Genetic variation and genetic gain in growth traits, stem-branch characteristics and wood properties and their relationships to Eucalyptus urophylla clones

APIOLAZA, L. A., C. A. Raymond and B. J. YEO (2004): Genetic variation of physical and chemical wood properties of Eucalyptus globulus. Silvae Genetica 54(4-5): 160-164.Search in Google Scholar

ARAVANOPOULOS, F. A., K. H. KIM and L. ZSUFFA (1999): Genetic diversity of superior salix clones selected for intensive forestry plantations. Biomass & Bioenergy 16: 249-255.10.1016/S0961-9534(98)00013-0Search in Google Scholar

BERNARDO, A. L., M. G. F. REIS, G. G. REIS, R. B. HARRISON and D. J. FIRME (1998): Effect of spacing on growth and biomass distribution in Eucalyptus camaldulensis, E. pellita and E. urophylla plantations in southeastern Brazil. Forest Ecology and Management 104: 1-13-10.1016/S0378-1127(97)00199-0Search in Google Scholar

BORRALHO, N. M. G. (2002): The challenges and lessons from breeding Eucalyptus. pp. 79-89. In: WEI, R., XU, D. Eucalyptus Plantation Research, Management and Development. Proceedings of the International Symposium held in Guangzhou, People’s Republic of China. 1-6 September 2002 World Scientific Publishing Co. Pte. Ltd.Search in Google Scholar

BOUVET, J. M., P. H. VIGNERON and A. SAYA (2003): Trends in variance and heritabilities with age for growth traits in Eucalyptus spacing experiments. Silva Genetica 52(3-4): 121-133.Search in Google Scholar

BUEREN, M.V. (2004): Eucalypt tree improvement in China. Australian Centre for International Agricultural Research, Impact Assessment Series Report No. 30.Search in Google Scholar

BULL, G. Q., M. BAZETT, O. SCHWAB, S. NILSSON, A. WHITE and S. MAGNINNIS (2006): Industrial forest plantation subsidies: impacts and implications. Forest Policy and Economics 9: 13-31.10.1016/j.forpol.2005.01.004Search in Google Scholar

CHAUHAN, S. S. and J. C. F. WALKER (2006): Variation in acoustic and density with age, and their interrelationships in radiation pine. Forest Ecology and Management 229: 388-394.10.1016/j.foreco.2006.04.019Search in Google Scholar

CHEN, Y., L. KANG and B. DELL (2006): Inoculation of Eucalyptus urophylla with spores of Scleroderma in a nursery in south China: comparision of field soil and potting mix. Forest Ecology and Management 222: 439-449.10.1016/j.foreco.2005.10.050Search in Google Scholar

DANUSEVICIUS, D. and D. LINDGREN (2002): Clonal testing may be the approach to long-term breeding of Eucalyptus. In: R. P. WEI and D. P. XU (eds), Eucalyptus Plantation Research, Management and Development. World Scientific Publishing Co. Pte. Ltd. pp: 192-209.Search in Google Scholar

DEAN, G. H. (1995): Objectives for wood fibre quality and uniformity. In: POTTS, B. M., Borralho, N. M. G., REID, J. B., CROMER, R. N., TIBBITS, W. N. and RAYMOND, C. A. (eds) Eucalyptus plantations: improving fibre yield and quality. CRC THF -IUFRO Conf., Hobart, 19-24 Feb. pp 483.Search in Google Scholar

DICKSON, R. L., C. A. RAYOND, 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)00519-4Search in Google Scholar

FANG, S., X. XU, S. LU and L. TANG (1999): Growth dynamics and biomass production in short-rotation popar plantations: 6-year results for three clones at four spacings. Biomass & Bioenergy 17: 415-425.10.1016/S0961-9534(99)00060-4Search in Google Scholar

FORRESTER, D., J. BAUHUS, A. L. COWIE and J. K. VANCLAY (2006): Mixed-species plantations of Eucalyptus with nitrogen-fixing trees: a review. Forest Ecology and Management 233: 211-230.10.1016/j.foreco.2006.05.012Search in Google Scholar

