1.
J Biosci
; 2001 Mar; 26(1): 77-108
Article
in English
| IMSEAR
| ID: sea-111143
ABSTRACT
This work is focused on the processes underlying the dynamics of spatially inhomogeneous plankton communities. We demonstrate that reaction-diffusion mathematical models are an appropriate tool for searching and understanding basic mechanisms of complex spatio-temporal plankton dynamics and fractal properties ofplanktivorous fish school walks
Subject(s)
Animals , Ecosystem , Fishes/growth & development , Models, Biological , Nonlinear Dynamics , Plankton/growth & development , Population Dynamics
2.
J Biosci
; 2001 Mar; 26(1): 109-20
Article
in English
| IMSEAR
| ID: sea-110947
ABSTRACT
This work is focused on the role of diffusive interaction between separate habitats in a patchy environment in plankton pattern formation. We demonstrate that conceptual reaction-diffusion mathematical models constitute an appropriate tool for searching and understanding basic mechanisms of plankton pattern formation and complex spatio-temporal plankton dynamics