Author:
Balister Paul,Balogh József,Bertuzzo Enrico,Bollobás Béla,Caldarelli Guido,Maritan Amos,Mastrandrea Rossana,Morris Robert,Rinaldo Andrea
Abstract
We study tree structures termed optimal channel networks (OCNs) that minimize the total gravitational energy loss in the system, an exact property of steady-state landscape configurations that prove dynamically accessible and strikingly similar to natural forms. Here, we show that every OCN is a so-called natural river tree, in the sense that there exists a height function such that the flow directions are always directed along steepest descent. We also study the natural river trees in an arbitrary graph in terms of forbidden substructures, which we call k-path obstacles, and OCNs on a d-dimensional lattice, improving earlier results by determining the minimum energy up to a constant factor for everyd≥2. Results extend our capabilities in environmental statistical mechanics.
Funder
National Science Foundation
Multiplex
CNPq
ERC Starting Grant
ERC Advanced Grant
Publisher
Proceedings of the National Academy of Sciences
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