Litcius/Paper detail

A global dataset of the shape of drainage systems

Chuanqi He, Ci‐Jian Yang, Jens M. Turowski, Richard F. Ott, Jean Braun, Hui Tang, Shadi Ghantous, Xiaoping Yuan, Gaia Stucky de Quay

2024Earth system science data24 citationsDOIOpen Access PDF

Abstract

Abstract. Drainage basins delineate Earth's land surface into individual water collection units. Basin shape and river sinuosity determine water and sediment dynamics, affecting landscape evolution and connectivity between ecosystems and freshwater species. However, a high-resolution global dataset for the boundaries and geometry of basins is still missing. Using a 90 m resolution digital elevation model, we measured the areas, lengths, widths, aspect ratios, slopes, and elevations of basins over 50 km2 globally. Additionally, we calculated the lengths and sinuosities of the longest river channels within these 0.67 million basins. We built a new global dataset, Basin90m, to present the basins and rivers, as well as their morphological metrics. To highlight the use cases of Basin90m, we explored the correlations among morphological metrics, such as Hack's law. By comparing with HydroSHEDS, HydroATLAS, and Google Earth images, we demonstrated the high accuracy of Basin90m. Basin90m, available in shapefile format, can be used on various GIS platforms, including QGIS, ArcGIS, and GeoPandas. Basin90m has substantial application prospects in geomorphology, hydrology, and ecology. Basin90m is available at https://doi.org/10.5880/GFZ.4.6.2023.004 (He et al., 2023).

Topics & Concepts

ShapefileDigital elevation modelSinuosityStructural basinDrainage basinHydrology (agriculture)GeologyDrainage densityWatershedPhysical geographyRemote sensingGeomorphologyCartographyGeographyMetadataGeotechnical engineeringComputer scienceMachine learningOperating systemHydrology and Watershed Management StudiesFlood Risk Assessment and ManagementGroundwater and Watershed Analysis