Velocity, Turbulence, and Sediment Deposition in a Channel Partially Filled With a Phragmites australis Canopy
Laboratory experiments examined the longitudinal evolution of near‐bed velocity, turbulent
kinetic energy (TKE), and net deposition in a model Phragmites australis canopy occupying …
kinetic energy (TKE), and net deposition in a model Phragmites australis canopy occupying …
Daily suspended sediment concentration forecast in the upper reach of Yellow River using a comprehensive integrated deep learning model
J Fan, X Liu, W Li - Journal of Hydrology, 2023 - Elsevier
The precise prediction of suspended sediment concentration (SSC) is of great importance
for river reservoir construction planning, water resource management, and ecological …
for river reservoir construction planning, water resource management, and ecological …
Turbulence dictates bedload transport in vegetated channels without dependence on stem diameter and arrangement
Vegetation provides habitat and nature‐based solutions to coastal flooding and erosion,
drawing significant interest in its restoration, which requires an understanding of sediment …
drawing significant interest in its restoration, which requires an understanding of sediment …
Hydrodynamics of artificial and oyster-populated breakwaters: A laboratory study with scaled-down oyster castles under unidirectional flow
Oyster populations within the Chesapeake Bay have been drastically reduced over the last
century mainly due to unregulated human activities and diseases. Regulations and …
century mainly due to unregulated human activities and diseases. Regulations and …
A momentum-based prediction model of backwater rise within and downstream of an emergent canopy in nonuniform flow
P Wang, Y Zhang, J Cheng, H Zhang, L Zeng - Journal of Hydrology, 2023 - Elsevier
Vegetation is widely used to restore waterways and wetland ecosystems. However,
emergent canopies create a nonuniform water surface, and predicting the backwater rise is …
emergent canopies create a nonuniform water surface, and predicting the backwater rise is …
[HTML][HTML] Solute flow and particle transport in aquatic ecosystems: A review on the effect of emergent and rigid vegetation
JQ Yang - Environmental Science and Ecotechnology, 2024 - Elsevier
In-channel vegetation is ubiquitous in aquatic environments and plays a critical role in the
fate and transport of solutes and particles in aquatic ecosystems. Recent studies have …
fate and transport of solutes and particles in aquatic ecosystems. Recent studies have …
Impact of sediment size, channel velocity and plant density on sediment deposition inside Phragmites australis canopies
S Sun, Y Shan, C Yan, C Liu - Journal of Hydrology, 2023 - Elsevier
In this study, laboratory experiments were performed to investigate the impacts of sediment
size, channel velocity and plant density on sediment deposition inside an emergent canopy …
size, channel velocity and plant density on sediment deposition inside an emergent canopy …
A physics-informed statistical learning framework for forecasting local suspended sediment concentrations in marine environment
An in-situ monitoring of water quality (suspended sediment concentration, SSC) and
concurrent hydrodynamics was conducted in the subaqueous Yellow River Delta in China …
concurrent hydrodynamics was conducted in the subaqueous Yellow River Delta in China …
Suspended Sediment Concentration Profile in a Typha Latifolia Canopy
The transport of sediment in regions with vegetation plays an important role in aquatic
ecosystems and landform evolution in river deltas. In this study, flow parameters and …
ecosystems and landform evolution in river deltas. In this study, flow parameters and …
Vegetation‐generated turbulence does not impact the erosion of natural cohesive sediment
Previous studies have demonstrated that vegetation‐generated turbulence can enhance
erosion rate and reduce the velocity threshold for erosion of non‐cohesive sediment. This …
erosion rate and reduce the velocity threshold for erosion of non‐cohesive sediment. This …