A Mixed-effects Height-Diameter Model for Pinus densiflora Trees in Gangwon Province, Korea |
Lee, Young Jin
(Department of Forest Resources, Kongju National University)
Coble, Dean W. (Arthur Temple College of Forestry and Agriculture, Stephen F. Austin State University) Pyo, Jung Kee (Division of Forest Resource Information, Korea Forest Research Institute) Kim, Sung Ho (Division of Forest Resource Information, Korea Forest Research Institute) Lee, Woo Kyun (Division of Environmental Science and Ecological Engineering, Korea University) Choi, Jung Kee (Division of Forest Management, Kangwon National University) |
1 | Clutter, J.L., J.C. Fortson, L.V. Pienaar, G.H. Brister and Bailey, R.L. 1983. Timber Management: A Quantitative Approach. New York, NY: John Wiley and Sons. 333p |
2 | Korea Forest Research Institute. 2004. Forest Resources Evaluation and Prediction System for Major Species.125p |
3 | Lappi, J. 1991. Calibration of height and volume equations with random parameters. Forest Science 37(3):781-801 |
4 | Calama, R. and Montero, G. 2004. Interregional nonlinear height-diameter model with random coefficients for stone pine in Spain. Canadian Journal of Forest Research 34: 150-163 DOI ScienceOn |
5 | Korea Forest Research Institute. 2008a. Forest Resources Evaluation and Prediction Program |
6 | Baskerville, G.L. 1972. Use of logarithmic regression in the estimation of plant biomass. Canadian Journal of Forest Research 2: 49-53 DOI |
7 | Lynch, T.B., Holley, A.G. and Stevenson, D.J. 2005. A random-parameter height-dbh model for cherrybark oak. Southern Journal of Applied Forestry 29: 22-26 ScienceOn |
8 | Korea Forest Service. 2008. Statistical yearbook of forestry (38) |
9 | Korea Forest Research Institute. 2008b. Manual of the fifth National Forest Inventory (Version 1.2). 36p |
10 | Budhathoki, C.B., Lynch, T.B. and Guldin, J.M. 2008. A mixed-effects model for the dbh-height relationship of shortleaf pine (Pinus echinata Mill.). Southern Journal of Applied Forestry 32(1): 5-11 |
11 | Lappi, J. 1997. A longitudinal analysis of height/diameter curves. Forest Science 43(4): 555-570 ScienceOn |
12 | Sharma, M. and Parton, J. 2007. Height-diameter equations for boreal tree species in Ontario using a mixed-effects modeling approach. Forest Ecology and Management 249:187-198 DOI ScienceOn |
13 | Schabenberger, O. and Pierce, F.J. 2002. Contemporary Statistical Models for the Plant and Soil Sciences. CRC Press, Boca Raton, FL. 738p |
14 | Trincado, G., VanderSchaaf, C.L. and Burkhart, H.E. 2007. Regional mixed-effects height-diameter models for loblolly pine (Pinus taeda L.) plantations. European Journal of Forest Research 126: 253-262 DOI ScienceOn |
15 | Akaike, H. 1974. A new look at the statistical model identification. IEEE Transactions on Automatic Control 19(6): 716-723 DOI |
16 | Kim, D. H., D.M. Seol, D.K. Nor, C.H. Kim, H.T. Hwang, S.H. Kim, and Song, M.S. 2008. Forest resources based on national forest inventory in Korea. IUFRO Proceedings, Advances in Forest Management and Inventory, Kangwon National University, Korea. 125-127p |
17 | Mehtatalo, L. 2004. A longitudinal height-diameter model for Norway spruce in Finland. Canadian Journal of Forest Research 34: 131-140 DOI ScienceOn |
18 | Vandershaaf, C.L. 2008. Stand level height-diameter mixed effects models: parameters fitted using loblolly pine but calibrated for sweetgum. In: Jacobs, D.F. and C.H. Michler, eds. Proceedings, 16th Central Hardwoods Forest Conference. Gen. Tech. Rep. NRS-P-24. Newtown Square, PA: U.S. Department of Agriculture,Forest Service, Northern Research Station. 595p |
19 | Avery, T.E. and Burkhart, H.E. 2002. Forest measurements. 5th Ed. McGraw-Hill, Inc., New York. 456p |