A decision-tree classification for low-lying complex land cover types within the zone of discontinuous permafrost
This study presents a decision-tree (DT) approach to classifying heterogeneous land cover types within a northern watershed located in the zone of discontinuous permafrost using airborne LiDAR and high resolution spectral datasets. Results are compared with a more typically applied supervised classi...
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| Published in | Remote sensing of environment Vol. 143; pp. 73 - 84 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
Elsevier Inc
05.03.2014
Elsevier |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0034-4257 1879-0704 |
| DOI | 10.1016/j.rse.2013.12.016 |
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| Abstract | This study presents a decision-tree (DT) approach to classifying heterogeneous land cover types within a northern watershed located in the zone of discontinuous permafrost using airborne LiDAR and high resolution spectral datasets. Results are compared with a more typically applied supervised classification. Increasing errors in discharge resulting from an inaccurate classification are quantified using a distributed hydrological model.
The hierarchical classification was accurate between 88% and 97% of the validation sub-area, whereas the parallelepiped classification was accurate between 38% and 74% of the same area (despite overall accuracy of ~91%, kappa=0.91). Topographical derivatives were best able to explain variations in land cover types (82% to 96%), whilst spectral and vegetation structural derivatives were less accurate. When compared with field measurements, the hierarchical classification of plateau edges (adjacent to a fen) was within 2m of measured, 60% of the time, whilst this occurred only 40% of the time when using a spectral classification. When examining the impacts of land cover classification accuracy on modelled discharge, we find that the length of the Hydrological Response Unit defined by the classification (and subject to varying levels of errors) was linearly related to discharge (m3) such that an increase in permafrost plateau area would increase discharge by 26% of the total. The methodology presented in this paper clarifies previous classification and modelling studies using Landsat and IKONOS data for the same basin. This study greatly improves upon past classifications in the same area, furthers our understanding of the distribution of connected bogs and fens (as conveyors of water to the basin outlet) within the watershed, and current spatial extents of rapidly thawing permafrost plateaus, which are critical for better understanding the impacts of climate change on these northern environments.
•A decision tree approach used to classify permafrost plateaus, peatlandsand uplands.•Classification fuses LiDAR and WorldView2 spectral data, accurate to 88-97%.•The best spectral classification is 38% to 74% accurate.•Topographical derivatives were best able to explain variations in land cover types.•An overestimation in permafrost area will increase discharge by 26% per unit area. |
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| AbstractList | This study presents a decision-tree (DT) approach to classifying heterogeneous land cover types within a northern watershed located in the zone of discontinuous permafrost using airborne LiDAR and high resolution spectral datasets. Results are compared with a more typically applied supervised classification. Increasing errors in discharge resulting from an inaccurate classification are quantified using a distributed hydrological model.The hierarchical classification was accurate between 88% and 97% of the validation sub-area, whereas the parallelepiped classification was accurate between 38% and 74% of the same area (despite overall accuracy of ~91%, kappa=0.91). Topographical derivatives were best able to explain variations in land cover types (82% to 96%), whilst spectral and vegetation structural derivatives were less accurate. When compared with field measurements, the hierarchical classification of plateau edges (adjacent to a fen) was within 2m of measured, 60% of the time, whilst this occurred only 40% of the time when using a spectral classification. When examining the impacts of land cover classification accuracy on modelled discharge, we find that the length of the Hydrological Response Unit defined by the classification (and subject to varying levels of errors) was linearly related to discharge (m3) such that an increase in permafrost plateau area would increase discharge by 26% of the total. The methodology presented in this paper clarifies previous classification and modelling studies using Landsat and IKONOS data for the same basin. This study greatly improves upon past classifications in the same area, furthers our understanding of the distribution of connected bogs and fens (as conveyors of water to the basin outlet) within