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- Title
Influence of cohesive clay on wave–current ripple dynamics captured in a 3D phase diagram.
- Authors
Wu, Xuxu; Malarkey, Jonathan; Fernández, Roberto; Baas, Jaco H.; Pollard, Ellen; Parsons, Daniel R.
- Abstract
Wave–current ripples that develop on seabeds of mixed non-cohesive sand and cohesive clay are commonplace in coastal and estuarine environments. While laboratory research on ripples forming in these types of mixed-bed environments is relatively limited, it has identified deep cleaning, the removal of clay below the ripple troughs, as an important factor controlling ripple development. New large-scale flume experiments seek to address this sparsity in data by considering two wave–current conditions with initial clay content, C0 , ranging from 0 % to 18.3 %. The experiments record ripple development and pre- and post-experiment bed clay contents to quantify clay winnowing. The present experiments are combined with previous wave-only, wave–current, and current-only experiments to produce a consistent picture of larger and smaller flatter ripples over a range of wave–current conditions and C0. Specifically, the results reveal a sudden decrease in the ripple steepness for C0 > 10.6 %, likely associated with a decrease in hydraulic conductivity of 3 orders of magnitude. Accompanying the sudden change in steepness is a gradual linear decrease in wavelength with C0 for C0 > 7.4 %. Ultimately, for the highest values of C0 , the bed remains flat, but clay winnowing still takes place, albeit at a rate 2 orders of magnitude lower than for rippled beds. For a given flow, the initiation time, when ripples first appear on a flat bed, increases with increasing C0. This, together with the fact that the bed remains flat for the highest values of C0 , demonstrates that the threshold of motion increases with C0. The inferred threshold enhancement, and the occurrence of large and small ripples, is used to construct a new three-dimensional phase diagram of bed characteristics involving the wave and current Shields parameters and C0 , which has important implications for morphodynamic modelling.
- Subjects
PHASE diagrams; CLAY; HYDRAULIC conductivity; FLUMES; OCEAN bottom
- Publication
Earth Surface Dynamics, 2024, Vol 12, Issue 1, p231
- ISSN
2196-6311
- Publication type
Article
- DOI
10.5194/esurf-12-231-2024