Add to ORKGAbstract. Much ecological research involves identifying connections between abiotic forcing and population densities or distributions. We present theory that describes this relationship for populations in media with strong unidirec-tional flow (e.g., aquatic organisms in streams and rivers). Typically, equi-librium populations change in very different ways in response to changes in demographic versus dispersal rates and to changes over local versus larger spatial scales. For populations in a mildly heterogeneous environment, there is a population “response length ” that characterizes the distance downstream over which the impact of a point source perturbation is felt. The response length is also an important parameter for characterizing the...
Identifying the steady states of a population is a key issue in theoretical ecology, that includes t...
Background Population dynamics are driven by a number of biotic (e.g., density-dependence) and abiot...
Dispersal is an important strategy that allows organisms to locate and exploit favorable habitats. T...
We discuss the effects of movement and spatial heterogeneity on population dynamics via reaction–dif...
Population models often pose density-dependent rates as relations between current population size on...
The maintenance of species diversity occurs at the regional scale but depends on interacting process...
Spatial extent can have two important consequences for population dynamics: It can generatespatial s...
Spatial extent can have two important consequences for population dynamics: It can generatespatial s...
It has been suggested that the saturation density of many populations is adjusted to match environme...
Both habitat heterogeneity and species’ life-history traits play important roles in driving populati...
This paper deals with the study of a predator-prey model in a patchy environment. Prey individuals m...
Structure, in its many forms, is a central theme in theoretical population ecology. At a mathematica...
Spatial heterogeneity is seen as an important factor in many ecological systems. The kind and degree...
Spatial and temporal heterogeneity are often described as important factors having a strong impact o...
International audienceHow the interplay of local adaptation and dispersal determines species appeara...
Identifying the steady states of a population is a key issue in theoretical ecology, that includes t...
Background Population dynamics are driven by a number of biotic (e.g., density-dependence) and abiot...
Dispersal is an important strategy that allows organisms to locate and exploit favorable habitats. T...
We discuss the effects of movement and spatial heterogeneity on population dynamics via reaction–dif...
Population models often pose density-dependent rates as relations between current population size on...
The maintenance of species diversity occurs at the regional scale but depends on interacting process...
Spatial extent can have two important consequences for population dynamics: It can generatespatial s...
Spatial extent can have two important consequences for population dynamics: It can generatespatial s...
It has been suggested that the saturation density of many populations is adjusted to match environme...
Both habitat heterogeneity and species’ life-history traits play important roles in driving populati...
This paper deals with the study of a predator-prey model in a patchy environment. Prey individuals m...
Structure, in its many forms, is a central theme in theoretical population ecology. At a mathematica...
Spatial heterogeneity is seen as an important factor in many ecological systems. The kind and degree...
Spatial and temporal heterogeneity are often described as important factors having a strong impact o...
International audienceHow the interplay of local adaptation and dispersal determines species appeara...
Identifying the steady states of a population is a key issue in theoretical ecology, that includes t...
Background Population dynamics are driven by a number of biotic (e.g., density-dependence) and abiot...
Dispersal is an important strategy that allows organisms to locate and exploit favorable habitats. T...