Wood Science & Wood Products

49 records matched your search. Click on a citation below to retrieve a pdf of the paper.

Agblevor, F.A.; Boocock, D.G.B. 1989. The origins of phenol produced in the rapid hydrothermolysis and alkaline-hydrolysis of hybrid poplar lignins. Journal of Wood Chemistry and Technology. 9: 167-188.

Ai, J.; Tschirner, U. 2010. Fiber length and pulping characteristics of switchgrass, alfalfa stems, hybrid poplar and willow biomasses. Bioresource Technology. 101: 215-221.

Balatinecz, J.J.; Kretschmann, D.E.; Leclercq, A. 2001. Achievements in the utilization of poplar wood - guideposts for the future. The Forestry Chronicle. 77: 265-269.

Blankenhorn, P.R.; Bowersox, T.W.; Strauss, C.H.; Kessler, K.R.; Stover, L.R.; et al. 1992. Effects of management strategy and site on specific gravity of a Populus hybrid clone. Wood and Fiber Science. 24: 274-279.

Bose, S.K.; Francis, R.C.; Govender, M.; Bush, T.; Spark, A. 2009. Lignin content versus syringyl to guaiacyl ratio amongst poplars. Bioresource Technology. 100: 1628-1633.

Davis, M.F.; Tuskan, G.A.; Payne, P.; Tschaplinski, T.J.; Meilan, R. 2006. Assessment of Populus wood chemistry following the introduction of a Bt toxin gene. Tree Physiology. 26: 557-564.

Debell, J.D.; Gartner, B.L.; Debell, D.S. 1998. Fiber length in young hybrid Populus stems grown at extremely different rates. Canadian Journal of Forest Research. 28: 603-608.

DeBell,D.S.; Singleton, R.; Harrington, C.A.; Gartner, B.L. 2002. Wood density and fiber length in young Populus stems: relation to clone, age, growth rate, and pruning. Wood and Fiber Science. 34: 529-539.

Esteghlalian, A.; Hashimoto, A.G.; Fenske, J.J.; Penner, M.H. 1997. Modeling and optimization of the dilute-sulfuric-acid pretreatment of corn stover, poplar and switchgrass. Bioresource Technology. 59: 129-136.

Foston, M.; Hubbell, C.A.; Davis, M.; Ragauskas, A.J. 2009. Variations in cellulosic ultrastructure of poplar. Bioenergy Research. 2: 193-197.

Francis, R.C.; Hanna, R.B.; Shin, S.J.; Brown, A.F.; Riemenschneider, D.E. 2006. Papermaking characteristics of three Populus clones grown in the north-central United States. Biomass and Bioenergy. 30: 803-808.

Gartner, B.L. 2005. Assessing wood characteristics and wood quality in intensively managed plantations. Journal of Forestry. 103: 75-77.

Geyer, W.A.; DeWyke, J.; Walawender, W.P. 2000. Biomass and gasification properties of young Populus clones. Wood and Fiber Science. 32: 375-384.

Hartsough, B.; Spinelli, R.; Pottle, S.; Klepac, J. 2000. Fiber recovery with chain flail delimbing/debarking and chipping of hybrid poplar. Journal of Forest Engineering. 11: 59-68.

Hernández, R.E.; Koubaa, A.; Beaudoin, M.; Fortin, Y. 1998. Selected mechanical properties of fast-growing poplar hybrid clones. Wood and Fiber Science. 30: 138-147.

Joshi, C.P.; Bhandari, S.; Ranjan, P.; Kalluri, U.C.; Liang, X.; et al. 2004. Genomics of cellulose biosynthesis in poplars. New Phytologist. 164: 53-61.

Kenney, W.A.; Sennerby-Forsse, L.; Layton, P. 1990. A review of biomass quality research relevant to the use of poplar and willow for energy conversion. Biomass. 21: 163-188.

Kern, K.A.; Ewers, F.W.; Telewski, F.W.; Koehler,L. 2005. Mechanical perturbation affects conductivity, mechanical properties and aboveground biomass of hybrid poplars. Tree Physiology. 25: 1243-1251.

Koubaa, A.; Hernandez, R.E.; Beaudoin, M. 1998. Shrinkage of fast-growing hybrid poplar clones. Forest Products Journal. 48: 82-87.

Koubaa, A.; Hernández, R.E.; Beaudoin, M.; Poliquin, J. 1998. Interclonal, intraclonal, and within-tree variation in fiber length of poplar hybrid clones. Wood and Fiber Science. 30: 40-47.

Kroll, R.E.; Ritter, D.C.; Gertjejansen, R.O.; Au, K.C. 1992. Anatomical and physical properties of balsam poplar (Populus balsamifera L.) in Minnesota. Wood and Fiber Science. 24: 13-24.

Kumar, R.; Mago, G.; Balan, V.; Wyman, C.E. 2009. Physical and chemical characterizations of corn stover and poplar solids resulting from leading pretreatment technologies. Bioresource Technology. 100: 3948-3962.

Landsberg, J.J.; Wright, L.L. 1989. Comparisons among Populus clones and intensive culture conditions, using an energy-conversion model. Forest Ecology and Management. 27: 129-147.

Li, Q.; Min, D.; Peng-Yu Wang, J.; Peszlen, I.; Horvath, L.; et al. 2011. Down-regulation of glycosyltransferase 8D genes in Populus trichocarpa caused reduced mechanical strength and xylan content in wood. Tree Physiology. 31: 226-236.

Liang, H.; Frost, C.J.; Wei, X.; Brown, N.R.; Carlson, J.E.; et al. 2008. Improved sugar release from lignocellulosic material by introducing a tyrosine-rich cell wall peptide gene in poplar. Clean. 36: 662-668.

Lucas, M.; Wagner, G.L.; Nishiyama, Y.; Hanson, L.; Samayam, I.P.; et al. 2011. Reversible swelling of the cell wall of poplar biomass by ionic liquid at room temperature. Bioresource Technology. 102: 4518-4523.

Morrison, D.; Potter, S.; Thomas, B.; Watson, P. 2000. Wood quality ranking of plantation trees. TAPPI Journal. 83: 55-66.

Novaes, E.; Osorio, L.; Drost, D.R.; Miles, B.L.; Boaventura-Novaes, C.R.D.; et al. 2009. Quantitative genetic analysis of biomass and wood chemistry of Populus under different nitrogen levels. New Phytologist. 182: 878-890.

Pan, X.; Gilkes, N.; Kadla, J.; Pye, K.; Saka, S.; et al. 2006. Bioconversion of hybrid poplar to ethanol and co-products using an organosolv fractionation process: optimization of process yields. Biotechnology and Bioengineering. 94: 851-861.

Pitre, F.E.; Lafarguette, F.; Boyle, B.; Pavy, N.; Caron, S.; et al. 2010. High nitrogen fertilization and stem leaning have overlapping effects on wood formation in poplar but invoke largely distinct molecular pathways. Tree Physiology. 30: 1273-1289.

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