Free access
Issue
Ann. For. Sci.
Volume 65, Number 6, September 2008
Article Number 602
Number of page(s) 7
DOI http://dx.doi.org/10.1051/forest:2008039
Published online 19 July 2008
References of  Ann. For. Sci. 65 (2008) 602
  1. Battaglia M. and Sands P., 1997. Modelling site productivity of Eucalyptus globulus in response to climatic and site factors. Aust. J. Plant Physiol. 24: 831-850 [CrossRef].
  2. Beadle C.L., Turnbull C.R., and Dean G.H., 1996. Environmental effects on growth and kraft pulp yield of Eucalyptus globulus and E. nitens. Appita J. 49: 239-242.
  3. Borralho N.M.G., Cotterill P.P., and Kanowski P.J., 1992. Genetic parameters and gains expected from selection for dry weight Eucalyptus globulus ssp. in Portugal. For. Sci. 38: 80-94.
  4. Borralho N.M.G., Cotterill P.P., and Kanowski P.J., 1993. Breeding objectives for pulp production of Eucalyptus globulus under different industrial cost structures. Can. J. For. Res. 23: 648-656 [CrossRef].
  5. Cöpür Y., Makkonen H., and Amidon T.E., 2005. The prediction of pulp yield using selected fiber properties. Holzforschung 59: 477-480 [CrossRef].
  6. Cremer K.W. (Ed.), 1990. Tree in rural Australia. Inkata Press, Melbourne, Sydney.
  7. Downes G.M. and Drew D., 2007. Climatic and genotypic influences on growth, wood formation and utilisation. IUFRO Group 2.08.03 "Improvement and Culture of Eucalypts", Durban, South Africa 22-26 October, 2007.
  8. Downes G.M., Hudson I.L., Raymond C.A., Dean G.H., Michell A.J., Schimleck L.R., Evans R., and Muneri A., 1997. Sampling plantation eucalypts for wood and fibre properties. CSIRO Publishing, Collingwood, Australia, 144 p.
  9. Downes G.M., Worledge D., Schimleck L., Harwood C., French J., and Beadle C., 2006. The effect of growth rate and irrigation on the basic density and kraft pulp yield of Eucalyptus globulus and E. nitens. N.Z. For. J. 57: 13-22.
  10. Evans R., 1994. Rapid measurement of the transverse dimensions of tracheids in radial wood sections from Pinus radiata. Holzforschung 48: 68-172.
  11. Evans R., Downes G.M., Menz D., and Stringer S., 1995. Rapid measurement of variation in tracheid transverse dimensions in a radiata pine. Appita J. 48: 134-138.
  12. Evans R., Stuart S.-A., and Van der Touw J., 1996. Microfibril angle scanning of increment cores by X-ray diffractometry. Appita J. 49: 411-414.
  13. Fardim P. and Duran N., 2005. Influences of surface chemical composition on the mechanical properties of pulp as investigated by SEM, XPS and multivariate data analysis. J. Braz. Chem. Soc. 16: 163-170.
  14. Hamilton M.G., Greaves B.L, Potts B.M., and Dutkowski G.W., 2007. Patterns of longitudinal within-tree variation in pulpwood and solidwood traits differ among Eucalyptus globulus genotypes. Ann. For. Res. 64: 831-837.
  15. Henson M. and Vanclay J.K., 2004. The value of good sites and good genotypes : an analysis of Eucalyptus dunnii plantations in NSW. In: The Economics and management of high productivity plantations. IUFRO Conference, Lugo, Spain, 27-30 September 2004.
  16. Hingston F.J. and Galbraith J.H., 1998. Application of the process-based model BIOMASS to Eucalyptus globulus ssp. globulus plantations on ex-farmland in south western Australia, II. Stemwood production and seasonal growth. For. Ecol. Manage. 106: 157-168.
  17. Jorge F., Quilho T., and Pereira H., 2000. Variability of fibre length in wood and bark in Eucalyptus globulus. IAWA J. 21: 41-48.
  18. Kibblewhite R.P. and Riddell M.J.C., 2000. Wood and kraft fibre property variation within and among nine trees of Eucalyptus nitens. Appita J. 53: 237-244.
  19. Leal S., Pereira H., Grabner M., and Wimmer R., 2003. Clonal and site variation of vessels in 7-year-old Eucalyptus globulus. IAWA J. 24: 185-195.
