Local minimal energy landscapes in river networks

Abstract

The existence and stability of the universality class associated to local minimal energy landscapes is investigated. Using extensive numerical simulations, we first study the dependence on a parameter γ of a partial differential equation which was proposed to describe the evolution of a rugged landscape toward a local minimum of the dissipated energy. We then compare the results with those obtained by an evolution scheme based on a variational principle (the optimal channel networks). It is found that both models yield qualitatively similar river patterns and similar dependence on γ. The aggregation mechanism is however strongly dependent on the value of γ. A careful analysis suggests that scaling behaviors may weakly depend both on γ and on initial condition, but in all cases it is within observational data predictions. Consequences of our results

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