[APIOLAZA, L. A., C. A. RAYMOND and B. J. YEO (2005): Genetic variation of physical and chemical wood properties of Eucalyptus globulus. Silvae Genetica 54: 160-166. 10.1515/sg-2005-0024]Search in Google Scholar
[BANDARA, K. M. A. (2006): Genetic improvement of solid wood product value of subtropical eucalypts: a case study of Eucalyptus grandis and E. dunnii. Unpublished PhD Thesis, Australian National University. ]Search in Google Scholar
[BORRALHO, N. M. G., P. P. COTTERILL and P. J. KANOWSKI (1993): Breeding objectives for pulp production of Eucalyptus globulus under different industrial cost structures. Canadian Journal of Forest Research 23: 648-656. 10.1139/x93-085]Open DOISearch in Google Scholar
[BRENNAN, G. K., R. A. HINGSTON and R. W. MOORE (2004): Processing 17-year-old Tasmanian blue gum sawlogs grown at wide spacing. Australian Forestry 67: 240-246. 10.1080/00049158.2004.10674941]Search in Google Scholar
[CHAFE, S. C. (1992): Collapse: an introduction. CSIRO, Division of Forest Products. ]Search in Google Scholar
[DICKSON, R. L., C. A. RAYMOND, W. JOE and C. A. WILKINSON (2003): Segregation of Eucalyptus dunnii logs using acoustics. Forest Ecology and Management 179: 243-251. 10.1016/S0378-1127(02)00519-4]Search in Google Scholar
[DOWNES, G. M., I. L. HUDSON, C. A. RAYMOND, G. H. DEAN, A. J. MICHELL, L. R. SCHIMLECK, R. EVANS and A. MUNERI (1997): Sampling plantation eucalypts for wood and fibre properties. CSIRO Publishing, Melbourne, Victoria. 10.1071/9780643105287]Search in Google Scholar
[DUTKOWSKI, G. W. and B. M. POTTS (1999): Geographic patterns of genetic variation in Eucalyptus globulus ssp. globulus and a revised racial classification. Australian Journal of Botany 47: 237-263.10.1071/BT97114]Open DOISearch in Google Scholar
[FALCONER, D. S. and T. F. C. MACKAY (1996): Introduction to quantitative genetics. Longman, Harlow. ]Search in Google Scholar
[GARDINER, C. A. and D. F. CRAWFORD (1987): Seed collections of Eucalyptus globulus subsp. globulus for tree improvement purposes. CSIRO Division of Forest Research. ]Search in Google Scholar
[GARDINER, C. A. and D. F. CRAWFORD (1988): Seed collections of Eucalyptus globulus subsp. globulus for tree improvement purposes. CSIRO Division of Forestry and Forest Products. ]Search in Google Scholar
[GILMOUR, A. R., B. J. GOGEL, B. R. CULLIS and R. THOMPSON (2006): ASReml User Guide Release 2.0. VSN International Ltd, Hemel Hempstead, UK. ]Search in Google Scholar
[GREAVES, B. L. and N. M. G. BORRALHO (1996): The influence of basic density and pulp yield on the cost of eucalypt kraft pulping: a theoretical model for tree breeding. Appita Journal 49: 90-93. ]Search in Google Scholar
[GREAVES, B. L., N. M. G. BORRALHO and C. A. RAYMOND (1997): Breeding objective for plantation eucalypts grown for production of kraft pulp. Forest Science 43: 465-472. ]Search in Google Scholar
[GREAVES, B. L., G. DUTKOWSKI and T. MCRAE (2004a): Breeding objectives for Eucalyptus globulus for products other than kraft pulp. P. 175-180. In: Eucalyptus in a changing world. Proceedings of an IUFRO conference, Aveiro, Portugal. 11-15 October. ]Search in Google Scholar
[GREAVES, B. L., M. HAMILTON, D. PILBEAM and G. DUTKOWSKI (2004b): Genetic variation in commercial properties of six and fifteen year-old Eucalyptus globulus. P. 97-102. In: Eucalyptus in a changing world. Proceedings of an IUFRO conference, Aveiro, Portugal. 11-15 October. ]Search in Google Scholar
[GRIFFIN, A. R. and P. P. COTTERILL (1988): Genetic variation in growth of outcrossed, selfed and open-pollinated progenies of Eucalyptus regnans and some implications for breeding strategy. Silvae Genetica 37: 124-131. ]Search in Google Scholar