GAN, S., M. LI, F. LI, K. WU and J. BAI (2004): Genetic analysis of growth and susceptibility to bacterial wilt (Ralstonia solanacearum) in Eucalyptus by interspecific factorial crossing. Silva Genetic, 53(5-6): 254-258.10.1515/sg-2004-0047Search in Google Scholar

GARCIA, J. N. (2002): Gains and losses on sawn wood yield and quality through forest improvement, management and sawing strategies. In: R.WEI and D. XU (eds), Eucalyptus Plantation Research, Management and Development. World Scientific Publishing Co. Pte. Ltd. pp: 392-403.Search in Google Scholar

GREAVES, B. L., N. M. G. BORRALHO, C. A. RAYMOND and A. FARRINGTON (1996): Use of a Pilodyn for the indirect selection of basic density in Eucalyptus nitens. Canadian Journal of Forest Research 26(9): 1643-1650.10.1139/x26-185Search in Google Scholar

GREAVES, B. L., N. M. G. BORRALHO, C. A. RAYMOND, R. EVANS and P. H. WHITEMAN (1997): Age-age correlations in, and relationships between basic density and growth in Eucalyptus nitens. Silva Genetica 46(5): 264-270.Search in Google Scholar

HAI, P. H., G. JANSSON, C. HARWOOD, B. HANNRUP and H. H. THINH (2008): Genetic variation in growth, stem straightness and branch thickness in clonal trials of Acacia auriculiformis at three contrasting sites in Vietnam. Forest Ecology and Management 255: 156-167.10.1016/j.foreco.2007.09.017Search in Google Scholar

HANSEN, J. K. and H. ROULUND (1996): Genetic parameters for spiral grain, stem form, Pilodyn and growth in 13 year old clones of Sitka Spruce (Picea sitchensis (Bong.) Carr.). Silvae Genetica 46(2-3): 107-113.Search in Google Scholar

HARDY, G. E., T. BURGESS and B. DELL (2002): Potential threats of plant pathogens to Eucalyptus plantation in China. pp. 358-366. In: WEI, R., XU, D. Eucalyptus Plantation Research, Management and Development. Proceedings of the International Symposium held in Guangzhou, People’s Republic of China. 1-6 September 2002 World Scientific Publishing Co. Pte. Ltd.Search in Google Scholar

HE, X., F. LI, M. LI, Q. WENG, J. SHI, X. MO and S. GAN (2012): Quantitative genetics of cold hardiness and growth in Eucalyptus as estimated from E. urophylla × E. tereticornis hybrids. New Forests 43(3): 383-394.Search in Google Scholar

HENRI, D. C. J. (200): Soil-site productivity of Gmelina arborea, Eucalyptus urophylla and Eucalyptus grandis forest plantations in western Venezuela. Forest Ecology and Management 144: 255-264.10.1016/S0378-1127(00)00390-XSearch in Google Scholar

HUANG LONGBIN and B. DELL (2002): Database system approach for integrated plantation nutrition management. In: R. P. WEI and D. P. XU (eds), Eucalyptus Plantation Research, Management and Development. World Scientific Publishing Co. Pte. Ltd. pp: 290-300.Search in Google Scholar

HUANG, S., W. ZHONG, H. HUANG, K. HUANG, Q. CHEN and X. LI (1999): Reseach on genetic variation and early selection of the provenances and open-pollinated families of Eucalyptus urophylla. Forest Research 12(4): 1-7 (in Chinese).Search in Google Scholar

IKEMORI, Y. K., F. C. G. MARTINS and B. J. ZOBEL (1986): The impact of accelerated breeding on wood Properties. In proceedings of the 18th IUFRO World Conference Division 5: Forest products. Ljubljana, Yugoslavia. pp 358-368.Search in Google Scholar

ISABEL, M., M. H. ALMEIDA and H. PEREIRA (2001): Provenance and site variation of wood density in Eucalyptus globulus Labill. at harvest age and its relation to a nondestructive early assessment. Forest Ecology and Management 144: 235-240.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. Candida Journal of Forestry Research 33: 2426-2435.10.1139/x03-176Search in Google Scholar

