DOI QR코드

DOI QR Code

Study on the Basic Information of Carbon Absorption Source in Gangneung Area Considering Green Environment -Centering on geopolitical positions-

녹지환경을 고려한 탄소흡수원의 기초정보에 대하여 -강릉지역의 지정학적 위치를 중심으로-

  • Li XiangJie (Environmental Technical Cooperation Process Graduate school of General Studies, Gangneung-Wonju National University) ;
  • Tae-Dong Cho (Department of Environmental Landscape Architecture, Gangneung-Wonju National University)
  • 이상걸 (강릉원주대학교 일반대학원 환경기술협동학과) ;
  • 조태동 (강릉원주대학교 생명과학대 환경조경학과)
  • Received : 2023.08.31
  • Accepted : 2023.09.13
  • Published : 2023.09.30

Abstract

The study analyzes the forest status of each local government for Korean forests and believes that it can be used as basic data for setting the direction pursued by each local government. The study took into account the fact that the forest rate in Korea was 63.5%, because it was judged that the higher the proportion of forest area, the more important it was to use the characteristics of forests. The characteristics of forests were analyzed based on four factors in 12 factors to identify the location of the ground body by dividing seven types. In addition, basic information on carbon absorption sources was provided by grasping the ability of carbon absorption sources per year through the amount of forest resources to be analyzed. In addition, as a result of analyzing the characteristics of the weather for the promotion of carbon absorption sources, the flat area on the side of Gangneung Mountain was a warm forest with a warm index of 106.0.

Keywords

References

  1. Kim, C. B., Park, K. H., Bae, Y. T., Yoon, H. J., Kim, K. H., 2013, Comparison of Soil physical-chemical characteristics on Coastal disaster prevention Forest in the coast of Korea using Principal Compinent Analysis, Korean Society of Forest Science Conferences, Korea, 595-598. 
  2. Korea Forest Service, 2014, New York Declaration on Forest, 9. 
  3. Korea Forest Service, 2020, Statistical Yearbook of Forestry. 
  4. Korea Forest Service, 2021, Strategies to promote the forest sector to achieve carbon neutrality in 2050(draft), 1-37. 
  5. Lee, Y. G., Won, M. S., Kim, S. J., Jeong, Y. J., 2021, Current status of forest resource management in advanced forestry countries - Japan, Germany, the United States, Austria, New Zealand -. National Institute of Forest science, 916, 157. 
  6. Lee, S. J., Im, J. S., Kang, J. T., 2019, Standard carbon absorption of major forest species(ver. 1.2), National Institute of Forest Science, 19-1-129, 23. 
  7. National Institute of Forest Science, 2023, https://idsn.co.kr/news/view/1065600932908490. 
  8. Press Releases, 2023, Korean Statistical Information Service, https://kosis.kr/statisticsList/statisticsListIndex.do?vwcd=MT_ZTITLE&menuId=M_01_01. 
  9. Shin, H. J., Kim, E. G., kim, D. H., Kim, H. G. 2012, The factor clustering of growing stock changes by forest policy using principal component analysis, Journal of Agriculture & Life Science, 46(2), 1-8. 
  10. Son, Y. M., Jeon, H. S., Jeon, J. H., Kang, J. T., Im, J. S., Park, Y. J., Kim, J. O., 2016, Real Forest Imperative Scale, National Institute of Forest Science, 677, 64. 
  11. Yang, B. H., 2007, Understanding and Application of Multivariate Data Analysis, Hakjisa, Seoul, 402.