Add to ORKGA sustained dynamic inflow perturbation and bar–floodplain conversion are considered crucial to dynamic meandering. Past experiments, one-dimensional modelling and linear theory have demonstrated that the initiation and persistence of dynamic meandering require a periodic transverse motion of the inflow. However, it remains unknown whether the period of the inflow perturbation affects self-formed meander dynamics. Here, we numerically study the effect of the inflow perturbation period on the development and meander dynamics of a chute-cutoff-dominated river, which requires two-dimensional modelling with vegetation forming floodplain on bars. We extended the morphodynamic model Nays2D with growth and mortality rules of vegetation to allow fo...
Sinuous channels wandering through coastal wetlands have been thought to lack lateral-migration feat...
River meandering has been extensively investigated. Two fundamental features to be explored in order...
We develop a nonlinear asymptotic theory of flow and bed topography in meandering channels able to d...
A sustained dynamic inflow perturbation and bar–floodplain conversion are considered crucial to dyna...
River meandering results from spatially alternating bank erosion and bar growth. Recent flume experi...
Rivers have distinctive channel patterns such as multi-channel braiding and single-channel meanderin...
Braided rivers are relatively simple to produce in the laboratory, whereas dynamic meandering river...
Meandering channels are dynamic landforms that arise as a result of fluid mechanic and sedimentary p...
Long-term dynamic meanders were produced in both flume experiments and numerical modeling. Lateral ...
A topographic steering river meandering (TSRM) model based on continuity of a simplified flow field ...
Chute cutoffs reduce sinuosity of meandering rivers and potentially cause a transition from a single...
Rivers are among the most dynamic earth surface systems. Some rivers meander, forming bends that mig...
A river and its surrounding riparian vegetation are two dynamical systems that interact through seve...
Dynamic interaction between river morphodynamics and vegetation affects river channel patterns and p...
The fluvio-geomorphological processes in meander bends are spatially uneven in distribution. Typical...
Sinuous channels wandering through coastal wetlands have been thought to lack lateral-migration feat...
River meandering has been extensively investigated. Two fundamental features to be explored in order...
We develop a nonlinear asymptotic theory of flow and bed topography in meandering channels able to d...
A sustained dynamic inflow perturbation and bar–floodplain conversion are considered crucial to dyna...
River meandering results from spatially alternating bank erosion and bar growth. Recent flume experi...
Rivers have distinctive channel patterns such as multi-channel braiding and single-channel meanderin...
Braided rivers are relatively simple to produce in the laboratory, whereas dynamic meandering river...
Meandering channels are dynamic landforms that arise as a result of fluid mechanic and sedimentary p...
Long-term dynamic meanders were produced in both flume experiments and numerical modeling. Lateral ...
A topographic steering river meandering (TSRM) model based on continuity of a simplified flow field ...
Chute cutoffs reduce sinuosity of meandering rivers and potentially cause a transition from a single...
Rivers are among the most dynamic earth surface systems. Some rivers meander, forming bends that mig...
A river and its surrounding riparian vegetation are two dynamical systems that interact through seve...
Dynamic interaction between river morphodynamics and vegetation affects river channel patterns and p...
The fluvio-geomorphological processes in meander bends are spatially uneven in distribution. Typical...
Sinuous channels wandering through coastal wetlands have been thought to lack lateral-migration feat...
River meandering has been extensively investigated. Two fundamental features to be explored in order...
We develop a nonlinear asymptotic theory of flow and bed topography in meandering channels able to d...