[HAMILTON, M. G., B. L. GREAVES, B. M. POTTS and G. W. DUTKOWSKI (2007): Patterns of longitudinal within-tree variation in pulpwood and solidwood traits differ among Eucalyptus globulus genotypes. Annals of Forest Science 64: 831-837. 10.1051/forest:2007064]Open DOISearch in Google Scholar
[HAMILTON, M. G., B. M. POTTS, C. E. HARWOOD, L. APIOLAZA and P. GORE (2004): Comparison of non-destructive assessment techniques for shrinkage and collapse in Eucalyptus nitens. P. 686-687. In: Eucalyptus in a changing world. Proceedings of an IUFRO conference, Aveiro, Portugal. 11-15 October. ]Search in Google Scholar
[HAMILTON, M. G., C. A. RAYMOND, C. E. HARWOOD and B. M. POTTS (2009): Genetic variation in Eucalyptus nitens pulpwood and wood shrinkage traits. Tree Genetics and Genomes 5: 307-316. 10.1007/s11295-008-0179-4]Open DOISearch in Google Scholar
[HAMILTON, M. G., C. A. RAYMOND and B. M. POTTS (2008): Short note: The genetic correlation between air-dried density and basic density in Eucalyptus nitens wood cores. Silvae Genetica 57: 210-212. 10.1515/sg-2008-0032]Search in Google Scholar
[ILIC, J. (1999): Shrinkage-related degrade and its association with some physical properties in Eucalyptus regnans F-Muell. Wood Science and Technology 33: 425-437. 10.1007/s002260050127]Open DOISearch in Google Scholar
[KUBE, P. D. and C. A. RAYMOND (2005): Breeding to minimise the effects of collapse in Eucalyptus nitens. Forest Genetics 12: 23-34. ]Search in Google Scholar
[LOPEZ, G. A., B. M. POTTS, G. W. DUTKOWSKI, L. A. APIOLAZA and P. E. GELID (2002): Genetic variation and inter-trait correlations in Eucalyptus globulus base population trials in Argentina. Forest Genetics 9: 217-231. ]Search in Google Scholar
[LOPEZ, G. A., B. M. POTTS, G. W. DUTKOWSKI and J. M. R. TRAVERSO (2001): Quantitative genetics of Eucalyptus globulus: Affinities of land race and native stand localities. Silvae Genetica 50: 244-252. ]Search in Google Scholar
[MACDONALD, A. C., N. M. G. BORRALHO and B. M. POTTS (1997): Genetic variation for growth and wood density in Eucalyptus globulus spp. globulus in Tasmania (Australia). Silvae Genetica 46: 236-241.]Search in Google Scholar
[MCKENZIE, H. M., C. J. A. SHELBOURNE, M. O. KIMBERLEY, R. B. MCKINLEY and R. A. J. BRITTON (2003): Processing young plantation-grown Eucalyptus nitens for solidwood products. 2: Predicting product quality from tree, increment core, disc, and 1-m billet properties. New Zealand Journal of Forestry Science 33: 79-113. ]Search in Google Scholar
[MOORE, R. W., G. R. SIEMON, P. ECKERSLEY and R. A. HINGSTON (1996): Sawlogs from 13 year old Eucalyptus globulus - Management, recovery and economics. P. 219-231. In: Plantations and Farm Forestry - Investing in Future Wood Supply, Australian Forest Growers Biennial Conference, Mount Gambier, South Australia. 9-12 September. ]Search in Google Scholar
[MUNERI, A. and C. A. RAYMOND (2000): Genetic parameters and genotype-by-environment interactions for basic density, pilodyn penetration and stem diameter in Eucalyptus globulus. Forest Genetics 7: 317-328. ]Search in Google Scholar
[NOLAN, G., T. INNES, A. REDMAN and R. MCGAVIN (2003): Australian hardwood drying best practice manual. PN01.1307, Forest and Wood Products Research and Development Corporation. ]Search in Google Scholar
[NOLAN, G., R. WASHUSEN, S. JENNINGS, B. GREAVES and M. PARSONS (2005): Eucalypt plantations for solid wood products in Australia - A review. PN04.3002, Forest and Wood Products Research and Development Corporation. ]Search in Google Scholar
[NUTTO, L. and M. C. T. VAZQUEZ (2004): High quality eucalyptus sawlog production. P. 658-666. In: Eucalyptus in a changing world. Proceedings of an IUFRO conference, Aveiro, Portugal. 11-15 October. ]Search in Google Scholar
