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Drainage network analysis and structuring of topologically noisy vector stream data

Drainage network analysis and structuring of topologically noisy vector stream data
Drainage network analysis and structuring of topologically noisy vector stream data

Drainage network analysis includes several operations that quantify the topological organization of stream networks. Network analysis operations are frequently performed on streams that are derived from digital elevation models (DEMs). While these methods are suited to application with fine-resolution DEM data, this is not the case for coarse DEMs or low-relief landscapes. In these cases, network analysis that is based on mapped vector streams is an alternative. This study presents a novel vector drainage network analysis technique for performing stream ordering, basin tagging, the identification of main stems and tributaries, and the calculation of total upstream channel length and distance to outlet. The algorithm uses a method for automatically identifying outlet nodes and for determining the upstream-downstream connections among links within vector stream networks while using the priority-flood method. The new algorithm was applied to test stream datasets in two Canadian study areas. The tests demonstrated that the new algorithm could efficiently process large hydrographic layers containing a variety of topological errors. The approach handled topological errors in the hydrography data that have challenged previous methods, including disjoint links, conjoined channels, and heterogeneity in the digitized direction of links. The method can provide a suitable alternative to DEM-based approaches to drainage network analysis, particularly in applications where stream burning would otherwise be necessary.

Digital elevation models, Geographical information systems, Hydrography, Rivers, Stream order, Vector data
2220-9964
Lindsay, John B.
739b98d8-a2fa-497f-ab63-1abbdf72d859
Yang, Wanhong
331df1ea-2463-4f59-82d1-73e4b42e456b
Hornby, Duncan D.
75cfaf57-72c1-4392-a78c-89b4b1033dca
Lindsay, John B.
739b98d8-a2fa-497f-ab63-1abbdf72d859
Yang, Wanhong
331df1ea-2463-4f59-82d1-73e4b42e456b
Hornby, Duncan D.
75cfaf57-72c1-4392-a78c-89b4b1033dca

Lindsay, John B., Yang, Wanhong and Hornby, Duncan D. (2019) Drainage network analysis and structuring of topologically noisy vector stream data. ISPRS International Journal of Geo-Information, 8 (9), [422]. (doi:10.3390/ijgi8090422).

Record type: Article

Abstract

Drainage network analysis includes several operations that quantify the topological organization of stream networks. Network analysis operations are frequently performed on streams that are derived from digital elevation models (DEMs). While these methods are suited to application with fine-resolution DEM data, this is not the case for coarse DEMs or low-relief landscapes. In these cases, network analysis that is based on mapped vector streams is an alternative. This study presents a novel vector drainage network analysis technique for performing stream ordering, basin tagging, the identification of main stems and tributaries, and the calculation of total upstream channel length and distance to outlet. The algorithm uses a method for automatically identifying outlet nodes and for determining the upstream-downstream connections among links within vector stream networks while using the priority-flood method. The new algorithm was applied to test stream datasets in two Canadian study areas. The tests demonstrated that the new algorithm could efficiently process large hydrographic layers containing a variety of topological errors. The approach handled topological errors in the hydrography data that have challenged previous methods, including disjoint links, conjoined channels, and heterogeneity in the digitized direction of links. The method can provide a suitable alternative to DEM-based approaches to drainage network analysis, particularly in applications where stream burning would otherwise be necessary.

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More information

Published date: 19 September 2019
Additional Information: Funding Information: Funding: This research was funded by a grant provided by the Natural Sciences and Engineering Research Council of Canada (NSERC; grant number 400317).
Keywords: Digital elevation models, Geographical information systems, Hydrography, Rivers, Stream order, Vector data

Identifiers

Local EPrints ID: 453613
URI: http://eprints.soton.ac.uk/id/eprint/453613
DOI: doi:10.3390/ijgi8090422
ISSN: 2220-9964
PURE UUID: 1db8b742-4bf4-4261-84a7-35f72cf04515
ORCID for Duncan D. Hornby: ORCID iD orcid.org/0000-0001-6295-1360

Catalogue record

Date deposited: 20 Jan 2022 17:38
Last modified: 18 Mar 2024 02:59

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Contributors

Author: John B. Lindsay
Author: Wanhong Yang
Author: Duncan D. Hornby ORCID iD

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