Open Access
Bedload transport: beyond intractability
Author(s) -
Basil Gómez,
Philip J. Soar
Publication year - 2022
Publication title -
royal society open science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.84
H-Index - 51
ISSN - 2054-5703
DOI - 10.1098/rsos.211932
Subject(s) - bed load , stream power , sediment transport , range (aeronautics) , a priori and a posteriori , flow (mathematics) , demise , geology , computer science , econometrics , statistical physics , hydrology (agriculture) , environmental science , mechanics , sediment , physics , mathematics , geotechnical engineering , law , paleontology , engineering , philosophy , epistemology , political science , aerospace engineering
Scrutiny of multifarious field and laboratory data amassed over nine decades reveals four distinct bedload transport regimes and demonstrates the search for a universal formula is a fallacious pursuit. In only one regime, in which the supply of transportable material is unconstrained, does the transport rate in some rivers approximate the expected proportional relationship with dimensionless specific stream power (ω ∗ ). At the other extreme, transport occurs at or near the threshold of particle motion, and the availability of sediment is regulated by the characteristics of the bed surface. In each regime, there is an underlying variation of transport rates at a given discharge, that is neither obscured by long measurement times nor standardized methodologies, and to properly differentiate them, the bedload size must be known. We show a data-driven relationship based on measurements made over several years, across the entire flow range, that requires noa priori specification of the association between the transport rate andω ∗ , can reveal nonlinear trends that may otherwise be masked by omni-present temporal and spatial variability. The demise of the search for a universal formula will be accelerated by the development of idiomatic relations that embrace the specificity of rivers in each transport regime.