Add to ORKGPopulation fluctuations are generally attributed to the deterministic consequences of strong non-linear interactions among organisms, or the effects of random stochastic environmental variation superimposed upon the deterministic skeleton describing population change. Analysis of the population dynamics of the mussel Mytilus californianus taken in 16 plots over 18-years found no evidence that these processes explained observed strong fluctuations. Instead, population fluctuations arose because environmental stochasticity varied with abundance, which we term density-linked stochasticity. This phenomenon arises from biologically relevant mechanisms: recruitment variation and transmission of disturbance among neighboring individuals. Density-l...
Temporal variance in population density V is very generally related to mean density x by the power f...
In marine environments, the open system (OS) theory, whereby populations are assumed to be well conn...
AbstractTwo mathematical models of macroevolution are studied. These models have population dynamics...
<div><p>Population fluctuations are generally attributed to the deterministic consequences of strong...
Individual traits and population parameters can be used as proxies of processes taking place within ...
Advancing our understanding of how environmental variability affects the distribution of organisms i...
1. The bivalve Dreissena polymorpha has invaded many freshwater ecosystems worldwide in recent decad...
Variation in recruitment is known to affect species demography and population dynamics. There is sca...
All natural populations fluctuate in space and time. These fluctuations are a result of internal dyn...
In this thesis, we study collective phenomena that arise from microscopic fluctuations at the indivi...
Recent research highlights the prevalence of intraspecific trait variation, even in relatively open ...
Structure, in its many forms, is a central theme in theoretical population ecology. At a mathematica...
Stochasticity is a core component of ecology, as it underlies key processes that structure and creat...
Temporal variance in population density V is very generally related to mean density x by the power f...
In marine environments, the open system (OS) theory, whereby populations are assumed to be well conn...
AbstractTwo mathematical models of macroevolution are studied. These models have population dynamics...
<div><p>Population fluctuations are generally attributed to the deterministic consequences of strong...
Individual traits and population parameters can be used as proxies of processes taking place within ...
Advancing our understanding of how environmental variability affects the distribution of organisms i...
1. The bivalve Dreissena polymorpha has invaded many freshwater ecosystems worldwide in recent decad...
Variation in recruitment is known to affect species demography and population dynamics. There is sca...
All natural populations fluctuate in space and time. These fluctuations are a result of internal dyn...
In this thesis, we study collective phenomena that arise from microscopic fluctuations at the indivi...
Recent research highlights the prevalence of intraspecific trait variation, even in relatively open ...
Structure, in its many forms, is a central theme in theoretical population ecology. At a mathematica...
Stochasticity is a core component of ecology, as it underlies key processes that structure and creat...
Temporal variance in population density V is very generally related to mean density x by the power f...
In marine environments, the open system (OS) theory, whereby populations are assumed to be well conn...
AbstractTwo mathematical models of macroevolution are studied. These models have population dynamics...