Journal of Korean Society of Forest Science (한국산림과학회지)

Korean Society of Forest Science (한국산림과학회)
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The Production Objectives and Optimal Standard of Density Control Using Stand Density Management Diagram for Pinus densiflora Forests in Korea

임분밀도관리도를 이용한 소나무림의 적정 임분밀도 관리 기준 및 수확목표

  • Park, Joon-hyung (Southern Forest Resources Research Center, National Institute of Forest Science) ;
  • Jung, Su-Young (Southern Forest Resources Research Center, National Institute of Forest Science) ;
  • Yoo, Byung-oh (Southern Forest Resources Research Center, National Institute of Forest Science) ;
  • Lee, Kwang-Soo (Southern Forest Resources Research Center, National Institute of Forest Science) ;
  • Park, Yong-bae (Southern Forest Resources Research Center, National Institute of Forest Science) ;
  • Kim, Hyung-Ho (Department of Forest Environmental Resources Sciences, Gyeongsang National University (Institute of Agriculture and Life Science))
  • 박준형 (국립산림과학원 남부산림자원연구소) ;
  • 정수영 (국립산림과학원 남부산림자원연구소) ;
  • 유병오 (국립산림과학원 남부산림자원연구소) ;
  • 이광수 (국립산림과학원 남부산림자원연구소) ;
  • 박용배 (국립산림과학원 남부산림자원연구소) ;
  • 김형호 (경상대학교 산림환경자원학과(농업생명과학연구원))
  • Received : 2017.08.19
  • Accepted : 2017.10.10
  • Published : 2017.12.31
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Abstract

This study has utilized the stand density management diagram to devise an efficient management standard for the stand density for Pinus densiflora that secures the health of the stands and predicted the harvest goals. The appropriate stand control level was estimated by modeling the relationship of the relative yield index (Ry) to the ratio of slender trees within the stand through an exponential function; the coefficient of determination ($R^2$) was found to be 0.424 according to the estimation. The ratio of slender trees within the stand showed a tendency of rapid increase at a certain relative yield index; with this relational function, the appropriate Ry value of 0.84 was obtained. By estimating the curve of the Ry value 0.84, which was the appropriate stand density management level, as well as the height of dominant trees in the central region of Korea, the production objective for each site index was set. Assuming that the final age by the site indices ranged from 10 to 16 for the P. densiflora in central region of Korea, the number of production was estimated to be between 426 to 1,311 trees per ha. It was predicted that the production of medium-diameter logs larger than 30 cm in diameter is possible for the target DBH at a site index of more than 16; small-diameter logs larger than 20 cm in diameter for site indices 12 and 14 enabled, and small-diameter logs of less than 20 cm for site index 10.

본 연구에서는 소나무 임분밀도관리도를 이용하여 소나무 임분의 건정성을 확보할 수 있는 효율적인 임분밀도 관리 기준을 마련하고 이로부터 실행가능한 임분의 생산목표를 예측하였다. 적정 임분 관리수준은 임내 세장목 비율에 대한 수량비수(Relative yield index: Ry)의 관계를 지수함수로부터 모형 추정을 하였으며, 추정 결과 모형 설명력은 0.424로 나타났다. 임내 세장목 비율은 특정 수량비수에 도달하면 급격히 증가하는 경향이 나타났고, 이 관계식을 근거로 하여 목표하는 적정 Ry 값 0.84를 구하였다. 적정 임분밀도 관리 기준인 Ry 0.84 값의 곡선과 중부지방소나무의 우세목 수고를 예측하여 지위지수별 생산목표를 설정하였다. 중부지방소나무 지위지수 10~16의 범위에서 벌기령을 60년으로 할 때 예측되는 수확본수는 ha당 425~1,311본으로 나타났다. 목표 흉고직경은 지위지수 16이상에서 30 cm 이상 중경재 생산이 가능하며, 지위 14와 12는 20 cm 이상 소경재 생산, 지위 10은 20 cm 미만 소경재 생산이 가능할 것으로 예측되었다.

