2022
DOI: 10.1098/rspa.2022.0013
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Interpreting how nonlinear diffusion affects the fate of bistable populations using a discrete modelling framework

Abstract: Understanding whether a population will survive or become extinct is a central question in population biology. One way of exploring this question is to study population dynamics using reaction–diffusion equations, where migration is usually represented as a linear diffusion term, and birth–death is represented with a nonlinear source term. While linear diffusion is most commonly employed to study migration, there are several limitations of this approach, such as the inability of linear diffusion-based models t… Show more

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Cited by 8 publications
(7 citation statements)
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“…The latter contribution becomes time independent if D = 0 for any choice of the reaction term F(u). These behaviours are confirmed by the explicit long-time solutions of Skellam's model (F(u) = λu), the saturated growth model (F(u) = λ(1 − u)), as well as the strong Allee source term (F(u) = λu(u − a)(1 − u)), which is a common model for bistable populations [4,41,45].…”
Section: Discussionmentioning
confidence: 57%
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“…The latter contribution becomes time independent if D = 0 for any choice of the reaction term F(u). These behaviours are confirmed by the explicit long-time solutions of Skellam's model (F(u) = λu), the saturated growth model (F(u) = λ(1 − u)), as well as the strong Allee source term (F(u) = λu(u − a)(1 − u)), which is a common model for bistable populations [4,41,45].…”
Section: Discussionmentioning
confidence: 57%
“…We also consider a bistable source term Ffalse(ufalse)=λufalse(uafalse)false(1ufalse) with 0<a<1, a common model for population growth subject to a strong Allee effect. The rest state u=0 and excited state u=1 in this model are both stable, yet this model still exhibits travelling-wave transitions from u=0 to u=1 or from u=1 to u=0 depending on a and on the shape and size of initial conditions [4,41].…”
Section: Model Description and Theoretical Developmentsmentioning
confidence: 99%
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“…In the supplementary material (fig. S4), we demonstrate a pathological example where our model performs poorly, by approximating the solution to the logistic model with a strong Allee effect [53]. The distribution of the initial condition is chosen so that approximately 16% of model realisations lead to population extinction, whereas 84% lead to logistic growth to carrying capacity.…”
Section: Discussionmentioning
confidence: 99%
“…More specifically, if there is an agent in node i, we assume that the willingness to leave such node is given by a function f , which depends on the local density, n i /K; and the attractiveness of a neighbouring node j is given by another function g which depends on the density at this node, n j /K. These functions then measure the influence of crowding on motility [37]. Note that this framework is different from other biased random-walks on networks where the bias depends on the network topology rather than on how crowded a particular node is [38][39][40][41].…”
Section: Preliminariesmentioning
confidence: 99%