Vegetation‐Generated Turbulence Does Not Impact the Erosion of Natural Cohesive Sediment

Author(s)

Deitrick, Autumn R; Ralston, David K; Esposito, Christopher R; Baustian, Melissa M; Burgos, Maricel Beltrán; Courtois, Andrew J; Nepf, Heidi; ... Show more Show less

Abstract

Previous studies have demonstrated that vegetation‐generated turbulence can enhance erosion rate and reduce the velocity threshold for erosion of non‐cohesive sediment. This study considered whether vegetation‐generated turbulence had a similar influence on natural cohesive sediment. Cores were collected from a black mangrove forest with aboveground biomass and exposed to stepwise increases in velocity. Erosion was recorded through suspended sediment concentration. For the same velocity, cores with pneumatophores had elevated turbulent kinetic energy compared to bare cores without pneumatophores. However, the vegetation‐generated turbulence did not increase bed stress or the rate of resuspension, relative to bare cores. It was hypothesized that the short time‐scale fluctuations associated with vegetation‐generated turbulence were not of sufficient duration to break cohesion between grains, explaining why elevated levels of turbulence associated with the pneumatophores had no impact on the erosion threshold or rate.

Date issued

2024-07-10

URI

https://hdl.handle.net/1721.1/165792

Department

Massachusetts Institute of Technology. Department of Civil and Environmental Engineering
Joint Program in Oceanography/Applied Ocean Science and Engineering
Woods Hole Oceanographic Institution. Department of Applied Ocean Physics and Engineering.

Journal

Geophysical Research Letters

Publisher

American Geophysical Union

Citation

Deitrick, A. R., Ralston, D. K., Esposito, C. R., Baustian, M. M., Burgos, M. B., Courtois, A. J., & Nepf, H. (2024). Vegetation-generated turbulence does not impact the erosion of natural cohesive sediment. Geophysical Research Letters, 51, e2024GL109730.

Version: Final published version