Appendix B. Discrete space-time model.--This appendix provides a demonstration of the use of a discrete space-time model (Gurney et al. 1998) to solve Eqs. 1 and 11 for a logistically growing (nonlinear) population in both one-dimensional and two-dimensional habitats, with and without tidal influence.
Douglas C. Speirs
William S. C. Gurney
10.6084/m9.figshare.3521987.v1
https://wiley.figshare.com/articles/Appendix_B_Discrete_space-time_model_--This_appendix_provides_a_demonstration_of_the_use_of_a_discrete_space-time_model_Gurney_et_al_1998_to_solve_Eqs_1_and_11_for_a_logistically_growing_nonlinear_population_in_both_one-dimensional_and_two-dimensional_hab/3521987
Discrete space-time model.--This appendix provides a demonstration of the use of a discrete space-time model (Gurney et al. 1998) to solve Eqs. 1 and 11 for a logistically growing (nonlinear) population in both one-dimensional and two-dimensional habitats, with and without tidal influence.
2016-08-04 23:21:09
aquatic organisms
tidal forcing
advection-diffusion equation
diffusion dispersal
rivers and estuaries
downstream drift
population persistence
diffusion-mediated persistence
drift paradox
persistence of benthic organisms
modeling, analytical and simulation based