Abstract
Digital Elevation Models (DEMs) are widely used as a proxy for bathymetric data and several studies have attempted to improve DEM accuracy for hydrodynamic (HD) modeling. Most of these studies attempted to quantitatively improve estimates of channel conveyance (assuming a non-braided morphology) rather than accounting for the actual channel planform. Accurate representation of river conveyance and planform in a DEM is critical to HD modeling and can be achieved with a combination of remote sensing (e.g., satellite image) and field data, such as water surface elevation (WSE). Therefore, the objectives of this study are (i) to develop an algorithm for predicting channel conveyance and characterizing planform via satellite images and in situ WSE and (ii) to estimate discharge using the predicted conveyance via an HD model. The algorithm is named River Bathymetry via Satellite Image Compilation (RiBaSIC) and uses Landsat satellite imagery, Shuttle Radar Topography Mission (SRTM) DEM, Multi-Error-Removed Improved-Terrain (MERIT) DEM, and observed WSE. The algorithm is tested on four study areas along the Willamette River, Kushiyara River, Jamuna River, and Solimoes River. Channel slope and predicted hydraulic radius are subsequently estimated for approximating Manning’s roughness factor. Two-dimensional HD models using DEMs modified by the RiBaSIC algorithm and corresponding Manning’s roughness factors are employed for discharge estimation. The proposed algorithm can represent river planform and conveyance in single-channeled, meandering, wandering, and braided river reaches. Additionally, the HD models estimated discharge within 14–19% relative root mean squared error (RRMSE) in simulation of five years period.
Highlights
Digital Elevation Models (DEMs) are commonly used for representing terrain in many geospatial, hydrologic, and hydraulic applications
Some of the commonly used DEM datasets have global coverage, including the Shuttle Radar Topography Mission (SRTM), Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER), Advanced Land Observing Satellite Global Digital Surface Model (AW3D30), Multi-Error-Removed Improved-Terrain (MERIT), TerraSAR-X add-on for Digital Elevation Measurement (TanDEM-X), and Hydrological data and maps based on SHuttle Elevation Derivatives at multiple Scales (HydroSHEDS)
The spatial resolution of River Bathymetry via Satellite Image Compilation (RiBaSIC) DEM (RiBaSIC bathymetry merged with resampled MERIT DEM) is one arc-second or 30 m
Summary
Digital Elevation Models (DEMs) are commonly used for representing terrain in many geospatial, hydrologic, and hydraulic applications. Some of the commonly used DEM datasets have global coverage, including the Shuttle Radar Topography Mission (SRTM), Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER), Advanced Land Observing Satellite Global Digital Surface Model (AW3D30), Multi-Error-Removed Improved-Terrain (MERIT), TerraSAR-X add-on for Digital Elevation Measurement (TanDEM-X), and Hydrological data and maps based on SHuttle Elevation Derivatives at multiple Scales (HydroSHEDS). These global DEMs are often the best available terrain data in many data-poor regions. The errors may originate from the data source, data acquisition, signal processing algorithm, and/or spatial and temporal resolution of the DEM used in HD modeling [4,5,6,7,8,9]
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