Is dispersal always beneficial to carrying capacity? New insights from the multi-patch logistic equation

The Effect of Connecting Sites in the Environment of a Harvested Population ⋮ A safe harbor can protect an endangered species from its predators ⋮ Effects of prey's diffusion on predator-prey systems with two patches ⋮ Stability and bifurcation in a two-patch model with additive Allee effect ⋮ The multi-patch logistic equation with asymmetric migration ⋮ The impact of vaccination on human papillomavirus infection with disassortative geographical mixing: a two-patch modeling study ⋮ Effects of diffusion on total biomass in simple metacommunities ⋮ Dynamics of predator-prey systems with prey's dispersal between patches ⋮ Total biomass of a single population in two-patch environments ⋮ Population abundance in predator-prey systems with predator's dispersal between two patches ⋮ Asymptotic state of a two-patch system with infinite diffusion ⋮ Number of source patches required for population persistence in a source-sink metapopulation with explicit movement ⋮ The effect of dispersal on asymptotic total population size in discrete- and continuous-time two-patch models ⋮ Population abundance of a two-patch chemostat system with asymmetric diffusion ⋮ Stability analysis of a single-species logistic model with time delay and constant inflow ⋮ Effects of heterogeneity and spatial pattern in multi-patch consumer-resource systems with asymmetric diffusion ⋮ Pollination-mutualisms in a two-patch system with dispersal ⋮ Effects of rapid population growth on total biomass in multi-patch environment ⋮ Dynamics of consumer-resource reaction-diffusion models: single and multiple consumer species ⋮ Nonlinear diffusion in multi-patch logistic model ⋮ Generalized logistic equation on networks ⋮ Effect of dispersal in single-species discrete diffusion systems with source-sink patches ⋮ Energetic constraints and the paradox of a diffusing population in a heterogeneous environment ⋮ How Does Dispersal Affect the Infection Size? ⋮ Carrying capacity of a spatially-structured population: disentangling the effects of dispersal, growth parameters, habitat heterogeneity and habitat clustering ⋮ Dynamics of a consumer-resource reaction-diffusion model. Homogeneous versus heterogeneous environments ⋮ Asymmetric dispersal in the multi-patch logistic equation ⋮ Metapopulation dynamics and total biomass: understanding the effects of diffusion in complex networks ⋮ Asymmetric diffusion in a two-patch consumer-resource system ⋮ Asymmetric diffusion in a two-patch mutualism system characterizing exchange of resource for resource ⋮ Dispersal asymmetry in a two-patch system with source-sink populations ⋮ The effect of movement behavior on population density in patchy landscapes ⋮ The multi-patch logistic equation ⋮ Global stability of an age-structured population model on several temporally variable patches ⋮ Asymptotic population abundance of a two-patch system with asymmetric diffusion ⋮ Dynamics of consumer-resource systems with consumer's dispersal between patches ⋮ Model of two competing populations in two habitats with migration: application to optimal marine protected area size ⋮ Population abundance of two-patch competitive systems with asymmetric dispersal

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• Effects of dispersal in a non-uniform environment on population dynamics and competition: a patch model approach
• Population dynamics in two-patch environments: Some anomalous consequences of an optimal habitat distribution
• Persistence and stability of seed-dispersed species in a patchy environment
• When can a single-species, density-dependent model capture the dynamics of a consumer-resource system?
• Mathematical Models of Population Interactions with Dispersal. I: Stability of Two Habitats with and without a Predator