Title
A Levy flight-random walk model for bioturbation
Document Type
Article
Publication Date
4-1-2002
Abstract
Levy flights are employed in a lattice model of contaminant migration by bioturbation, the reworking of sediment by benthic organisms. The model couples burrowing, foraging, and conveyor-belt feeding with molecular diffusion. The model correctly predicts a square-root dependence on bioturbation rates over a wide range of biomass densities. The model is used to predict the effect of bioturbation on the redistribution of contaminants in laboratory microcosms containing pyrene-inoculated sediments and the tubificid oligochaete Limnodrilus hoffmeisteri. The model predicts the dynamic flux from the sediment and in-bed concentration profiles that are consistent with observations. The sensitivity of flux and concentration profiles to the specific mechanisms of bioturbation are explored with the model. The flux of pyrene to the overlying water was largely controlled by the simulated foraging activities.
Publication Source (Journal or Book title)
Environmental toxicology and chemistry
First Page
875
Last Page
81
Recommended Citation
Reible, D., & Mohanty, S. (2002). A Levy flight-random walk model for bioturbation. Environmental toxicology and chemistry, 21 (4), 875-81. Retrieved from https://repository.lsu.edu/chem_engineering_pubs/76