Modelling dispersal behaviour on a fractal landscape

This contribution presents the results of a numerical study of karst denudation on limestone plateaux. The landscape evolution model used incorporates not only long‐range fluvial and short‐range hill‐slope processes, but also large‐scale chemical dissolution of limestone surfaces. The relative effic

The dynamics of a three-step catalytic reaction on a DLA fractal surface have been simulated on a computer using random walks. The effect of varying probability of reaction steps and rate constant on the selectivity (ratio of products formed) has been analyzed. \* NCL Communication No. 4908.

We report a quantitative analysis of a simple dichotomous branching tree model for blood #ow in vascular networks. Using the method of moment-generating function and geometric Brownian motion from stochastic mathematics, our analysis shows that a vascular network with asymmetric branching and random

We model the evolution of simple lattice proteins as a random walk in a fitness landscape, where the fitness represents the ability of the protein to fold. At higher selective pressure, the evolutionary trajectories are confined to neutral networks where the native structure is conserved and the dyn