Page 388 - Biosystems Engineering
P. 388
Evaluation of Transgenic Wood for Pr oductivity & Quality 365
Fillatti, J. J., Sellmer, J., McCown, B., Haissig, B., and Comai, L. 1987. Agrobacterium-
mediated transformation and regeneration of Populus. Molecular and General
Genetics 206:192–199.
Gindl, W., Gupta, H. S., and Grünwald, C. 2002. Lignification of spruce tracheid
secondary cell walls related to longitudinal hardness and modulus of elasticity
using nano-indentation. Canadian Journal of Botany 80:1029–1033.
Herschbach, C. and Kopriva, S. 2002. Transgenic trees as tools in tree and plant
physiology. Trees 16:250–261.
Hosseinaei, O., Wang, S., Xing, C., Rials, T. G., Kelley, S. S., and Enayati, A. A.
2008. Production of enhanced OSB using hemicellulose extracted strands.
Abstract in Biographies and Abstracts. Forest Products Society 62nd International
Convention, St. Louis, Missouri, June 22–24, p. 20.
Hu, W. J., Harding, S. A., Jacqueline, J. L., Popko, L., Ralph, J., Stokke, D. D., Tsai,
C.–J., et al. 1999. Repression of lignin biosynthesis promotes cellulose accumu-
lation and growth in transgenic trees. Nature Biotechnology 17:808–812.
Huntley, S. K., Ellis, D., Gilbert, M., Chapple, C., and Mansfield, S. D. 2003.
Significant increases in pulping efficiency in C4H–F5H transformed poplar.
Abstract presented at the Tree Biotechnology Symposium, Umeå, Sweden,
June 7–12 (S10.5).
James, R. R., Difazio, S. T., Brunner, A. M., and Strauss, S.H. 1998. Environmental
effects of genetically engineered woody biomass crops. Biomass and Bioenergy
14(4):403–414.
Joshi, P. C., Bhandari, P., Ranjan, K., and Kalluli, U. C. 2004. Genomics of cellulose
biosynthesis in poplars. New Phytologist 164:53–61.
Kirby, A. R., Gunning, A. P., Waldron, K. W., Morris, V. J., and Ng, A. 1996.
Visualization of plant cell wall by atomic force microscopy. Biophysics
70(3):1138–1143.
Koehler, L. and Telewski, F. W. 2006. Biomechanics and transgenic wood. American
Journal of Botany 93(10):1433–1438.
Labbé, N., Rials, T. G., Kelley, S. S., Cheng, Z. M., Kim, J. Y., and Li, Y. 2005.
FT–IR imaging and pyrolysis–molecular beam mass spectrometry: New tools
to investigate wood tissues. Wood Science and Technology 39(1):61–77.
Lee, S., Wang, S., Endo, T., and Kim, N. H. 2009. Visualization of interfacial zones
in lyocell fiber-reinforced polypropylene composite by AFM contrast imag-
ing based on phase and thermal conductivity measurements. Holzforschung
63(2):240–247.
Magnussen, S. and Keith, C. T. 1990. Genetic improvement of volume and wood
properties of jack pine: Selection strategies. The Forestry Chronicle 66(3):
281–286.
Merkle, S. A. and Dean, J. F. D. 2000. Forest tree biotechnology. Current Opinion in
Biotechnology 11(3):298–302.
Meylan, B. A. and Butterfield, B. G. 1978. Helical orientation of the microfibril in
tracheids, fibres and vessels. Wood Science and Technology 12:219–222.
Nair, S. S., Wang, S., and Hurley, D. 2008. Evaluation of interphase properties in
fiber reinforced polymer composite using atomic force acoustic microscopy
(AFAM). Paper presented at the SWST Annual Meeting, University of Bio–Bio,
Concepción, Chile, Nov. 10–12.
Park, Y. W., Baba, K., Furuta, Y., Lida, I., Sameshima, K., Arai, M., and Hayashi, T.
2004. enhancedment of growth and cellulose accumulation by overexpression
of xyloglucanase in poplar. FEBS Letters 564:183–187.
Perlack, R. D., Wright, L. L., Turhollow, A. F., Graham, R. L., Stokes, B. J., and Erbach,
D. C. 2005. Biomass as feedstock for a bioenergy and bioproducts industry: The
technical feasibility of a billion-ton annual supply. Technical Report A357634,
U.S. Department of Energy, Oak Ridge National Laboratory, Oak Ridge, Tenn.
78 pp.
Pilate, G., Guiney, E., Holt, K., Petti-Conil, M., Lapierre, C., Leple, J. C., Pollet, B.
et al. 2002. Field and pulping performances of transgenic trees with altered
lignification. Nature Biotechnology 20:607–612.
Rozenberg, P. H. and Cahalan, C. H. 1997. Spruce and wood quality: Genetic aspects
(a review). Silvae Genetica 46(5):270–279.
