Longitudinal growth strains in five clones of Eucalyptus tereticornis Sm.

Pankaj Aggarwal; Shakti Chauhan

doi:10.1007/s11676-013-0358-5

Journal of Forestry Research ›› 2013, Vol. 24 ›› Issue (2) : 339 -343. DOI: 10.1007/s11676-013-0358-5

Original Paper

Longitudinal growth strains in five clones of Eucalyptus tereticornis Sm.

Pankaj Aggarwal 1358^,^a
, Shakti Chauhan 1358

Author information +

History +

PDF

Abstract

We studied the variability in longitudinal growth strains and wood basic density in five-year old trees from five clones (one tree per clone) of Eucalyptus tereticornis. Mean longitudinal growth strain in clones ranged from 466 to 876 μm. There was a significant difference between clones in growth strains and wood basic density. Clone 10 exhibited maximum growth strains and basic density, whereas clone 3 and clone 7 exhibited minimum growth strains and basic density, respectively. Within a tree, the growth strain variation with tree height was high but statistically insignificant while within tree variation in basic density was very small. There was no specific trend in variation in either strain or density within a tree. There was 5%–200% difference in growth strain on opposite sides of the logs. However two strains showed a strong positive correlation. There was a moderate positive association of wood basic density and mean growth strains in logs. The variation around the periphery emphasize the need to measure strain more than one, preferably on opposite sides at the same height, on a tree to know the mean strain level for the purpose of selection of clones.

Keywords

basic density / clone / eucalypts / growth stress / strain gauge

Cite this article

Download citation ▾

Pankaj Aggarwal, Shakti Chauhan. Longitudinal growth strains in five clones of Eucalyptus tereticornis Sm.. Journal of Forestry Research, 2013, 24(2): 339-343 DOI:10.1007/s11676-013-0358-5

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Aggarwal PK, Chauhan SS, Karmarkar A, Ananthanarayan AK. Distribution of growth stresses in logs of Acacia auriculiformis. Journal of Tropical Forest Products, 1999, 4: 87-89.

[2]	Boyd JD. Relationships between fibre morphology, growth strains and physical properties of wood. Australian Forest Research, 1980, 10: 337-360.

[3]	Chafe SC. Relationships among growth strain, density and strength properties in two species of Eucalyptus. Holzforschung, 1990, 44: 431-437.

[4]	Chauhan S, Aggarwal P. Segregation of Eucalyptus tereticornis Sm. Clones for properties relevant to solid wood products. Annals of Forest Science, 2011, 68: 511-521.

[5]	Chauhan S, Walker JCF. Relationships between longitudinal growth strain and some wood properties in Eucalyptus nitens. Australian Forestry, 2004, 67: 254-260.

[6]	Chezhian P, Yasodha R, Ghosh M. Genetic diversity analysis in a seed orchard of Eucalyptus tereticornis. New Forests, 2010, 40: 85-99.

[7]	Gerard J, Baillères H, Fournier M, Thibaut B. Wood quality of plantation eucalypts. Bois Foréts Tropiques, 1995, 245: 101-117.

[8]	Gomide J. Apiolaza L, Chauhan SS, Walker JCF. Quality characteristics of elite Eucalyptus clones in Brazil. Revisiting Eucalyptus 2009. 2009, Christchurch, New Zealand: University of Canterbury, 29 40

[9]	Garcia JN, Crêspo EA, Baillères H. Influence of log characteristics and machine performance on Eucalyptus board end splitting and board deflection. Proceedings of the 15th International Wood Machining Seminar, Los Angeles, USA, 2001 163 171

[10]	Henson M, Boyton S, Davies M. Genetic parameters of wood properties in a 9-year-old Eucalyptus dunnii progeny trial in NSW, Australia. Proceedings of IUFRO Conference—Eucalyptus in a Changing World, Aveiro, Portugal, 2004

[11]	Kothiyal V, Sudheerendra R, Rao RV. Strength properties of different clones of Eucalyptus tereticornis from Andhra Pradesh India. Journal of Tropical Forest Products, 2002, 8: 39-44.

[12]	Kubler H. Growth stresses in trees and related wood properties. Forestry Abstract, 1987, 48: 131-189.

[13]	Lal P. Turnbull JW. Clonal Eucalyptus plantations in India. Eucalypts in Asia: Proceedings of an International Conference held in Zhanjiang, Guangdong, ACIAR Proceedings No 111, 2003 16 21

[14]	Malan FS, Gerischer GFR. Wood property differences in South African grown Eucalyptus grandis trees of different growth stress intensity. Holzforschung, 1987, 41: 331-335.

[15]	Malan F. Eucalyptus improvement for lumber production. Proceedings of the International Seminar on the Use of Eucalyptus for Wood Sawmill, Sao Paulo, 1995 1 19

[16]	Murphy T, Henson M, Vanclay J. Growth stress in Eucalyptus dunnii. Australian Forestry, 2005, 68: 144-149.

[17]	Nicholson JE. A rapid method for estimating longitudinal growth stresses in logs. Wood Science and Technology, 1971, 5: 40-49.

[18]	Nicholson JE, Hillis WE, Ditchburne N. Some tree growth wood property relationships of eucalypts. Canadian Journal of Forest Research, 1975, 5: 424-432.

[19]	Pelletier MC, Henson M, Boyton S, Thomas D, Vancaly JK. Genetic variation in dimensional stability of Eucalyptus pilularis (Smith) assessed using increment cores and test blocks. New Zealand Journal of Forest Science, 2009, 38: 194-210.

[20]	Ramirez M, Rodriguez J, Peredo M, Valenzuela S, Mendonca R. Wood anatomy and biometric parameters variation of Eucalyptus globulus clones. Wood Science and Technology, 2009, 43: 131-141.

[21]	Rao RV, Shashikala S, Sreevani P, Kothiyal V, Sarma CR, Lal P. Within tree variation in anatomical properties of some clones of Eucalyptus tereticornis Sm. Wood Science and Technology, 2002, 36: 271-285.

[22]	Rao RV, Kothiyal V, Sreevani P, Shashikala S, Naithani S, Singh SV. Yield and strength properties of pulp of some clones of Eucalyptus tereticornis Sm. Indian Forester, 1999, 125: 1145-1151.

[23]	Raymond C, Kube P, Pinkard L, Savage L, Bradley A. Evaluation of non-destructive methods of measuring growth stress in Eucalyptus globulus: relationships between strain, wood properties and stress. Forest Ecology and Management, 2004, 190: 187-200.

[24]	Santos PET, Geraldi IO, Garcia JN. Estimates of genetic parameters of wood traits for sawn timber production in Eucalyptus grandis. Genetics and Molecular Biology, 2004, 27: 567-573.

[25]	SAS Institute Inc. SAS/STATS procedures guide, 2009 92nd edn. Cary: SAS Institute Inc.

[26]	Sharma SK, Rao RV, Shukla SR, Kumar P, Sudheendra R, Sujatha M, Dubey YM. Wood quality of coppiced Eucalyptus tereticornis for value addition. IAWA Journal, 2005, 26: 137-147.

[27]	Walker JCF. Primary wood processing—principles and practice. 2006, Dordrecht: Springer, 596.

[28]	Washusen R, Ades P, Vinden P. Tension wood occurrence in Eucalyptus globulus Labill. I. The spatial distribution of tension wood in one 11-year-old tree. Australian Forestry, 2002, 65: 120-126.