[PARSONS, M., M. GAVRAN and J. DAVIDSON (2006): Australia’s plantations 2006. Bureau of Rural Sciences, Commonwealth of Australia. ]Search in Google Scholar
[POTTS, B., R. E. VAILLANCOURT, G. JORDAN, G. W. DUTKOWSKI, J. DA COSTA E SILVA, G. E. MCKINNON, D. A. STEANE, P. VOLKER, G. A. LOPEZ, L. APIOLAZA, Y. LI, C. MARQUES and N. BORRALHO (2004): Exploration of the Eucalyptus globulus gene pool. P. 46-61. In: Eucalyptus in a changing world. Proceedings of an IUFRO conference, Aveiro, Portugal. 11-15 October.]Search in Google Scholar
[RAYMOND, C. A. (2000): Tree breeding issues for solid wood production. P. 310-316. In: The Future of Eucalypts for Wood Products. Proceedings of an IUFRO Conference, Launceston, Tasmania. 19-24 March. ]Search in Google Scholar
[RAYMOND, C. A. and L. APIOLAZA (2004): Incorporating wood quality and deployment traits in Eucalyptus globulus and Eucalyptus nitens. In: Plantation forest biotechnology for the 21st century. (Ed. C. WALTER and M. CARSON.) pp. 87-99. Research Signpost, Kerala, India. ]Search in Google Scholar
[RAYMOND, C. A., L. SAVAGE and C. HARWOOD (2004): Longitudinal patterns of volumetric shrinkage and collapse in Eucalyptus globulus and E. nitens. P. 701. In: Eucalyptus in a changing world. Proceedings of an IUFRO conference, Aveiro, Portugal. 11-15 October. ]Search in Google Scholar
[RAYMOND, C. A., L. R. SCHIMLECK, A. MUNERI and A. J. MICHELL (2001): Genetic parameters and genotype-byenvironment interactions for pulp yield predicted using near infrared reflectance analysis and pulp productivity in Eucalyptus globulus. Forest Genetics 8: 213-224.]Search in Google Scholar
[SVENSSON, S. and A. MARTENSSON (1999): Simulation of drying stresses in wood. Part I: comparison between one- and two-dimensional models. Holz als Roh- und Werkstoff 57: 129-136. 10.1007/s001070050028]Open DOISearch in Google Scholar
[TAPPI (1989): Basic density and moisture content of pulpwood. T258 om-98, Technical Association of the Pulp and Paper Industries (TAPPI). ]Search in Google Scholar
[VOLKER, P. W., C. A. DEAN, W. N. TIBBITS and I. C. RAVENWOOD (1990): Genetic parameters and gains expected from selection in Eucalyptus globulus in Tasmania. Silvae Genetica 39: 18-21. ]Search in Google Scholar
[WALKER, J. C. F. (2006): Primary wood processing: principles and practice. Second edition. Springer, Dordrecht, The Netherlands. ]Search in Google Scholar
[WASHUSEN, R. (2004): Processing pruned and unpruned Eucalyptus globulus managed for sawlog production to produce high value products. PN03.1315, Australian Government, Forest and Wood Products Research and Development Corporation. ]Search in Google Scholar
[WASHUSEN, R., P. BLAKEMORE, R. NORTHWAY, P. VINDEN and G. WAUGH (2000): Recovery of dried appearance grade timber from Eucalyptus globulus Labill. grown in plantations in medium rainfall areas of the southern Murray-Darling Basin. Australian Forestry 63: 277-283. 10.1080/00049158.2000.10674842]Open DOISearch in Google Scholar
[WASHUSEN, R. and J. ILIC (2001): Relationship between transverse shrinkage and tension wood from three provenances of Eucalyptus globulus Labill. Holz als Roh- und Werkstoff 59: 85-93. 10.1007/s001070050480]Search in Google Scholar
[WAUGH, G. (2004): Growing Eucalyptus globulus for highquality sawn products. P. 79-84. In: Eucalyptus in a changing world. Proceedings of an IUFRO conference, Aveiro, Portugal. 11-15 October. ]Search in Google Scholar
[WAUGH, G. and J. YANG (1994): Opportunities for sawn products from Tasmanian plantation eucalypts. P. 215-220. In: Faces of Farm Forestry. Proceedings of an Australian Forest Growers Conference, Launceston, Tasmania.]Search in Google Scholar
