Share This Article:

Variations in wood tratis in micro and macro propagated plantation woods of Populus deltoides Bartr. ex Marsh

Full-Text HTML Download Download as PDF (Size:245KB) PP. 263-275
DOI: 10.4236/abb.2010.14035    5,327 Downloads   10,440 Views   Citations

ABSTRACT

The paper presents a comparison between intra-ramet, intra-clonal and inter-clonal variations in girth at breast height (gbh), fiber length, fiber diameter, wall thickness, vessel element length, vessel element diameter and specific gravity in the ramets of L34, G3 and S7C15 clones of Populus deltoides at the age of 6 years old produced from planting material grown by macro- and micro-propagation techniques. Variance ratio (F) test indicated that intra-ramet variations were non-significant for all the characters except specific gravity for height in L34 for macro and specific gravity and vessel element diameter for radial locations for micro, and fiber length for G3 (micro) for height, and specific gravity for radial location and fiber length for height for S7C15 clone for both the techniques. The clone L34 showed the significantly higher girth followed by G3 and S7C15. The variations were significant for girth, vessel element length and specific gravity between the wood produced from planting stocks grown by two techniques. Intra-clonal variations were significant for fiber length, fiber diameter and vessel element length. In general wood element’s dimensions and specific gravity increased from bottom to top and pith to periphery radial locations. G3 clone was different from the L34 and S7C15 clone for the wood traits. The three different clones of Populus deltoides showed variability in wood anatomical properties and specific gravity in the woods grown from macro- and micro-propagated planting stock. So, the plantation raised by two techniques could not produce similar type of wood even from the same clone. G3 clone was the exception as it did not show variation in wood traits for two techniques. Intra-clonal variations in all the three clones of P. deltoides indicated that wood traits were not stable within the population of same clone grown by either method.

Conflicts of Interest

The authors declare no conflicts of interest.

Cite this paper

Pande, P. and Dhiman, R. (2010) Variations in wood tratis in micro and macro propagated plantation woods of Populus deltoides Bartr. ex Marsh. Advances in Bioscience and Biotechnology, 1, 263-275. doi: 10.4236/abb.2010.14035.

