참고문헌
- Alban, D.H., Pelata, D.A. and Schlaegel, B.E. 1978. Biomass and nutrient distribution in aspen, pine and spruce stands on the same soil type in Minnesota. Canadian Journal of Forest Research 8: 290-299. https://doi.org/10.1139/x78-044
- Bartelink, H.H. 1998. A model of dry matter partitioning in trees. Tree Physiology 18: 91-101. https://doi.org/10.1093/treephys/18.2.91
- Burden, A.X. and Martin, P.A.F. 1982. Chemical root pruning of coniferous seedlings. Horticulture Science 17: 622-624.
- Cairns, M.A., Brown, S., Helmer, E.H. and Baumgardner, G.A. 1997. Root biomass allocation in the world's upland forests. Oecologia 111: 1-11. https://doi.org/10.1007/s004420050201
- Cha, D.S., Oh, J.H., Ji, B.Y. and Chun, K.W. 2002. A study on slope stability effects by the tree root systems(I) -Spatial distribution and physical properties of red pine tree roots-. Joural of Korean Forest Society 91(1): 71-78.
- Drexhage, M. and Gruber, F. 1999. Above- and below stump relationships for Picea abies -estimating root system biomass from breast-height diameter-. Scanadinavian Journal of Forest Research 14: 328-333. https://doi.org/10.1080/02827589950152647
- Fogel, R. and Hunt, G. 1983. Contribution of mycorrhizae and soil fungi to nutrient cycling in a Douglas-fir ecosystem. Canadian Journal of Forest Research 13: 219-232. https://doi.org/10.1139/x83-031
- Gruber, F. 1994. Morphology of coniferous trees : possible effects of soil acidification on the morphology of Norway spruce and Silver fir. In Godbold, D and Htittermann, A. (Eds.) Effects of Acid Rain on forest Processes, Wilwy-Liss, New York. pp. 256-324.
- Halter, M.R., Chanway, C.P. and Harper, G.J. 1993. Growth reduction and root deformation of containerized Lodgepole pine saplings 11 years after planting. Forest Ecology and Management 56: 131-146. https://doi.org/10.1016/0378-1127(93)90108-Y
- Huuri, O. 1978. Effects of various treatments at planting and of soft wall containers on the development of Scots pine. In The Root Form of Planted Trees. Proc. Symp., 16-19 May 1978. Victoria, B.C., Canada. (Eds.) Van Eerden, E. and Kinghorn, J.M. British Columbia Ministry of Forests, Victoria. pp. 101-108.
- Jin, Y.H., Meng, X. and Lee, D.K. 1999. Biomass producitivity and its vertical allocation of natural Pinus densiflora forests by stand density at the northeastern part of Mt. Baekdoo. Journal of Korean Forest Environment 18(2):92-99.
- Kapeluck, P.R. and Van Lear, D.H. 1995. A technique for estimating below-stump biomass of mature loblolly pine plantations. Canadian Journal of Forest Research 25: 355-360. https://doi.org/10.1139/x95-039
- Keyes, M.R. and Grier, C.C. 1981. Below- and aboveground biomass and net production in two contrasting Douglas-fir stands. Canadian Journal of Forest Research 11: 599-605. https://doi.org/10.1139/x81-082
- Kim, K.D. and Kim, C.M. 1988. Research trends on forest biomass production in Korea. Journal of Korean Forest Environment 8(2): 94-107.
- Kim, G.T. 2004. Ecological forest management and reforestation problem -Comparison of diameter increment of Juflans mandshurica between artificial and natural forest-. Korean Society of Environment and Ecology 17(4): 309-315.
- Koch, P. 1989. Estimates by species group and region in the USA of below-ground root weight as a percentage of overdry complete-tree weight and carbon content of tree portions. Wood science laboratory, Inc., Carvallis, MT. pp. 23.
- Kostler, J.N., Bruckner, E. and Bibelriether, E. 1968. Die Wurzeln der Waldbaume. Verlag Paul Parey, hamburg, Germany . pp. 284.
- Kuiper, L.C. and Coutts, M.P. 1992. Spatial disposition and extension of the structural root system of Douglas-fir. Forestry Ecology Management 47: 111-125. https://doi.org/10.1016/0378-1127(92)90269-F
- Kwon, K.C. and Lee, D.K. 2006. Biomass and annual net production of Quercus mongolica stands in Mt, Joongwang with respect to altitude and aspect. Journal of Korean Forest Society 95(4): 398-404.
- Lacointe, A. 2000. Carbon allocation among tree organs : A review of basic processes and representation in functional- structural tree models. Annals of Forest Science 57:521-533. https://doi.org/10.1051/forest:2000139
- Le Goff, N. and Ottorini, J.M. 2001. Root biomass and biomass increment in a beech (Fagus sylvatica L.) stand in North-Esat france. Annals of Forest Science 58: 1-13. https://doi.org/10.1051/forest:2001104
- Lee, D.H. 2000. Root morphology of norway spruce (Picea abies) in the differently acidificated forest soil. Journal of Korean Forest Society 89(5): 677-684.
- Lee, D.H. 2001. Relationship between above- and belowground biomass for norway spruce (Picea abies) : Estimating root system biomass from breast height diameter. Journal of Korean Forest Society 90(3): 338-345.
- Lee, D.H. 2004a. Estimating above- and below-ground biomass from diameter of breast height and height for the Pinus densiflora Sieb. et Zucc. Journal of Korean Forest Society 93(3) : 242-250.
