We study a variant of Hanski’s incidence function model that allows habitat patch characteristics to vary over time following a Markov process. The widely studied case where patches are classified as either suitable or unsuitable is included as a special case. For large metapopulations, we determine a recursion for the probability that a given habitat patch is occupied. This recursion enables us to clarify the role of landscape dynamics in the survival of a metapopulation. In particular, we show that landscape dynamics affects the persistence and equilibrium level of the metapopulation primarily through its effect on the distribution of a local population’s life span
Habitat destruction and land use change are making the world in which natural populations live incre...
Levins’s unstructured metapopulation model predicts that the equilibrium fraction of empty habitat p...
In a stochastic spatial source-sink process, we model the spread of a single species through a patch...
Classical metapopulation theory assumes a static landscape. However, empirical evidence indicates ma...
Many species exist as a collection of local populations occupying spatially distinct habitat patches...
We consider a Markovian model proposed by Gyllenberg and Silvestrov for studying the behaviour of a ...
Hanski's incidence function model is one of the most widely used metapopulation models in ecology. I...
We review recent developments in spatially realistic metapopulation theory, which leads to quantitat...
In this paper, we revisit the metapopulation dynamics model of typical Levins type, and reconsider i...
A stochastic metapopulation model accounting for habitat dynamics is presented. This is the stochast...
Habitat destruction and land use change are making the world in which natural populations live incre...
A simple discrete generation Markov metapopulation model is formulated for studying the persistence ...
The term `metapopulation' is used to describe a population of individuals that live as a group of lo...
Disturbances affect metapopulations directly through reductions in population size and indirectly th...
Disturbances affect metapopulations directly through reductions in population size and indirectly th...
Habitat destruction and land use change are making the world in which natural populations live incre...
Levins’s unstructured metapopulation model predicts that the equilibrium fraction of empty habitat p...
In a stochastic spatial source-sink process, we model the spread of a single species through a patch...
Classical metapopulation theory assumes a static landscape. However, empirical evidence indicates ma...
Many species exist as a collection of local populations occupying spatially distinct habitat patches...
We consider a Markovian model proposed by Gyllenberg and Silvestrov for studying the behaviour of a ...
Hanski's incidence function model is one of the most widely used metapopulation models in ecology. I...
We review recent developments in spatially realistic metapopulation theory, which leads to quantitat...
In this paper, we revisit the metapopulation dynamics model of typical Levins type, and reconsider i...
A stochastic metapopulation model accounting for habitat dynamics is presented. This is the stochast...
Habitat destruction and land use change are making the world in which natural populations live incre...
A simple discrete generation Markov metapopulation model is formulated for studying the persistence ...
The term `metapopulation' is used to describe a population of individuals that live as a group of lo...
Disturbances affect metapopulations directly through reductions in population size and indirectly th...
Disturbances affect metapopulations directly through reductions in population size and indirectly th...
Habitat destruction and land use change are making the world in which natural populations live incre...
Levins’s unstructured metapopulation model predicts that the equilibrium fraction of empty habitat p...
In a stochastic spatial source-sink process, we model the spread of a single species through a patch...