Add to ORKGIn recent years the improvements in computational capacity and the advances in numerical modelling techniques have produced a significant increase in the type of river processes that can be studied with the support of numerical models. Water quality and sediment transport are some of these processes, and it also applies to the case of wood transport. In the last five years several publications have proven the utility of numerical modelling of wood transport for predicting and better understanding wood dynamics, analyzing the influence of wood on flow conditions, and the interactions with infrastructures, and for including this phenomenon in the flood risk assessment. Besides these studies, numerical modelling of wood in rivers is still chal...
International audienceLarge wood (LW) accumulations can cause several damages, especially if the rec...
Large wood in streams and rivers has become a functional component of lotic ecosystems since the 197...
In the last 30 years, work on large wood (LW) has expanded and matured considerably, and river scien...
In recent years the improvements in computational capacity and the advances in numerical modelling t...
The transport of wood material in rivers has been the subject of various studies in recent years. Mo...
Large wood promotes fundamental changes in river hydraulics and morphology, playing a relevant role ...
Wood transport during flood events can increase inundation risk and should be included in numerical ...
As with bedload transport, wood transport in rivers is governed by several factors such as flow regi...
In terms of flood hazard, the presence of large wood (logs, trees, branches and roots) in rivers may...
An advection-diffusion model is proposed to simulate large wood transport during high flows. The mat...
International audienceLarge wood (LW) accumulations can cause several damages, especiallyif the recr...
Large wood is an important physical component of woodland rivers and significantly influences river ...
Floods can mobilize large amounts of unconsolidated material, which also includes large wood in fore...
In‐channel wood is a key component in fluvial ecosystems; however, transport of in‐channel wood duri...
The influence of woody debris on channel morphology and aquatic habitat has been recognized for many...
International audienceLarge wood (LW) accumulations can cause several damages, especially if the rec...
Large wood in streams and rivers has become a functional component of lotic ecosystems since the 197...
In the last 30 years, work on large wood (LW) has expanded and matured considerably, and river scien...
In recent years the improvements in computational capacity and the advances in numerical modelling t...
The transport of wood material in rivers has been the subject of various studies in recent years. Mo...
Large wood promotes fundamental changes in river hydraulics and morphology, playing a relevant role ...
Wood transport during flood events can increase inundation risk and should be included in numerical ...
As with bedload transport, wood transport in rivers is governed by several factors such as flow regi...
In terms of flood hazard, the presence of large wood (logs, trees, branches and roots) in rivers may...
An advection-diffusion model is proposed to simulate large wood transport during high flows. The mat...
International audienceLarge wood (LW) accumulations can cause several damages, especiallyif the recr...
Large wood is an important physical component of woodland rivers and significantly influences river ...
Floods can mobilize large amounts of unconsolidated material, which also includes large wood in fore...
In‐channel wood is a key component in fluvial ecosystems; however, transport of in‐channel wood duri...
The influence of woody debris on channel morphology and aquatic habitat has been recognized for many...
International audienceLarge wood (LW) accumulations can cause several damages, especially if the rec...
Large wood in streams and rivers has become a functional component of lotic ecosystems since the 197...
In the last 30 years, work on large wood (LW) has expanded and matured considerably, and river scien...