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Topological Relationship‐Based Flow Direction Modeling: Stream Burning and Depression Filling

Chang Liao, Tian Zhou, Donghui Xu, Zeli Tan, Gautam Bisht, Matthew G. Cooper, Darren Engwirda, Hong‐Yi Li, L. Ruby Leung

2023Journal of Advances in Modeling Earth Systems10 citationsDOIOpen Access PDF

Abstract

Abstract Flow direction modeling consists of (a) an accurate representation of the river network and (b) digital elevation model (DEM) processing to preserve characteristics with hydrological significance. In part 1 of our study, we presented a mesh‐independent approach to representing river networks on different types of meshes. This follow‐up part 2 study presents a novel DEM processing approach for flow direction modeling. This approach consists of (a) a topological relationship‐based hybrid breaching‐filling method to conduct stream burning for the river network and (b) a modified depression removal method for rivers and hillslopes. Our methods reduce modifications to surface elevations and provide a robust two‐step procedure to remove local depressions in DEM. They are mesh‐independent and can be applied to both structured and unstructured meshes. We applied our new methods with different model configurations to the Susquehanna River Basin. The results show that topological relationship‐based stream burning and depression‐filling methods can reproduce the correct river networks, providing high‐quality flow direction and other characteristics for hydrologic and Earth system models.

Topics & Concepts

Polygon meshRepresentation (politics)Flow (mathematics)Digital elevation modelComputer scienceGeologyCurrent (fluid)Hydrology (agriculture)GeometryRemote sensingGeotechnical engineeringMathematicsComputer graphics (images)OceanographyPoliticsPolitical scienceLawHydrology and Watershed Management StudiesFlood Risk Assessment and ManagementLandslides and related hazards
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