한국환경복원기술학회지 (Journal of the Korean Society of Environmental Restoration Technology)
- 제10권5호
- /
- Pages.20-30
- /
- 2007
- /
- 1229-3032(pISSN)
- /
- 2733-5011(eISSN)
LiDAR를 활용한 국토환경성평가지도 산림부문 신규 평가항목의 도입 가능성 평가
Introduction of the New Evaluation Criteria in the Forest Sector of Environmental Conservation Value Map Using LiDAR
- Jeon, Seong-Woo (Korea Environment Institute) ;
- Hong, Hyun-Jung (Korea Environment Institute) ;
- Lee, Chong-Soo (Korea Environment Institute) ;
- Lee, Woo-Kyun (Department of Environmental Science & Ecological Engineering, Korea University) ;
- Sung, Hyun-Chan (Gyeonggi Research Institute)
- 투고 : 2007.06.06
- 심사 : 2007.09.07
- 발행 : 2007.10.30
초록
Environmental Conservation Value Assessment Map (ECVAM) is the class map to divide the national land into conservation areas and development areas based on legal and ecological assessment criteria. It contributes to enhancements of the efficiency and the scientificity when framing a policy in various fields including the environment. However, it is impossible to understand the multiphase vegetation structure as data on judging the national forest class in ECVAM are restricted to areal information of Ecological Nature Status, Degree of Green Naturality and Forest Map. This point drops the reliability of ECVAM. Therefore we constructed vegetation information using LiDAR (Light Detection And Raging) technology. We generated Biomass Class Maps as final results of this study, to introduce the new forest assessment criterion in ECVAM that alternates or makes up for existing forest assessment criteria. And then, we compared these with Forest Map and Landsat TM NDVI image. As a result, biomass classes are generally higher than stand age classes and DBH classes of Vegetation Map, and lower than NDVI of Landsat TM image because of the difference of time on data construction. However distributions between these classes are mostly similar. Therefore we estimates that it is possible to apply the biomass item to the new forest assessment criterion of ECVAM. The introduction of the biomass in ECVAM makes it useful to detect the vegetation succession, to adjust the class of the changed zone since the production of Vegetation Map and to rectify the class error of Vegetation Map because variations on tree heights, forest area, gaps between trees, vegetation vitality and so on are acquired as interim findings in process of computing biomass.