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http://dx.doi.org/10.14578/jkfs.2018.107.2.174

Prediction of Mortality and Yield for Chamaecyparis obtusa Using Stand Density Management Diagram  

Park, Joon Hyung (Forest Biomaterials Research Center, National Institute of Forest Science)
Yoo, Byung Oh (Forest Biomaterials Research Center, National Institute of Forest Science)
Lee, Kwang Soo (Forest Biomaterials Research Center, National Institute of Forest Science)
Park, Yong Bae (Forest Biomaterials Research Center, National Institute of Forest Science)
Kim, Hyung-Ho (Department of Forest Environmental Resources Sciences, Gyeongsang National University)
Jung, Su Young (Forest Biomaterials Research Center, National Institute of Forest Science)
Publication Information
Journal of Korean Society of Forest Science / v.107, no.2, 2018 , pp. 174-183 More about this Journal
Abstract
This study aims to make the stand density management diagram which is useful for establishing stand density management system in Chamaecyparis obtusa forest. By using 216 sample plots to estimate Yield-Density relationship ($R^2=0.743$), the stand density management diagram was modeled by the estimated parameters. As a result of this diagram, after planting 3,000 trees per hectare the mortality rate of this unthinned C. obtusa stands over 80 years was estimated to be equal to $12.0{\sim}18.1trees{\cdot}ha^{-1}{\cdot}year^{-1}$, and stand volume was $463.1{\sim}695.4m^3{\cdot}ha^{-1}$, and stand density was $1,555{\sim}2,038trees{\cdot}ha^{-1}$. Developed stand density management diagram for C. obtusa is effective to establish the management criteria and production objective. Therefore, this study allowed us to make the optimal forest working plan.
Keywords
stand density management; growth; thinning; full density curve; management criteria; production objective;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
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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 147: 1-77.
2 Ando, T. 1968. Ecological studies on the stand density control in even-aged stand. Bulletin Government Forest Experiment Station 210: 1-153.
3 Drew, T. J. and Flewelling, J. W. 1977. Some recent Japanese theories of yield-density relationships and their application to Monterey pine plantations. Forest Science 23: 517-534.
4 Drew, T.J. and Flewelling, J.W. 1979. Stand density management: and alternative approach and its application to Douglas-fir plantatins. Society of American Foresters 25(3): 518-532.
5 Forestry and Forest Products Research Institute. 2012. RYield calculation program. http://www.ffpri.affrc.go.jp/en/ (2012.11.01.)
6 Kim, D.K., Kim, J.W., Park, S.K., Oh, M.Y. and Yoo, J.H. 1987. Growth analysis of natural pure young stand of red pine in Korea and study on the determination of reasonable density. Research Report of Forest Institute Korea 34: 32-40.
7 Kira, T., Ogawa, H. and Hozumi, K. (1953) Intraspecific competition among higher plants I: Competition-yield- density interrelationship in regularly dispersed populations. Journal of the Institute of Polytechnics, Osaka City University Series D, 4: 1-16.
8 Korea forest service and National institute of forest science. 2014. Stand volume.biomass & Stand yield table. pp. 261.
9 Koyama, H. and Kira, T. 1956. Intraspecific competition among higher plants. VIII. Frequency distributions of individual plant weight as affected by the interaction between plants. Journal of the Institute of Polytechnics Osaka City University Series D, 7: 73-94.
10 McCarter, J.B. and Long, J.N. 1986. A lodgepole pine density management diagram. Western Journal of Applied Forestry 1: 6-11.
11 Nagahama, T. 2003. Preparation of the original stand density control diagram for Sugi plantations in Kagoshima. Bulletin of the Kagoshima Prefectural Forest Experiment Station 8: 1-11.
12 Newton, P.F. 1992. Base-age invariant polymorphic site index curves for black spruce and balsam fir within central Newfoundland. Northern Journal of Applied Forestry 9: 18-22.
13 Newton, P.F., Lei, Y. and Zhang, S.Y. 2004. A parameter recoverry model for estimating black spruce diameter distributions within the context fo a stand density management diagram. The Forestry Chronicle 80(3): 349- 358.   DOI
14 Newton, P.F. and Weetman, G.F. 1994. Stand density management diagram for managed black spruce stands. The Forestry Chronicle 70(1): 65-74.   DOI
15 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.   DOI
16 Newton, P.F., Lei, Y. and Zhang, S.Y. 2004. A parameter recoverry model for estimating black spruce diameter distributions within the context fo a stand density management diagram. The Forestry Chronicle 80(3): 349-358.   DOI
17 Newton, P.F. 2009. Development of an integrated decision- support model for density management within jack pine stand-type. Ecological Modelling 220: 3301-3324.   DOI
18 Newton, P.F. 2012. A decision-support system for forest density management within upland black spruce stand-type. Environmental Modelling & software 35: 171-187.   DOI
19 Puettmann, K.J., Hibbs, D.E. and Hann, D.W.1992. The dynamics of mixed stands of Alnus rubra and Pseudotsuga menziesii: Extension of size-density analysis to species mixture. Journal of Ecology 80: 449-458.   DOI
20 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. Journal of Korean Forest Society 105(3): 342-350.   DOI
21 Shim, D.S., Park, C.W., Lee, H.K. and Kim, S.I. 1987. A study on stand density management diagram of pitch pine (Pinus rigida) stnad. Research Report of Forest Institute Korea 34: 12-21.
22 Reineke, L.H. 1933. Perfecting a stand-density index for even-aged forests. Journal of Agriculture Research 46: 627-638.
23 Shim, D.S., Park, C.W., Lee, H.K. and Kim, S.I. 1985. A study on stand density management diagram of Korean white pine (Pinus Koreaiensis) stnad. Research Report of Forest Institute Korea 32: 38-48.
24 Shim, D.S., Park, C.W., Lee, H.K. and Kim, S.I. 1986. A study on stand density management diagram of Japanese larch (Larix leptolepis) stnad. Research Report of Forest Institute Korea 33: 1-12.
25 Shinozaki, K. and Kira, T. 1956. Intraspecific competition among higher plants. VII. Logistic theory of the C-D effect. Journal of the Institute of Polytechnics Osaka City University Series D, 12: 69-82.
26 Smith, F.W. and Long J.N. 1987. Elk hiding and thermal cover guidelines in the context of lodgepole pine stand density. Western Journal of Applied Forestry 2: 6-10.
27 Smith, N.J. 1989. A stand-density control diagram for western red cedar, Thuja plicata. Forest Ecology and Management 27: 330-334.
28 Yoda, T. 1963. The pre-estimating of stem yield based on the competition density effect. Bulletin Government Forest Experiment Station 154: 1-19.