[BOUFFIER, L., C. CHARLOT, A. PAFFIN, P. ROZENBERG and A. KREMER (2008): Can wood density be efficiently selected at early stage in maritime pine (Pinus pinaster Ait.)? Ann For Sci 65: 106p1-106p8.10.1051/forest:2007078]Search in Google Scholar
[BOUVET, J. M. and P. VIGNERON (1995): Age trends in variances and heritabilities in Eucalyptus factorial mating designs. Silvae Genet 44: 206-216.]Search in Google Scholar
[BROOKER, M. I. H. (2000): A new classification of the genus Eucalyptus L’Hér. (Myrtaceae). Aust Syst Bot 13: 79-148.10.1071/SB98008]Search in Google Scholar
[BUEREN, M. VAN (2004): Eucalypt tree improvement in China. Impact assessment series report No. 30. Australian Centre for International Agricultural Research, Canberra.]Search in Google Scholar
[COSTA E SILVA, J., B. M. POTTS and P. TILYARD (2012): Epistasis causes outbreeding depression in eucalypt hybrids. Tree Genet Genomes 8: 249-265.10.1007/s11295-011-0437-8]Search in Google Scholar
[DIANESE, J. C. and M. C. G. DRISTIG (1993): Screening Eucalyptus selections for resistance to bacterial wilt caused by Pseudomonas solanacearum, pp. 206-218. In: Bacterial wilt, ACIAR Proceedings No. 45, edited by G. L. HARTMAN and A. C. HAYWARD, Australian Centre for International Agricultural Research, Canberra.]Search in Google Scholar
[ELDRIDGE, K. G., J. DAVIDSON, C. HARDWOOD and G. VAN WYK (1993): Eucalypt domestication and breeding. Oxford University Press, Oxford.]Search in Google Scholar
[GAN, S., M. LI, F. LI, K. WU, J. WU and J. BAI (2004): Genetic analysis of growth and susceptibility to bacterial wilt (Ralstonia solanacearum) in Eucalyptus by interspecific factorial crossing. Silvae Genet 53: 254-258.10.1515/sg-2004-0047]Search in Google Scholar
[GORDON, I. L. (1999): Quantitative genetics of intraspecies hybrids. Heredity 83: 757-764.10.1046/j.1365-2540.1999.00634.x10651921]Search in Google Scholar
[GRIFFIN, A. R., I. P. BURGESS and L. WOLF (1988): Patterns of natural and manipulated hybridization in the genus Eucalyptus L’Herit - a review. Aust J Bot 36: 41-46.10.1071/BT9880041]Search in Google Scholar
[HALLAUER, A. R. and J. B. MIRANDA (1981): Quantitative genetics in maize breeding. Iowa State Univ. Press, Ames.]Search in Google Scholar
[HE, X., F. LI, M. LI, Q. WENG, J. SHI, X. MO and S. GAN (2012a): Quantitative genetics of cold hardiness and growth in Eucalyptus as estimated from E. urophylla × E. tereticornis hybrids. New For 43: 383-394.10.1007/s11056-011-9287-3]Search in Google Scholar
[HE, X., Y. WANG, F. LI, Q. WENG, M. LI, L. XU, J. SHI and S. GAN (2012b): Development of 198 novel EST-derived microsatellites in Eucalyptus (Myrtaceae). Am J Bot 99: e134-e148.10.3732/ajb.110044222473983]Search in Google Scholar
[HOLLAND, J. B. (2006) Estimating genotypic correlations and their standard errors using multivariate restricted maximum likelihood estimation with SAS Proc Mixed. Crop Sci 46: 642-654.10.2135/cropsci2005.0191]Search in Google Scholar
[ISIK, F. and B. LI (2003): Rapid assessment of wood density of live trees using the Resistograph for selection in tree improvement programs. Can J For Res 33: 2426-2435.10.1139/x03-176]Search in Google Scholar
[LEE, D. J., D. G. NIKLES and G. R. DICKINSON (2001): Prospects of eucalypt species, including interspecific hybrids from South Africa, for hardwood plantations in marginal subtropical environments in Queensland, Australia. South Afr For J 190: 89-94.10.1080/20702620.2001.10434120]Search in Google Scholar
[LIN, M. and B. LI (2003): The study on introduction of cold tolerant Eucalyptus in Hunan. Eucalypt Sci Technol 20: 1-12.]Search in Google Scholar
[LIU, Y. and D. WANG (2005): Rapid propagation of Eucalyptus urophylla × E. tereticornis cv M1 by tissue culture. J Southwest Agri Univ (Nat Sci) 27: 237-239.]Search in Google Scholar
[LYNCH, M. and B. WALSH (1998): Genetics and analysis of quantitative traits. Sinauer Associates Inc., Sunderland, Massachusetts.]Search in Google Scholar
[MADHIBHA, T., R. MUREPA, C. MUSOKONYI and W. GAPARE (2013): Genetic parameter estimates for interspecific Eucalyptus hybrids and implications for hybrid breeding strategy. New For 44: 63-84.10.1007/s11056-011-9302-8]Search in Google Scholar