the watershed, and current spatial extents of rapidly thawing permafrost plateaus, which are critical for better understanding the impacts of climate change on these northern environments. This study presents a decision-tree (DT) approach to classifying heterogeneous land cover types within a northern watershed located in the zone of discontinuous permafrost using airborne LiDAR and high resolution spectral datasets. Results are compared with a more typically applied supervised classification. Increasing errors in discharge resulting from an inaccurate classification are quantified using a distributed hydrological model. The hierarchical classification was accurate between 88% and 97% of the validation sub-area, whereas the parallelepiped classification was accurate between 38% and 74% of the same area (despite overall accuracy of ~91%, kappa=0.91). Topographical derivatives were best able to explain variations in land cover types (82% to 96%), whilst spectral and vegetation structural derivatives were less accurate. When compared with field measurements, the hierarchical classification of plateau edges (adjacent to a fen) was within 2m of measured, 60% of the time, whilst this occurred only 40% of the time when using a spectral classification. When examining the impacts of land cover classification accuracy on modelled discharge, we find that the length of the Hydrological Response Unit defined by the classification (and subject to varying levels of errors) was linearly related to discharge (m3) such that an increase in permafrost plateau area would increase discharge by 26% of the total. The methodology presented in this paper clarifies previous classification and modelling studies using Landsat and IKONOS data for the same basin. This study greatly improves upon past classifications in the same area, furthers our understanding of the distribution of connected bogs and fens (as conveyors of water to the basin outlet) within the watershed, and current spatial extents of rapidly thawing permafrost plateaus, which are critical for better understanding the impacts of climate change on these northern environments. •A decision tree approach used to classify permafrost plateaus, peatlandsand uplands.•Classification fuses LiDAR and WorldView2 spectral data, accurate to 88-97%.•The best spectral classification is 38% to 74% accurate.•Topographical derivatives were best able to explain variations in land cover types.•An overestimation in permafrost area will increase discharge by 26% per unit area. |
| Author | Chasmer, L. Quinton, W. Veness, T. Baltzer, J. Hopkinson, C. |
| Author_xml | – sequence: 1 givenname: L. surname: Chasmer fullname: Chasmer, L. email: laura.chasmer@gmail.com organization: Department of Geography and Environmental Management, University of Waterloo, Waterloo, ON N2L 3G1, Canada – sequence: 2 givenname: C. surname: Hopkinson fullname: Hopkinson, C. email: c.hopkinson@uleth.ca organization: Department of Geography, University of Lethbridge, Lethbridge, AB T1K 3M4, Canada – sequence: 3 givenname: T. surname: Veness fullname: Veness, T. email: vene7610@mylaurier.ca organization: Cold Regions Research Centre, Wilfrid Laurier University, Waterloo, ON N2L 3C1, Canada – sequence: 4 givenname: W. surname: Quinton fullname: Quinton, W. email: wquinton@wlu.ca organization: Cold Regions Research Centre, Wilfrid Laurier University, Waterloo, ON N2L 3C1, Canada – sequence: 5 givenname: J. surname: Baltzer fullname: Baltzer, J. email: jbaltzer@wlu.ca organization: Deptartment of Biology, Wilfrid Laurier University, Waterloo, ON N2L 3C1, Canada |
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| Keywords | Airborne LiDAR Discontinuous permafrost Classification Hydrological model WorldView 2 Permafrost thaw Peatland Discharge Discontinuous accuracy vegetation Decision tree Result drainage basins Field plateaus variations discharge Plant cover soils land cover high resolution Validation Hierarchical classification Zone topography Supervised classification heterogeneity hydrological modeling permafrost Lidar errors |
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| SubjectTerms | Airborne LiDAR Animal, plant and microbial ecology Applied geophysics basins Biological and medical sciences bogs Classification climate change conveyors data collection decision support systems Derivatives Discharge Discontinuous permafrost Earth sciences Earth, ocean, space Exact sciences and technology fens Fundamental and applied biological sciences. Psychology General aspects. Techniques Hydrological model Hydrology Internal geophysics Land cover Landsat lidar Peatland Permafrost Permafrost thaw plateaus remote sensing Spectra spectral analysis Teledetection and vegetation maps thawing vegetation types Watersheds WorldView 2 |
| Title | A decision-tree classification for low-lying complex land cover types within the zone of discontinuous permafrost |
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