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Distribution, Size and Development Phases of Knots for Pinus sylvestris L. var. mongolica Litvin in Northeast China  

Jia, Weiwei (Forestry School, Northeast Forestry University)
Li, Fengri (Forestry School, Northeast Forestry University)
Publication Information
Journal of Korean Society of Forest Science / v.94, no.5, 2005 , pp. 313-320 More about this Journal
Abstract
This study was performed in a 38-year-old Mongolian pine (Pinus sylvestris L. var. mongolica Litvin) plantation in northeast China. Data were collected from 5 sample trees with different canopy position ranging in DBH from 14.6 cm to 23.8 cm. Sawn speciments that included the biggest knot were taken from the stem below the living crown. Number and distribution of knots per whorl below the living crown were studied by relative height below living crown (RHBC). A linear model expressed as function of whorl age (AGE), whorl height ($H_k$) and the stem diameter at which the whorl was located ($D_k$) was developed to predict the knot diameter and angle. The number of annual rings in four periods and the width of respective zone alone stem were used as dependant variables to analyze the knot develop phases. In average, the number of years from branch birth to ceased forming rings was 7.8, the branches remained alive for 4.2 years without forming annual rings, and branches were occluded 14.4 years after their death. These results can provide abundance branch and knot information so as to describe current and past tree growth dynamic of Mongolian pine plantation.
Keywords
Pinus sylvestris var. mongolica; knot distribution; knot diameter; knot angel;
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  • Reference
1 Lemieux, H., Usenius, A. and Samson, M. 1997. A method for the characterization of knots in logs. Forest Products Journal. 47: 57-63
2 Maguire, D.A. and Han, D.W. 1987. A Stem dissection technique for dating branch mortality and reconstructing past crown recession. Forest Science. 33: 858-871
3 Makinen, H. 1999. Effect of stand density on radial growth of branches of Scots pine in southern and central Finland. Canadian Journal of Forest Research. 29: 1216-1224   DOI
4 Makinen, H. 2002. Effect of stand density on the branch development of silver birch (Betula pendula Roth) in central Finland. Trees. 16: 346-353
5 Makinen, H. and Francis, C. 1999. Predicting the number, death, and self-pruning of branches in Scots pine. Can. J. Res. 29: 1225-1236   DOI
6 Samson, M. 1993. Method for assessing the effect of knots in the conversion of logs into structural lumber. Wood and Fibre Science. 25: 298-304
7 Lemieux, H., Beaudoin, M. and Zhang, S.Y. 2001. Characterization and Modeling of Knots in Black Spruce (Picea mariana) Logs. Wood and Fibre Science. 33: 465-475
8 Oja, J. 1997. A comparison between three different methods of measuring knot parameters in Picea abies (L.) Karst. Scandinavian Journal of Forest Research 12: 311-315   DOI   ScienceOn
9 Lemieux, H., Beaudoin, M. and Grondin, F. 2000. A model for sawing and grading lumber according to knots. Wood and Fibre Science. 32: 179-188
10 Taylor, F.W., Wagner, F.G., McMillin, C.W, Morgan, I.L. and Hopkins, F.F. 1984. Locating knots by industrial tomography-A feasibility study. Forest Products Journal. 34: 42-46
11 Lemieux, H., Zhang, S. Y. and Grondin, F. 2002. Improving Structural Lumber Quality in a Sample of Picea mariana Logs Sawn According to the Knots. Wood and Fibre Science. 34: 266-275
12 Wagner, F.G. and Taylor, F.W. 1975. Simulated sawing with a chipping headrig. Forest Products Journal. 25: 24-28
13 Funt, B.V. and Bryant, E.C. 1987. Detection of internal log defects by automatic interpretation of computer tomography images. Forest Products Journal. 37: 56-62
14 Li, F.R. and Yun, J.H. 1996. Effective crown form of Changbai Larch (Larix olgensis H.) plantation in Chagbai Mountain. Journal of Korean Forestry Society. 85(4): 557-564