[MALAN, F. S. and S. D. VERRYN (1996): Effect of geno - type-by-environment interaction on the wood properties and qualities of four-year-old Eucalyptus grandis and E. grandis hybrids. South Afr For J 176: 47-53.]Search in Google Scholar
[MARCAR, N. E. (1989): Salt tolerance of frost-resistant eucalypts. New For 3: 141-149.10.1007/BF00021578]Search in Google Scholar
[MARTIN, B. (1989): The benefits of hybridization. How do you breed for it? pp. 79-92. In: Breeding tropical trees, edited by G. L. GIBSON, A. R. GRIFFIN and A. C. MATHESON, Oxford Forestry Institute, Oxford.]Search in Google Scholar
[MEDDINGS, R. L. A., J. A. MCCOMB and D. T. BELL (2001): The salt-water-logging tolerance of Eucalyptus camaldulensis × E. globulus hybrids. Aust J Exp Agr 41: 787-792.10.1071/EA00104]Search in Google Scholar
[MELCHINGER, A. E. and R. K. GUMBER (1998) Overview of heterosis and heterotic groups in agronomic crops, pp. 29-44. In: Concepts and breeding of heterosis in crop plants, edited by K. R. LAMKEY and J. E. STAUB, CSSA, Madison, Wisconsin.10.2135/cssaspecpub25.c3]Search in Google Scholar
[NIKLES, D. G. and R. S. NEWTON (1991): Correlations of breeding values in pure and hybrid populations of hoop pine and some southern pines in Queensland and relevance to breeding strategies, pp. 192-196. In: Proceedings of the 11th meeting of RWG 1 (Forest Genetics), edited by C. A. Dean, CSIRO, Canberra.]Search in Google Scholar
[PLÂQUES, L. E. (2004): Roles of European and Japanese larch in the genetic control of growth, architecture and wood quality traits in interspecific hybrids (Larix × eurolepis Henry). Ann For Sci 61: 25-33.10.1051/forest:2003081]Search in Google Scholar
[POTTS, B. M. and H. S. DUNGEY (2004): Interspecific hybridization of Eucalyptus: key issues for breeders and geneticists. New For 27: 115-138.10.1023/A:1025021324564]Search in Google Scholar
[RETIEF, E. C. L. and T. K. STANGER (2009): Genetic parameters of pure and hybrid populations of Eucalyptus grandis and E. urophylla and implications for hybrid breeding strategy. Southern For 71: 133-140.]Search in Google Scholar
[ROJAS, B. A. and G. F. SPRAGUE (1952): A comparison of variance components in corn yield trials: III. General and specific combining ability and their interaction with locations and years. Agron J 44: 462-466.10.2134/agronj1952.00021962004400090002x]Search in Google Scholar
[SHULL, G. H. (1952): Beginnings of the heterosis concept, pp. 14-48. In: Heterosis, edited by J. W. GOWEN, Iowa State College Press, Ames.]Search in Google Scholar
[SHULL, G. H. (1908): The composition of a field of maize. Am Breed Assoc Rep 4: 296-301.10.1093/jhered/os-4.1.296]Search in Google Scholar
[SLEE, A. V., M. I. H. BROOKER, S. M. DUFFY and J. G. WEST (2006): EUCLID - eucalypts of Australia, 3rd edition. CD. CSIRO Publishing, Melbourne.]Search in Google Scholar
[SPRAGUE, G. F. and L. A. TATUM (1942): General vs specific combining ability in single crosses of corn. J Am Soc Agron 34: 923-952.10.2134/agronj1942.00021962003400100008x]Search in Google Scholar
[THUA, P. Q., B. DELL and T. I. BURGESS (2009): Susceptibility of 18 eucalypt species to the gall wasp Leptocybe invasa in the nursery and young plantations in Vietnam. Science Asia 35: 113-117.10.2306/scienceasia1513-1874.2009.35.113]Search in Google Scholar
[VOLKER, P. W., B. M. POTTS and N. M. G. BORRALHO (2008): Genetic parameters of intra- and inter-specific hybrids of Eucalyptus globulus and E. nitens. Tree Genet Genomes 4: 445-460.10.1007/s11295-007-0122-0]Search in Google Scholar
[WATT, M. P., E. A. DUNCAN, M. ING, F. C. BLAKEWAY and B. HERMANN (1995): Field performance of micropropagated and macropropagated Eucalyptus hybrids. South Afr For J 173: 17-21.]Search in Google Scholar
[WU, K., J. WU, J. XU and S. GAN (1996): Cross breeding in Eucalyptus. For Res 9: 504-509.]Search in Google Scholar
[YU, X., F. LI, Q. WENG, C. ZHOU and S. GAN (2011): Detection of quantitative trait loci related with rooting ability of cuttings and growth of Eucalyptus. For Res 24: 200-204.]Search in Google Scholar