Total biomass of a single population in two-patch environments
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Publication:2169161
DOI10.1016/j.tpb.2022.05.003OpenAlexW4281621288MaRDI QIDQ2169161
Publication date: 2 September 2022
Published in: Theoretical Population Biology (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.tpb.2022.05.003
patch modelideal free distributiondispersal ratechanging patterndispersal asymmetrytotal population abundance
Related Items (3)
The effect of dispersal on asymptotic total population size in discrete- and continuous-time two-patch models ⋮ Effects of heterogeneity and spatial pattern in multi-patch consumer-resource systems with asymmetric diffusion ⋮ Maximizing Metapopulation Growth Rate and Biomass in Stream Networks
Cites Work
- Unnamed Item
- To connect or not to connect isolated patches
- Is dispersal always beneficial to carrying capacity? New insights from the multi-patch logistic equation
- Effects of dispersal in a non-uniform environment on population dynamics and competition: a patch model approach
- Effects of dispersal on total biomass in a patchy, heterogeneous system: analysis and experiment
- Population abundance of two-patch competitive systems with asymmetric dispersal
- Are two-patch models sufficient? The evolution of dispersal and topology of river network modules
- Effects of prey's diffusion on predator-prey systems with two patches
- Dispersal and spatial heterogeneity: single species
- Population dynamics in two-patch environments: Some anomalous consequences of an optimal habitat distribution
- Cooperative systems theory and global stability of diffusion models
- Persistence and stability of seed-dispersed species in a patchy environment
- Does migration stabilize local population dynamics? Analysis of a discrete metapopulation model
- Effects of diffusion on total biomass in simple metacommunities
- Energetic constraints and the paradox of a diffusing population in a heterogeneous environment
- Asymmetric dispersal in the multi-patch logistic equation
- Impact of state-dependent dispersal on disease prevalence
- The optimal distribution of resources and rate of migration maximizing the population size in logistic model with identical migration
- The multi-patch logistic equation
- On the effects of carrying capacity and intrinsic growth rate on single and multiple species in spatially heterogeneous environments
- Maximizing the total population with logistic growth in a patchy environment
- Optimal location of resources maximizing the total population size in logistic models
- Dispersal asymmetry in a two-patch system with source-sink populations
- The effect of movement behavior on population density in patchy landscapes
- Number of source patches required for population persistence in a source-sink metapopulation with explicit movement
- On the effects of migration and spatial heterogeneity on single and multiple species
- An optimization problem and its application in population dynamics
- A Multipatch Malaria Model with Logistic Growth Populations
- Mathematical Models of Population Interactions with Dispersal. I: Stability of Two Habitats with and without a Predator
- Some reaction diffusion models in spatial ecology
- How Does Dispersal Affect the Infection Size?
- Fast diffusion inhibits disease outbreaks
- Asymptotic Profiles of the Steady States for an SIS Epidemic Patch Model
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