This study investigates the effects of vegetation patch patterns on the morphological evolution of alluvial river channels at the reach-scale. For this, a new two-dimensional numerical biomorphodynamic model has been developed using the Telemac-Mascaret system. Considering the newest development in the topic, the effects of vegetation on bedload transport are included by extending Einstein's parameters for the sediment transport formula. The model was subsequently validated by published laboratory experiments reproducing alternate bar dynamics with different vegetation establishment scenarios. The validated model was then used to study the influence of vegetation patch patterns on the channel morphological evolution considering the two most...
Dynamic interaction between river morphodynamics and vegetation affects river channel patterns and p...
Throughout the 20th century, many rivers worldwide have undergone important riparian vegetation encr...
Studying the effects of different riparian vegetation densities on river channel evolution has pract...
This study investigates the effects of vegetation patch patterns on the morphological evolution of a...
Riparian vegetation is increasingly seen as an effective and environmentally acceptable tool in rive...
While the scientific community has long recognized that alluvial rivers are the product of interacti...
Riparian vegetation can significantly influence the morphology of the river, affectingchannel geomet...
The planform morphology of a river reach is the result of the combined actions of sediment motion (e...
Flume experiments and field observations demonstrating the effects of vegetation on river planforms ...
The presence of aquatic vegetation on riverbed and embankments influences flow structure and consequ...
In this study, we conducted simulations using a two-dimensional, depth-averaged river flow and river...
Evaluating the impact of a wide range of vegetation densities on river channel pattern [Abstract
Many studies have been conducted to understand the effects of vegetation. However, the effects of ve...
Physical experiments of self-formed river channels and floodplains with live vegetation are pathways...
The development of alternate bars in channelized rivers can be explained theoretically as an instabi...
Dynamic interaction between river morphodynamics and vegetation affects river channel patterns and p...
Throughout the 20th century, many rivers worldwide have undergone important riparian vegetation encr...
Studying the effects of different riparian vegetation densities on river channel evolution has pract...
This study investigates the effects of vegetation patch patterns on the morphological evolution of a...
Riparian vegetation is increasingly seen as an effective and environmentally acceptable tool in rive...
While the scientific community has long recognized that alluvial rivers are the product of interacti...
Riparian vegetation can significantly influence the morphology of the river, affectingchannel geomet...
The planform morphology of a river reach is the result of the combined actions of sediment motion (e...
Flume experiments and field observations demonstrating the effects of vegetation on river planforms ...
The presence of aquatic vegetation on riverbed and embankments influences flow structure and consequ...
In this study, we conducted simulations using a two-dimensional, depth-averaged river flow and river...
Evaluating the impact of a wide range of vegetation densities on river channel pattern [Abstract
Many studies have been conducted to understand the effects of vegetation. However, the effects of ve...
Physical experiments of self-formed river channels and floodplains with live vegetation are pathways...
The development of alternate bars in channelized rivers can be explained theoretically as an instabi...
Dynamic interaction between river morphodynamics and vegetation affects river channel patterns and p...
Throughout the 20th century, many rivers worldwide have undergone important riparian vegetation encr...
Studying the effects of different riparian vegetation densities on river channel evolution has pract...