Add to ORKGQuantifying sediment transport rates in mountainous streams is important for hazard prediction, stream restoration, and landscape evolution. While much of the channel network has steep bed slopes, little is known about the mechanisms of sediment transport for bed slopes between 10% < S < 30%, where both fluvial transport and debris flows occur. To explore these slopes, we performed experiments in a 12‐m‐long sediment recirculating flume with a nearly uniform gravel bed. At 20% and 30% bed gradients, we observed a 4‐to‐10 particle‐diameter thick, highly concentrated sheetflow layer between the static bed below and the more dilute bedload layer above. Sheetflow thickness increased with steeper bed slopes, and particle velocities increased wit...
Bed load transport during storm events is both an agent of geomorphic change and a significant natu...
The hydraulics of steep mountain streams differ from lower gradient rivers due to shallow and rough ...
We investigate the entrainment, deposition and motion of coarse spherical particles within a turbule...
Quantifying sediment transport rates in mountainous streams is important for hazard prediction, stre...
Steep streams are a major portion of channel networks and provide a link to transport sediment from ...
Quantifying flow resistance and sediment transport rates in steep streams is important for flood and...
Quantifying flow resistance and sediment transport rates in steep streams is important for flood and...
Understanding incipient sediment transport is crucial for predicting landscape evolution, mitigating...
Understanding incipient sediment transport is crucial for predicting landscape evolution, mitigating...
In mountain streams, bedload transport rates are prone to strong variability. Indeed an increasing n...
The hydraulics of steep mountain streams differ from lower gradient rivers due to shallow and rough ...
Steep mountain streams have channel morphologies that transition from alternate bar to step-pool to ...
Sediment transport rates in steep mountain channels are typically an order of magnitude lower than p...
Steep mountain streams have channel morphologies that transition from alternate bar to step-pool to ...
Large fluctuations in the sediment transport rate are observed in rivers, particularly in mountain s...
Bed load transport during storm events is both an agent of geomorphic change and a significant natu...
The hydraulics of steep mountain streams differ from lower gradient rivers due to shallow and rough ...
We investigate the entrainment, deposition and motion of coarse spherical particles within a turbule...
Quantifying sediment transport rates in mountainous streams is important for hazard prediction, stre...
Steep streams are a major portion of channel networks and provide a link to transport sediment from ...
Quantifying flow resistance and sediment transport rates in steep streams is important for flood and...
Quantifying flow resistance and sediment transport rates in steep streams is important for flood and...
Understanding incipient sediment transport is crucial for predicting landscape evolution, mitigating...
Understanding incipient sediment transport is crucial for predicting landscape evolution, mitigating...
In mountain streams, bedload transport rates are prone to strong variability. Indeed an increasing n...
The hydraulics of steep mountain streams differ from lower gradient rivers due to shallow and rough ...
Steep mountain streams have channel morphologies that transition from alternate bar to step-pool to ...
Sediment transport rates in steep mountain channels are typically an order of magnitude lower than p...
Steep mountain streams have channel morphologies that transition from alternate bar to step-pool to ...
Large fluctuations in the sediment transport rate are observed in rivers, particularly in mountain s...
Bed load transport during storm events is both an agent of geomorphic change and a significant natu...
The hydraulics of steep mountain streams differ from lower gradient rivers due to shallow and rough ...
We investigate the entrainment, deposition and motion of coarse spherical particles within a turbule...