Incorporating Spatial Variation in Density Enhances the Stability of Simple Population Dynamics Models

Authors: JAGGI S.; JOSHI A.

Source: Journal of Theoretical Biology, Volume 209, Number 2, March 2001 , pp. 249-255(7)

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Abstract:

Simple discrete time models of population growth admit a wide variety of dynamic behaviors, including population cycles and chaos. Yet studies of natural and laboratory populations typically reveal their dynamics to be relatively stable. Many explanations for the apparent rarity of unstable or chaotic behavior in real populations have been developed, including the possible stabilizing roles of migration, refugia, abrupt density-dependence, and genetic variation in sensitivity to density. We develop a theoretical framework for incorporating random spatial variation in density into simple models of population growth, and apply this approach to two commonly used models in ecology: the Ricker and Hassell maps. We show that the incorporation of spatial density variation into both these models has a strong stabilizing influence on their dynamic behavior, and leads to their exhibiting stable point equilibria or stable limit cycles over a relatively much larger range of parameter values. We suggest that one reason why chaotic population dynamics are less common than the simple models indicate is, these models typically neglect the potentially stabilizing role of spatial variation in density. Copyright 2001 Academic Press.

Language: English

Document Type: Research article

Affiliations: Jawaharlal Nehru Centre for Advanced Scientific Research, Bangalore, 560 064, India

Publication date: 2001-03-01