DEVELOPMENT OF LARGE SCALE GRIDDED RIVER NETWORKS FROM VECTOR STREAM DATA

The Network Tracing Method (NTM) has been developed to determine gridded coarse river networks for modeling large hydrologic systems. For a coarse resolution grid, the NTM determines the downstream cell of each cell and the distance along the actual meandering flow paths between them. Unlike previou...

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Bibliographic Details
Published in:Journal of the American Water Resources Association 2003-10, Vol.39 (5), p.1235-1248
Main Authors: Olivera, Francisco, Raina, Rajeev
Format: Article
Language:English
Subjects:
Areal geology. Maps
continental hydrologic modeling
Earth sciences
Earth, ocean, space
Exact sciences and technology
Freshwater
Geologic maps, cartography
global hydrologic modeling
Hydrology
Hydrology. Hydrogeology
network tracing method
river networks
South America
surface water hydrology
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Summary:The Network Tracing Method (NTM) has been developed to determine gridded coarse river networks for modeling large hydrologic systems. For a coarse resolution grid, the NTM determines the downstream cell of each cell and the distance along the actual meandering flow paths between them. Unlike previously developed methods, the NTM uses fine resolution vector river networks as the source of information of the flow patterns rather than digital elevation models. The main advantage of using vector river networks as input is that they capture the hydrologic terrain features better than topographic data do, particularly in areas of low topographic relief. The NTM was applied to South America with a grid resolution of 1 degree by 1 degree and to the globe with a resolution of 2.815 degrees by 2.8125 degrees. Overall, the method captured the flow patterns well. Generated digital river networks and drainage divides showed minor disagreement with those obtained from existing maps, and most of them were consistent with the resolution of the coarse river network. The majority of estimated basin areas were also close to documented values. River lengths calculated with the NTM, however, were consistently underpredicted.
ISSN:1093-474X
1752-1688
DOI:10.1111/j.1752-1688.2003.tb03705.x