Data for: Multiscale bedform reorganization at the onset of substantial suspended sediment transport
Data files
Oct 29, 2025 version files 9.60 GB
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README.md
2.25 KB
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UCSB_SS23.zip
1.14 GB
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UCSB_SS30.zip
2.87 GB
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UCSB_SS33.zip
215.89 MB
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UCSB_StepDis.zip
5.37 GB
Abstract
Sand-bedded rivers feature dunes and ripples, collectively referred to as bedforms, that regulate flow resistance and sediment fluxes. Recent research has demonstrated that in large lowland rivers, bedforms are characterized by their multiscale organization; however, the flow and sediment transport conditions under which these arrangements are stable remain unknown. In this study, we analyzed twelve flume experiments of bedform evolution to reveal a previously unrecognized transition in the organization of multiscale bedforms.
The data herein accompany the manuscript “Multiscale bedform reorganization at the onset of substantial suspended sediment transport ” by Debsmita Das, Vamsi Ganti, and Robert C. Mahon. This dataset consists of bathymetric data from four flume experiments of bedform evolution conducted in a 15m-long, 2-m-wide, and 1-m-deep flume at the Experimental Sedimentology Laboratory, University of California, Santa Barbara. This includes a 20-hour-long step-discharge experiment, systematically increasing the discharge from 0.28 m3/s to 0.41 m3/s in ten increments, then decreasing it back to 0.28 m3/s in ten steps. The initial and peak discharges represented bedload-dominated and suspension-dominated conditions, respectively. We also include three steady-state experiments at 0.28 m3/s (baseflow; duration ~6.6 hrs), 0.41 m3/s (peak-flow; 3 hrs), and 0.37 m3/s (intermediate flow; ~8 hrs) to characterize equilibrium bedform dynamics. The vertical and horizontal resolution of all experimental data is 1 mm, and the temporal resolution of scans is 4 minutes.
Dataset DOI: 10.5061/dryad.t4b8gtjdn
Description of the data and file structure
Files and variables
- UCSB_SS23.zip
- UCSB_SS30.zip
- UCSB_SS33.zip
- UCSB_StepDis.zip
The data folder consists of four zipped folders- UCSB_SS23, UCSB_SS30, UCSB_SS33, UCSB_StepDis. Each subfolder consists of bathymetric scans for that experiment as .mat files.
Description of the data and file structure for UCSB_SS23, UCSB_SS30, UCSB_SS33:
scan.mat
This mat file contains three variables:
- X -vector representing coordinates in the longitudinal or downstream direction along the study section at 1 mm resolution.
- Y -vector representing coordinates in the lateral or cross-stream direction along the study section at 1 mm resolution.
- Z - 2-dimensional matrix containing bed elevation scans used for computing bedform geometry and kinematics, and the power spectral density of bed elevation. Within Z, the first and second dimensions represent bed elevation in lateral and longitudinal directions, respectively.
Description of the data and file structure for UCSB_StepDis:
This folder contains 20 subfolders:
- T24R to T33R (10 folders): Each folder contains bathymetric scans at that transport stage for the incremental phase of the step discharge experiment.
- T32F to T23F (10 folders): Each folder contains bathymetric scans at each transport stage for the decreasing transport stage phase of the step discharge experiment.
The bathymetric scans in each folder are in the following .mat format:
scan.mat
This mat file contains three variables:
- X -vector representing coordinates in the longitudinal or downstream direction along the study section at 1 mm resolution.
- Y -vector representing coordinates in the lateral or cross-stream direction along the study section at 1 mm resolution.
- Z - 2-dimensional matrix containing bed elevation scans used for computing bedform geometry and kinematics, and the power spectral density of bed elevation. Within Z, the first and second dimensions represent bed elevation in lateral and longitudinal directions, respectively.