth for the prey population or a time delay
in migration of the two species. Predator-prey models with logistic growth that
integrate time delays in migration of both species have been given little attention. In
this study, a logistic predator-prey model integrating a time delay in the migration of
both species is developed and analyzed. The developed model was solved using two
invariant manifolds; the symmetric manifold and the asymmetric manifold. Analysis
of the model shows that when the prey growth rate is less than or equal to the
prey migration rate, the two species coexist, otherwise both species become extinct.
Numerical simulations show that during migration of the species, a longer time delay
makes the model to stabilize at a slower rate compared to when the time delay is
shorter. It is also shown that the prey migration due to the predator density does not
greatly aect the prey density and existence compared to factors, such as logging,
bad climatic conditions and limited food resources in a patch, that cause the prey
to migrate. In the interest of species conservation, policies should be developed and
enacted which address factors which prolong time delays during migration of the
species by minimizing human activities and settlement in natural habitat.
Apima, S (2021). Predator-Prey Model With Logistic Growth For Constantand Density-Dependent Delayed Migration. Afribary. Retrieved from https://track.afribary.com/works/predator-prey-model-with-logistic-growth-for-constantand-density-dependent-delayed-migration
Apima, Samuel "Predator-Prey Model With Logistic Growth For Constantand Density-Dependent Delayed Migration" Afribary. Afribary, 08 May. 2021, https://track.afribary.com/works/predator-prey-model-with-logistic-growth-for-constantand-density-dependent-delayed-migration. Accessed 27 Nov. 2024.
Apima, Samuel . "Predator-Prey Model With Logistic Growth For Constantand Density-Dependent Delayed Migration". Afribary, Afribary, 08 May. 2021. Web. 27 Nov. 2024. < https://track.afribary.com/works/predator-prey-model-with-logistic-growth-for-constantand-density-dependent-delayed-migration >.
Apima, Samuel . "Predator-Prey Model With Logistic Growth For Constantand Density-Dependent Delayed Migration" Afribary (2021). Accessed November 27, 2024. https://track.afribary.com/works/predator-prey-model-with-logistic-growth-for-constantand-density-dependent-delayed-migration