Predator-prey-subsidy population dynamics on stepping-stone domains with dispersal delays

We examine the role of the travel time of a predator along a spatial network on predator-prey population interactions, where the predator is able to partially or fully sustain itself on a resource subsidy. The impact of access to food resources on the stability and behaviour of the predator-prey-sub...

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Bibliographic Details
Published in:Journal of Theoretical Biology
Main Authors: Eide, Ragna M., Krause, Andrew L., Fadai, Nabil T., Van Gorder, Robert A.
Format: Article in Journal/Newspaper
Language:unknown
Published: Elsevier 2018
Subjects:
Arctic
Arctic Fox
Sea ice
Online Access:https://doi.org/10.1016/j.jtbi.2018.04.038
https://nottingham-repository.worktribe.com/file/4531457/1/PPSDelay
https://nottingham-repository.worktribe.com/output/4531457
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Summary:We examine the role of the travel time of a predator along a spatial network on predator-prey population interactions, where the predator is able to partially or fully sustain itself on a resource subsidy. The impact of access to food resources on the stability and behaviour of the predator-prey-subsidy system is investigated, with a primary focus on how incorporating travel time changes the dynamics. The population interactions are modelled by a system of delay differential equations, where travel time is incorporated as discrete delay in the network diffusion term in order to model time taken to migrate between spatial regions. The model is motivated by the Arctic ecosystem, where the Arctic fox consumes both hunted lemming and scavenged seal carcass. The fox travels out on sea ice, in addition to quadrennially migrating over substantial distances. We model the spatial predator-prey-subsidy dynamics through a “stepping-stone” approach. We find that a temporal delay alone does not push species into extinction, but rather may stabilize or destabilize coexistence equilibria. We are able to show that delay can stabilize quasi-periodic or chaotic dynamics, and conclude that the incorporation of dispersal delay has a regularizing effect on dynamics, suggesting that dispersal delay can be proposed as a solution to the paradox of enrichment.

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