How river rocks round: resolving the shape-size paradox
Abstract
River-bed sediments display two universal downstream trends: fining, in which particle size decreases; and rounding, where pebble shapes evolve toward ellipsoids. Rounding is known to result from transport-induced abrasion; however many researchers argue that the contribution of abrasion to downstream fining is negligible. This presents a paradox: downstream shape change indicates substantial abrasion, while size change apparently rules it out. Here we use laboratory experiments and numerical modeling to show quantitatively that pebble abrasion is a curvature-driven flow problem. As a consequence, abrasion occurs in two well-separated phases: first, pebble edges rapidly round without any change in axis dimensions until the shape becomes entirely convex; and second, axis dimensions are then slowly reduced while the particle remains convex. Explicit study of pebble shape evolution helps resolve the shape-size paradox by reconciling discrepancies between laboratory and field studies, and enhances our ability to decipher the transport history of a river rock.
Cite
@article{arxiv.1311.6574,
title = {How river rocks round: resolving the shape-size paradox},
author = {G. Domokos and D. J. Jerolmack and A. Á. Sipos and Á. Török},
journal= {arXiv preprint arXiv:1311.6574},
year = {2014}
}
Comments
11 pages, 5 figures