  20. Little K., van Staden J., and Clarke G.P.Y., 2003. The relationship between vegetation management and the wood and pulping properties of a Eucalyptus hybrid clone. Ann. For. Sci. 60: 673-680 [EDP Sciences] [CrossRef].
  21. Megown K.A., Turner P., Male J.R., and Retief R.J., 2000. The impact of site index and age on the wood, pulp and pulping properties of Eucalyptus grandis. Conference "Forest Genetics for the next Millenium", Durban, South Africa, 8-13 October 2000, 16 p.
  22. Miranda I. and Pereira H., 2001. Influence of provenance, subspecies, and site on wood density in Eucalyptus globulus Labill. Wood Fiber Sci. 33: 9-15.
  23. Miranda I. and Pereira H., 2002. Variation of pulpwood quality with provenance and site in Eucalyptus globulus. Ann. For. Sci. 59: 283-291 [EDP Sciences] [CrossRef].
  24. Muneri A. and Balodis V., 1997. Determining fibre coarseness of small wood samples from Acacia mearnsii and Eucalyptus grandis by Kajaani FS 200 fibre analyzer. Appita J. 50: 405-408.
  25. Pereira H., Almeida M.H., Tome M., and Pereira J.S., 1995. Eucalyptus globulus plantations: genetic, silvicultural and environmental control of fibre yield and quality. In: Potts B.M., Borralho N.M.G, Reid J.B., Cromer R.N., Tibbits W.N., and Raymond C.A. (Eds.), Proceedings CRCTHF-IUFRO conference: eucalypt plantations: improving fibre yield and quality, 19-24 Feb. 1995, Hobart, Tasmania., CRC for Temperate Hardwood Forestry: Hobart, Tasmania, pp. 46-48.
  26. Phillips F.H.,1988. Pulpwood requirements for the pulp and paper industry. Aust. For. 51: 106-111.
  27. Raymond C.A., Banham P., and MacDonald A.C., 1998. Within tree variation and genetic control of basic density, fibre length and coarseness in Eucalyptus regnans in Tasmania. Appita J. 51: 299-305.
  28. Raymond C.A., Schimleck L.R., Muneri A., and Michell A.J., 2001. Nondestructive sampling of Eucalyptus globulus and E. nitens for wood properties. III. Predicted pulp yield using near infrared reflectance analysis. Wood Sci. Technol. 35: 203-215.
  29. Sands P.J., Rawlins W., and Battaglia M., 1999. Use of simple plantation productivity model to study the profitability of irrigated Eucalyptus globulus. Ecol. Model. 117: 125-141 [CrossRef].
  30. Santiago A.S. and Neto C.P., 2007. Assessment of potential approaches to improve Eucalyptus globulus kraft pulping yield. J. Chem. Techn. Biotech. 82: 424-430 [CrossRef].
  31. Schimleck L.R., Downes G.M., and Evans R., 2006. Estimation of Eucalyptus nitens wood properties by near infrared spectroscopy. Appita J. 59: 136-141.
  32. Turner C.H., Balodis V., and Dean G.H., 1983. Variability in pulping quality of E. globulus from Tasmanian provenances. Appita J. 36: 371-376.
  33. Vermaas H.F., 2000. Primary processing of eucalypts and factors affecting it. S. Afr. For. J. 187: 37-44.
  34. Williams M.D., Beadle C.L., Turnbull C.R.A., Dean G.H., and French, J., 1995. Papermaking potential of plantation eucalypts. In: Potts B.M., Borralho N.M.G., Reid J.B., Cromer R.N., Tibbits W.N., and Raymond C.A. (Eds.), Proceedings CRCTHF-IUFRO Conference: eucalypt plantations: improving fibre yield and quality, 19-24 Feb. 1995, Hobart, Tasmania, CRC for Temperate Hardwood Forestry: Hobart, Tasmania, pp. 73-78.
  35. Wimmer R., Downes G.M., Evans R., Rasmussen G., and French J., 2002. Direct effects of wood characteristics on pulp and handsheet properties of Eucalyptus gobulus. Holzforschung 56: 244-252 [CrossRef].
  36. Zhang S.Y., Yu Q., Chauret G., and Koubaa A., 2003. Selection for both growth and wood properties in hybrid poplar clones. For. Sci. 49: 1-8.