- Lee, D.H. 2004b. Root adaptation of Pinus densiflora Sieb. et Zucc in the differently acidified forest soil in Korea. Journal of Korean Forest Society 93(1): 50-58.
-
Lee, K.J., Kim, K.D., Kim, J.S. and Park, I.H. 1985. Distribution of biomass and production of Pinus rigida and Pinus rigida
${\times}$ taeda Plantation in Kwangju District. Journal of Korean Forest Society 69: 28-35. - Lee, Y.J., Lee, M.H., Lee, K.H., Son, Y.M., Seo, J.H., Park, I.H. and Son, Y.H. 2006. Effects of stand age classes on biomass expansion factors and stem densities in Chamaecyparis obtusa plantations. Journal of Korean Forest Society 95(1): 50-54.
- Marler, T.E. and Wilis, D. 1996. Chemical or air root pruning containers improve carambola. -Logan and mongo seedling root morphology and initial root growth after transplanting-. Journal of Environment Horticulture. 14(2):47-49.
- Na, S.J., Woo, K.S., Kim, C.S., Yoon, J.H., Lee, H.H. and Lee, D.H. 2010. Comparison of above-ground growth characteristics between naturally regenerated and planted stands of Pinus densiflora for. erecta Uyeki in Gangwon Province. Journal of Korean Forest Society 99(3): 323-330.
- Noh, N.J., Son, Y.h., Kim R.H., Seo, K.Y., Seo, K.W. Koo, J.W., Kyung, J.H., Kim, J.S., Lee, Y.J., Park, I.H., Lee, K.H. and Son, Y.M. 2005. Biomass of Korean pine (Pinus koraiensis) in gapyeong area. Korean Journal of Forest Measurements 8: 75-82.
- Nielsen, C.N. 1992. Will traditional conifer tree breeding for enhanced stem production reduce wind stability? Silvae Genetica 41: 307-318.
- Park, G.S. and Lee, S.W. 2002. Biomass and net primary production of Quercus serrata natural stands in Kwangyang, Muju and Pohang areas. Journal of Korean Forest Society 91(6): 714-721.
- Park, I.H. and Lee, S.M. 1990. Biomass and net production of Pinus densiflora natural forests of four local forms in Korea. Journal of Korean Forest Society 79(2): 196-204.
- Park, I.H., Lee, D.K., Lee, K.J. and Moon, G.S. 1996. Growth, biomass and net production of Quercus Species(I) -With Reference to Natural Stands of Quercus variabilis, Q. acutissima, Q. dentata, and Q. mongolica in Kwangju, Kyonggido-. Journal of Korean Forest Society 83(1): 76-83.
- Park, I.H., Park, M.S., Lee, K.H., Son, Y.M., Seo, J.H., Son, Y.h. and Lee, Y.J. 2005. Biomass expansion factors for Pinus densijfora in relation to ecotype and stand age. Journal of Korean Forest Society 94(6): 441-445.
- Persson, H. 1983. The distribution and productivity of fine roots in boreal forests. Plant and Soil 71: 87-101. https://doi.org/10.1007/BF02182644
- Persson, P. 1978. Some possible methods of influencing the root development of containerized tree seedlings. pp. 295-300 in Van Eerden and Kinghorn (1978).
- Plourde, A., Krause, C. and Lord, D. 2009. Spatial distribution, architecture, and development of the root system of Pinus banksiana Lamb. in natural and planted stands. Forest Ecology and Management 258: 2143-2152. https://doi.org/10.1016/j.foreco.2009.08.016
- Robert, J.A. and Lindgren, B.S. 2006. Relationships between root form and growth, stability, and mortality in planted versus naturally regenerated lodgepole pine in north-central British Columbia. Canadian Journal of Forest Research 36(10): 2642-2653. https://doi.org/10.1139/x06-146
- Santantonio, D. 1990. Modeling growth and production of tree roots. In Dixon, R.K., Meldah, R.S., Ruark. G.A., Warren, W.G. (Eds.) Process modeling of forest growth responses to environmental stress. Timber Press, Portland. pp. 124-141.
- Sundström, E. and Keane, M. 1999. Root architecture, early development and basal sweep in containerized and barerooted Douglas-fir (Pseudotsuga menziesii). Plant and Soil 217: 65-78. https://doi.org/10.1023/A:1004693031375
- Sutton, R.F. and Tinus, R.W. 1983. Root and root system terminology. Forest Science 29, Monograph 24. pp. 137.
- Thies, W.G. and Cunningham, P.G. 1996. Estimating largeroot biomass from stump and breast-height diameters for Douglas-fir in western Oregon. Canadian Journal of Forest Research 26: 237-243. https://doi.org/10.1139/x26-027
- Van Erden, E. and Arnott, J.T. 1974. Root growth of container- grown stock after planting. In North American containerised tree seedling Symp., Aug. 1974, Denver, Colorado, USA. (Eds.) R.W. Tinus, W.J. Stein and Balmer, W.E. Great Plains Agricultural Council Publication 68, pp. 393-397.
- Watson, A. and O'Loughiin, C. 1990. Structural root morphology and biomass of tree age-classes of Pinus radiata. New Zealand. Journal of Forestry Science 20: 97-110.
- Whittaker, R.H. and Marks, P.L. 1975. Methods of assessing terrestrial productivity. In : Primary Productivity of the Biosphere (Eds.) Lieth, H. and Whittaker, R.H. pp. 55-118. Springer Verlag. New York.