Keywords

References

  1. Ando, T. 1962. Growth analysis on the natural stands of Japanese red pine (Pinus densiflora Sidb Et Zucc). II. Analysis of stand density and growth. Bulletin Government Forest Experiment Station 210: 1-153.
  2. Ando, T. 1968. Ecological Growth analysis on the natural stands of Japanese red pine (Pinus densiflora Sidb Et Zucc). II. Analysis of stand density and growth. Bulletin Government Forest Experiment Station 210: 1-153.
  3. Drew, T.J. and J.W. Flewilling. 1979. Stand density management and alternative approach and its application to Douglas-fir plantations. Society of American Foresters 25(3): 518-532.
  4. Fish H., Lieffers, V.J., Silins, U. and Hall R.J. 2006. Crown shyness in lodgepole pine stands of varying stand height, density, and site index in the upper foothills of Alberta. Canadian Journal of Forest Resources 36: 2104-2111. https://doi.org/10.1139/x06-107
  5. Forestry and Forest Products Research Institute. 2011. Guidelines and fundemental concepts for the management of pinus thenberggi coastal forests: Control of the number of trees and utilization of invading broad leaved trees. Tsukuba, Japan. pp. 55. (in Japanese).
  6. Gujarati, D.N. 2009. Basic Econometrics 5th Edition. Mcgraw-Hill. pp. 1118.
  7. Kimberley, M.O., West, G., Dean M., Knowles L. and Ensis R. 2005. The 300 Index-a volume productivity index for radiata pine. New Zealand Journal of Forestry 50: 1-18.
  8. Kim, S.W., Chun K.W., Park, K.H., Lim, Y.H., Yun, J.U., Kwon, S.M., Youn, H.J., Lee, J.H., Teramoto Y. and Ezaki T. 2015. The necessity and method of stand density control considering the shape ratio of Pinus thunbergii coastal disaster prevention forests in South Korea. Journal of Korean Forest Society 104(3): 441-420. https://doi.org/10.14578/jkfs.2015.104.3.411
  9. Korean Forest Service and National Institute of Forest Science. 2005. Standardized manual of sustainable forest management. pp. 289.
  10. Korea Forest Service and National Institute of Forest Science. 2014. Stand volume.biomass & Stand yield table. pp. 261.
  11. KFS (Korea Forest Service). 2000. Forest & Forestry Technique (II): forest creation. Dajeon, Korea. pp. 509. (in Korea).
  12. Kunisaki, T. 2005. Pattern of snow accretion damage in an old sugi (Cryptomeria japonica D. Don) plantation at the base of Mt. Iwate, Northern Japan. Journal of the Japanese Forest Society 87: 426-429. https://doi.org/10.4005/jjfs.87.426
  13. Moktan, M.R., Kwon, J., Lim, J.H., Shin, M.H., Park, C.W. and Bae, S.W. 2015. Wind stability of commercially important tree species and silvicultural implications, Daegwallyeong Korea. Korean Journal of Agricultural and Forest Meteorology 17(1): 58-68. https://doi.org/10.5532/KJAFM.2015.17.1.58
  14. National Institute of Forest Science. 2013. Japanese black pine (Pinus thunbergii) and stand management in souther forest region of Korea Southern region black pine resources and stand management. Research material no. 509. Seoul, Korea pp. 113. (in Korean).
  15. National Institute of Forest Science. 2015. Thinning and targeted forest type. pp. 161.
  16. Newton, P.F. and Weetman G.F. 1993. stand density management diagrams and their utility in black spruce management. The Forestry Chronicle 69: 421-430. https://doi.org/10.5558/tfc69421-4
  17. Newton, P.F and G.F. Weetman. 1994. Stand density management diagram for managed black spruce stands. The Forestry Chronicle 70(1): 65-74. https://doi.org/10.5558/tfc70065-1
  18. Newton, P.F. 1997. Stand density management diagrams : Review of their development and utility in stand-level management planning. Forest Ecology and Management 98: 251-265. https://doi.org/10.1016/S0378-1127(97)00086-8
  19. Newton, P.F., Lei, Y. and Zhang, S.Y. 2004. A parameter recovery model for estimating black spruce diameter distribution within the context of a stand density management diagram. The Forestry Chronicle 80(3): 349-358. https://doi.org/10.5558/tfc80349-3
  20. Oda, T. 1992. Tending, density management and regeneration techniques. pp. 395-408. In: Murai, H., Ishikawa, M., Endo, Jo., and Tadaki, R.(Eds.) The coastal forest in Japan: its multiple functions and use. Soft Science, Inc. Tokyo, Japan (in Japanese)
  21. Park, J.H., Lee, K.S., Yoo, B.O., Park, Y.B., and Jung, S.Y. 2016. Development and validation of the stand density management diagram for Pinus densiflora Forests in Korea. Korean Forest Society 105(3): 342-350. https://doi.org/10.14578/jkfs.2016.105.3.342
  22. Reineke, L.H. 1933. Perfecting a stand-density index for even-aged forests. J. Agric. Res. 46: 627-638.
  23. Sakamoto, T., Hagino, H., Noguchi H., Shimada K. and Goto, Y. 2010. Is forwarding the stem density of pinus thenbergii coastal forests to self-thinning proper silvicultural management. Jounal of the Japanese Society of Coastal Forest 9(2): 79-84.
  24. Valinger, E. and Pettersson, N. 1996. Wind and snow damage in a thinning and fertilization experiment in Picea abies in southern Sweden. Forestry 69: 29-33.
  25. Wonn, H.T. and K.L. O'hara, 2001. Height:Diameter ratios and stability relationships for four Northern Rocky mountain tree species. Society of American Foresters 16(2): 87-94.
  26. Yoda, K., Kira, T., Ogawa, H. and Hozumi, K. 1963. Self-thinning in overcrowded pure stands under cultivated and natural conditions. Journal of Biology (Osaka City University, Japan) 14: 107-129.

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