期刊
WETLANDS
卷 29, 期 1, 页码 248-260出版社
SPRINGER
DOI: 10.1672/08-91.1
关键词
accuracy; aerial photography; forest; IKONOS; NWI; topography; WWI
资金
- NASA Terrestrial Ecology Program
- U.S. Forest Service
- U.S. Department of Energy
- National Institute for Climate Change Research
- Minnesota State Agricultural Experiment Station
Most wetland maps must be updated for much of North America. High-resolution satellite images and LiDAR-based elevation data have been developed in recent years, and these may prove useful in wetland mapping. We compared the accuracy of the Wisconsin Wetland Inventory maps (WWI) to maps derived from IKONOS high resolution satellite data and LiDAR data for a 63.4 km(2) study area in north-central Wisconsin. One-meter, resolution merged multispectral and panchromatic IKONOS data were used with a resolution LiDAR-based digital elevation model in a manual interpretation of wetland types. IKONOS/LiDAR data were significantly more accurate (74.5% classification accuracy) than WWI data (56%) when wetlands were categorized into WWI classes. Improved accuracies were largely due to less confusion between upland and wetland classes, and generally better distinction among the various wetland classes. LiDAR data improved upland/wetland distinction, based on relative terrain among and derived terrain-shape indices. Confusion in all classifications was particularly common, lowland coniferous Species, and among evergreen shrub and moss classes.
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