Landscape evolution models: a software review

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

## Abstract Despite an increasing recognition that human activity is currently the dominant force modifying landscapes, and that this activity has been increasing through the Holocene, there has been little integrative work to evaluate human interactions with geomorphic processes. We argue that age

This paper describes a high-level system dynamics model of a real-world software evolution process. This process is evolving the kernel (low-level routines) of VME, the operating system of a long-lived and successful series of ICL mainframe computers. The model has been developed as part of the cont

## Abstract Landscape evolution models provide a way to determine erosion rates and landscape stability over times scales from tens to thousands of years. The SIBERIA and CAESAR landscape evolution models both have the capability to simulate catchment–wide erosion and deposition over these time sca