Abstract
River networks exhibit a complex ramified structure that has inspired decades of studies. However, an understanding of the propagation of a single stream remains elusive. Here we invoke a criterion for path selection from fracture mechanics and apply it to the growth of streams in a diffusion field. We show that, as it cuts through the landscape, a stream maintains a symmetric groundwater flow around its tip. The local flow conditions therefore determine the growth of the drainage network. We use this principle to reconstruct the history of a network and to find a growth law associated with it. Our results show that the deterministic growth of a single channel based on its local environment can be used to characterize the structure of river networks.
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CITATION STYLE
Cohena, Y., Devauchelle, O., Seybold, H. F., Yi, R. S., Szymczak, P., & Rothman, D. H. (2015). Path selection in the growth of rivers. Proceedings of the National Academy of Sciences of the United States of America, 112(46), 14132–143137. https://doi.org/10.1073/pnas.1413883112
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