Estimation of fire severity by use of Landsat TM images and its relevance to vegetation and topography in the 2000 Samcheok forest fire

• Published in: Journal of forest research Vol. 13; no. 4; pp. 197 - 204
• Main Authors: Lee, Byungdoo, Kim, Seon Young, Chung, Joosang, Park, Pil Sun
• Format: Journal Article
• Language: English
• Published: Japan Japan : Springer Japan 01.08.2008; Taylor & Francis; Springer Japan; Taylor & Francis Ltd
• Subjects: Biomedical and Life Sciences; Coniferous forests; Elevation; Fire severity; Forest fires; Forestry; Forestry Management; Forests; Landsat; Landsat satellites; Landsat TM image; Life Sciences; NDVI; Original Article; Plant Ecology; Plant Sciences; Remote sensing; Topography; Tree Biology; Vegetation; Vegetation effects; Vegetation structure; Fire severity; NDVI; Vegetation structure; Topography; Landsat TM image
• ISSN: 1341-6979; 1610-7403
• DOI: 10.1007/s10310-008-0072-x

The severity of the 2000 Samcheok forest fire was classified by using Landsat TM images, and the effects of vegetation structures and topographic conditions on fire severity were analyzed. The estimated normalized difference vegetation index differences between the pre and post-fire Landsat TM images were used as the criteria in determining the levels of fire severity-low, moderate, and extreme. According to the results from fire severity estimation, of the 10,600 ha forest stands, 28% was severely damaged by crown fires, 38% was moderately damaged, and the remaining 34% was damaged slightly by surface fires. The overall accuracy of the fire severity classification was 83% (Kappa coefficient = 0.76). The results of χ ²-tests showed that fire severity differed significantly with the vegetation and topographic conditions as follows. The coniferous stands, compared with the mixed and broad-leaved, were more vulnerable to fire damage; the higher the slope of fire sites, the greater the fire damage; the south was the most vulnerable aspect; fire severity of coniferous forest stands increased with increasing elevation. However, in the study area it was found that fire severity of broad-leaved forest stands were negatively related to the elevation of the corresponding fire sites and affected more by vegetation conditions rather than by topographic conditions.