Article

Anomalous diffusion of heterogeneous populations characterized by normal diffusion at the individual level

Details

Citation

Hapca S, Crawford JW & Young IM (2009) Anomalous diffusion of heterogeneous populations characterized by normal diffusion at the individual level. Journal of The Royal Society Interface, 6 (30), pp. 111-122. https://doi.org/10.1098/rsif.2008.0261

Abstract
The characterization of the dispersal of populations of non-identical individuals is relevant to most ecological and epidemiological processes. In practice, the movement is quantified by observing relatively few individuals, and averaging to estimate the rate of dispersal of the population as a whole. Here, we show that this can lead to serious errors in the predicted movement of the population if the individuals disperse at different rates. We develop a stochastic model for the diffusion of heterogeneous populations, inspired by the movement of the parasitic nematode Phasmarhabditis hermaphrodita. Direct observations of this nematode in homogeneous and heterogeneous environments reveal a large variation in individual behaviour within the population as reflected initially in the speed of the movement. Further statistical analysis shows that the movement is characterized by temporal correlations and in a heterogeneously structured environment the correlations that occur are of shorter range compared with those in a homogeneous environment. Therefore, by using the first-order correlated random walk techniques, we derive an effective diffusion coefficient for each individual, and show that there is a significant variation in this parameter among the population that follows a gamma distribution. Based on these findings, we build a new dispersal model in which we maintain the classical assumption that individual movement can be described by normal diffusion, but due to the variability in individual dispersal rates, the diffusion coefficient is not constant at the population level and follows a continuous distribution. The conclusions and methodology presented are relevant to any heterogeneous population of individuals with widely different diffusion rates.

Keywords
diffusion coefficient; heterogeneous population; gamma distribution; correlated random walk; leptokurtic behaviour

Journal
Journal of The Royal Society Interface: Volume 6, Issue 30

StatusPublished
FundersBiotechnology and Biological Sciences Research Council
Publication date06/01/2009
Publication date online15/08/2008
Date accepted by journal28/07/2008
URLhttp://hdl.handle.net/1893/33297
PublisherThe Royal Society
eISSN1742-5662

People (1)

People

Dr Simona Hapca

Dr Simona Hapca

Lecturer, Computing Science