References

[1] Dadswell, H.E. (1957) Tree growth characteristics and their influence on wood structure and properties. Proceedings of 7th British Commonwealth Forestry Conference, CSIRO, Australia, 1957.
[2] Burley, J. and Palmer, R.R. (1979) Pulp and wood densitometric properties of Pinus caribaea from Fiji. Commonwealth Forestry Institute Occasional Paper, 66.
[3] Dinwoodie, J.M. (1961) Tracheid and fiber-length in timber. A review of literature. Forestry, 34, 124-144.
[4] Zobel, B. (1965) Inheritance of fiber characteristics and specific gravity in hardwoods-a review. Proceedings of the Meeting of Section 41 Meet, IUFRO, Melbourne, Australia, 1965.
[5] Rao, B.S.S. and Rao, R.V. (1978) Variation in length of vertical elements within one tree of betula pubercens ehrh. Journal of Indian Academy of Wood science, 9(2), 105-110.
[6] Pande, P.K., Rao, R.V., Agrawal, S.P. and Singh, M. (1995) Variation in the dimensions of trachied elements of Pinus caribaea var. bahamensis. Journal of Tropical Forest Products, 1(2), 117-123.
[7] Phelps, J.E., Isebrands, J.G. and Jowett, D. (1982) Raw material quality of short rotation intensively cultured Populus clones. A comparison of stem and branches properties at three species. IAWA Journal, 3(3-4), 193- 200.
[8] Kaubaa, A., Hernandez, A.E., Beaudoin, M. and Poliquin, J. (1998) Interclonal, intra-clonal and within tree variation in fiber-length of Popular hybrid clones. Wood and Fiber science, 30(1), 1998, 140-147.
[9] Chauhan, L., Raturi, R.D. and Gupta, S. (1999) Studies on anatomical variations in different clones of Populus deltoides. Indian Forester, 125, 526-532.
[10] Chauhan, L., Gupta, L.S., Madhwal, R.C., Pandey, R. and Pal, M. (2001) Interclonal, intraclonal and within tree variation in wood parameters of different clones of Populus deltoids. Indian Forester, 127(7), 777-784.
[11] Purkayastha, S.K., Agrawal, S.P., Farooqui, P., Tandon, R.D., Chauhan, L. and Misra, N. (1979) Evaluation of wood quality of Eucalyptus plantations in various states, Final Technical Report, (Nov. 1 to Oct. 31, 1979) PL 480 Project no Inn FS-66, 1979-80, 85.
[12] IAWA Committee IAWA (1989) List of microscopic features for hardwood identification. IAWA Bull, 10(3), 201- 232.
[13] Murphey, W.K., Bowersox, T.W. and Blankenhorn, P.R. (1979) Selected wood properties of young Populus hybrid. Wood Science, 11(4), 236-267.
[14] Rao, R.V., Shashikala, S., Sreevani, P., Kothiyal, V., Sharma, C.R. and Lal, P. (2002) Within tree variation in anatomical properties of some clones of Eucalyptus tereticornis Sm. Wood Science Technology, 36(3), 271-285.
[15] Cheng, W.W. and Bensend, D.W. (1979) Anatomical properties of selected Populus clones grown under intensive culture. Wood Science, 11(3), 182-187.
[16] Einspahr, D.W., Van Buijtenen, J.P. and Peckham, J.R (1963) Natural variation and heritability in triploid aspen. Silvae Genetica, 12(2), 51-58.
[17] Kennedy, R.W. (1968) Anatomy and fundamental wood properties of poplar. In: Maini J.S. and Cayford J.S. Eds., Growth and utilization of poplars in Canada, Canadian Department for Rural development, Forestry Branch, publication 1025, Canada, 149-168.
[18] Peszlen, I. (1994) Influence of age on selected anatomical properties of Populus clones. IAWA Journal, 15(3), 311-321.
[19] Rao, R.V. and Shashikala, S. (2003) Assessment of growth rate, basic density and heart wood content in selected teak clones of CSO, Thithimathi in Karnataka state, India. In International Conference on Quality Timber Products of Teak from Sustainable Forest Management, 2-5 December 2003, KFRI, Kerala, India (abstracts), 57.
[20] Pande, P.K. and Singh, M. (2005) Intraclonal, inter-clonal and single tree variations of wood anatomical properties and specific gravity of clonal ramets of Dalbergia sissoo Roxb. Wood Science Technology, 39(5), 351-366.
[21] Veenin, T., Fujita, M., Nobuchi T. and Siripatanandilok, S. (2005) Radial variations of anatomical characters and specific gravity in Eucalyptus camaldulensis clones. IAWA Journal, 26, 353-361.
[22] Pande, P.K. (2005) Assessment of the performance of different clones of Dalbergia sissoo and Eucalyptus tereticornis on the basis of wood quality under different farm forestry programs. FTR submitted to ICFRE, Dehradun, India.
[23] Pande, P.K. and Singh, M. (2003) Variation in Wood Elements Within a ramet of Dalbergia sissoo. Journal of Timber Development Association India, 2(3-4), 19-22.
[24] Mandal, A.K. and Chawaan, P.H. (2003) Investigations on inheritance of growth and wood properties and their inter-relationship in teak. In International Conference on Quality timber products of teak from sustainable forest management (abstracts), Kerala, India, 2-5 December 2003, 56.
[25] Tomazello, F. and Variacano, M. (1987) Radial da densidade basica e da estrutura anatomica da Madeira do Eucalyptus globulese, E. pellitae, E. acmenioides. Inst Pesq. Estud. Florest. Piracicaba, (36).
[26] Bhat, K.M., Bhat, K.V. and Dhamodaran, T.K. (1990) Wood density and fiber length of Eucalyptus grandis grown in Kerala, India. Wood Fiber Science, 22, 54-61.
[27] Okuyama, T., Yamamoto, H., Wahyudi, I., Hadi, Y.S. and Bhat, K.M. (2003) Some wood quality issues in planted teak. In International conference on quality timber products of teak from sustainable forest management, Kerala, India, 2-5 December 2003, 21.

  
comments powered by Disqus

Copyright © 2018 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.