Environmental fluctuations often have different impacts on individuals that differ in size, age, or spatial location. To understand how population structure, environmental fluctuations, and density-dependent interactions influence population dynamics, we provide a general theory for persistence for density-dependent matrix models in random environments. For populations with compensating den-sity dependence, exhibiting “bounded ” dynamics, and living in a stationary environment, we show that persistence is determined by the stochastic growth rate (alternatively, dominant Lyapunov exponent) when the population is rare. If this stochastic growth rate is negative, then the total population abun-dance goes to zero with probability one. If this s...
This chapter deals with stochastic models for structured populations whose dynamics depend crucially...
We introduce a model for the dynamics of a patchy population in a stochastic environment and derive ...
Understanding under what conditions populations, whether they be plants, animals, or viral ...
This work is devoted to studying the dynamics of a structured population that is subject to the comb...
Abstract. Individuals within any species exhibit differences in size, developmental state, or spa-ti...
Individuals within any species exhibit differences in size, developmental state, or spatial...
Over the past century, nonlinear difference and differential equations have been used to un...
Positive density-dependence occurs when individuals experience increased survivorship, growth, or re...
Scientific paper on stochastic differential equation models of population growth in a random environ...
The evolution of a population whose size is described by a first order stochastic differential equat...
We consider a population distributed between two habitats, in each of which it experiences a growth ...
Understanding under what conditions interacting populations, whether they be plants, animal...
To understand the interplay between environmental stochasticity and Allee effects, we analyse persis...
... an ed f ne nis iste rtu th interacting populations. Namely, a model is either persistent despite...
We revisit the question of when can dispersal-induced coupling between discrete sink populations cau...
This chapter deals with stochastic models for structured populations whose dynamics depend crucially...
We introduce a model for the dynamics of a patchy population in a stochastic environment and derive ...
Understanding under what conditions populations, whether they be plants, animals, or viral ...
This work is devoted to studying the dynamics of a structured population that is subject to the comb...
Abstract. Individuals within any species exhibit differences in size, developmental state, or spa-ti...
Individuals within any species exhibit differences in size, developmental state, or spatial...
Over the past century, nonlinear difference and differential equations have been used to un...
Positive density-dependence occurs when individuals experience increased survivorship, growth, or re...
Scientific paper on stochastic differential equation models of population growth in a random environ...
The evolution of a population whose size is described by a first order stochastic differential equat...
We consider a population distributed between two habitats, in each of which it experiences a growth ...
Understanding under what conditions interacting populations, whether they be plants, animal...
To understand the interplay between environmental stochasticity and Allee effects, we analyse persis...
... an ed f ne nis iste rtu th interacting populations. Namely, a model is either persistent despite...
We revisit the question of when can dispersal-induced coupling between discrete sink populations cau...
This chapter deals with stochastic models for structured populations whose dynamics depend crucially...
We introduce a model for the dynamics of a patchy population in a stochastic environment and derive ...
Understanding under what conditions populations, whether they be plants, animals, or viral ...