References
- Battaglia, M., Sandsm, P., White, D., and Mummery, D. 2004. CABALA: a linked carbon, water and nitrogen model of forest growth for silvicultural decision support. Forest Ecology and Management 193: 251-282. https://doi.org/10.1016/j.foreco.2004.01.033
- Belcher, D.M., Holdway, M.R., and Brand, G.J. 1982. A description of STEMS- the stand and tree evaluation and modeling system. Gen. Tech. Rep. NC-79. pp. 18.
- Chave, J., Andalo, C., Brown, S, Cairns, A., Chambers, J.Q., Eamus, D., Folster, H., Fromard, F., Higuchi, N., Kira, T., Lescure, J.-P., Nelson, B.W., Ogawa, H., Puig, H., Riera, B., and Yamakura, T. 2005. Tree allometry and improved estimation of carbon stocks and balance in tropical forests. Ecosystem Ecology 145: 87-99.
- Daniels, R.F. and Burkhart, H.E. 1975. Simulation of individual tree growth and stand development in managed loblolly pine plantations. Division of Forestry & Wildlife Resources, Virginia Polytechnic Institute and State University Publication FWS-5-75. pp. 69.
- Davis, L.S., Johnson, K.N., Bettinger, P., and Howard, T.E. 2001. Forest management. 4th ed. McGraw-Hill, New York. pp. 840.
- Hann, J.T., and Leary, R.A. 1979. Potential diameter growth functions. In a generalized forest growth projection system applied to the Lake States region. USDA Forest Service ? General Tehnical Report NC 49: 23-26.
- Holdaway, M.R., Leary, R.A., and Thompson, J.L. 1979. Estimating mean stand crown ratio from stand variables. In a generalized forest growth projection system applied to the Lake States region. USDA Forest Service ? General Tehnical Report NC 49: 27-30.
- IPCC. 2006. 2006 IPCC Guidelines for National Greenhouse Gas Inventories. pp. 326.
- Kirschbaum, M.U.F. 1999. CenW, a forest growth model with linked carbon, energy, nutrient and water cycles. Ecological Modelling 118: 17-59. https://doi.org/10.1016/S0304-3800(99)00020-4
- Korea Forest Research Institute. 2010. Carbon emission factors by korean major tree species for estimation of the greenhouse gas inventory on forests. KFRI Research report in 2010 10-25. pp. 125.
- Korea Forest Service. 2009. Standing tree volume, biomass and stand yield table.
- Kurz, W. and Appls, M. 1999. A 70-year retrospective analysis of carbon fluxes in the Canadian forest sector. Ecological Application 9: 526-547. https://doi.org/10.1890/1051-0761(1999)009[0526:AYRAOC]2.0.CO;2
- Kwon, S.D. and Chung, J.S. 2004. Development of individual-tree distance-independent simulation model for growth prediction of Pinus koraiensis stands. Journal of Korean Forest Society 93: 43-49.
- Lee, K.Y., Son, Y.M., Rho, D.K., and Kwon, S.D. 2002. Stem weight equations for six major tree species in Korea. Journal of Korean Forest Society 91: 206-212.
- Mäkelä, A. and Hari, P. 1986. Stand growth model based on carbon uptake and allocation in individual trees. Ecological Modelling 33: 205-229. https://doi.org/10.1016/0304-3800(86)90041-4
- Mesera, O.R., Garza-Caligaris, J.F., Kanninen, M., Karjalainen, T., Liski, J., Nabuurs, G.J., Pussiene, A., de Jong, B.H.J., and Mohren, G.M.J. 2003. Modeling carbon sequestration in afforestation, agroforestry and forest management projects: the CO2FIX V.2 approach. Ecological Modelling 164: 177-199. https://doi.org/10.1016/S0304-3800(02)00419-2
- Seo, J.H., Son, Y.M., Lee, K.H., Lee, W.K., and Son, Y.H. 2005. The estimation of stand biomass and net carbon removals using dynamic stand growth model. Journal of Korea Forestry Energy 24: 37-45.