ISHIGURI, F., R. MATSUI, K. LIZUKA, S. YOKOTA and N. YOSHIZAWA (2008): Prediction of the mechanical properties of lumber by stress-wave velocity and Pilodyn penetration of 36-year-old Japanese larch trees. Holz Rooh Werkst 66: 275-280.10.1007/s00107-008-0251-7Search in Google Scholar

JONES, T. H., D. A. STEANE, R. C. JONES, D. PILBEAM, R. E. VAILLANCOURT and B. M. POTTS (2006): Effects of domestication on genetic diversity in Eucalyptus globulus. Forest Ecology and Management 234: 78-84.10.1016/j.foreco.2006.06.021Search in Google Scholar

KIEN, N. D., G. JANSSON, C. HARWOOD, C. ALMQVIST and H. T. HA (2008): Genetic variation in wood basic density and Pilodyn penetration and their relationships with growth, stem straightness and branch size for Eucalyptus urophylla S.T.Blake in Northern Vietnam. New Zealand Journal of Forestry Science 38(1): 160-175. Search in Google Scholar

KIEN, N. D., G. JANSSON, C. HARWOOD and H. H. THINH (2009): Genetic control of growth and form in Eucalyptus urophylla in northern Vietnam. Journal of Tropical Forestry Science 21(1): 50-65.Search in Google Scholar

KIEN, N. D., G. JANSSON, C. HARWOOD and C. ALMQVIST (2010): Clonal variation and genotype by environment interactions in growth and wood density in Eucalyptus camaldulensis at three contrasting sites in Vietnam. Silva Genetica 59(1): 17-28.10.1515/sg-2010-0003Search in Google Scholar

KNOWLES, L. R., L. W. HANSEN, A. WENDDING and G. DOWNES (2004): Evaluation of non-destructive methods for assessing stiffness of Douglas fir trees. New Zealand Journal of Forestry Science 34(1): 87-101.Search in Google Scholar

KUBE, P. D., C. A. RAYMOND and P. W. BANHAM (2001): Genetic parameters for diameter, basic density, cellulose content and fibre properties for Eucalyptus Nitens. Forest Genetics 8(4): 285-294.Search in Google Scholar

KUMAR, D. and N. B. SINGH (2001): Age-age correlation for early selection of clones of Populus in India. Silva Genetica 50(3-4): 103-108.Search in Google Scholar

KUSNANDAR, D., N. W. GALWEY, G. L. HERTZLER and T. B. BUTCHER (1998): Age trends in variances and heritabilities for diameter and height in Maritime Pine (Pinus pinaster AIT.) in western Australia. Silva Genetica 47(2-3): 136-141.Search in Google Scholar

LEITE, S. M. M., C. A. BONINE, E. S. MORI, C. F. VALLE and C. L. NARINO (2002): Genetic variation in a breeding population of Eucalyptus urophylla S.T.Blake. Silva Genetica 51 (5-6): 253-256.Search in Google Scholar

LEMENIH, M. and T. BEKELE (2004): Effect of age on calorific value and some mechanical properties of three Eucalyptus species grown in Ethiopia. Biomass & Bioenergy 27: 223-232.10.1016/j.biombioe.2004.01.006Search in Google Scholar

LI, F., S. GAN, Z. ZHANG, Q. WENG, D. XIANG M. LI (2011): Microsatellite-based genotyping of the commercial Eucalyptus clones cultivated in China. Silvae Genetica 60(5): 216-223.10.1515/sg-2011-0029Search in Google Scholar

LI, G., J. XU, Z. LU, W. YANG, G. YANG and L. ZHONG (2005a): Studies on index selection of Eucalyptus urophylla families. Forest Research 18(1): 57-61 (in Chinese).Search in Google Scholar

LI, G., J. XU, Z. LU, J. BAI and R. CHEN (2005b): Selection and genetic analysis of families in second generation orchard of Eucalyptus urophylla. Journal of Nanjing Forestry University (Natural Science Edition) 29(6): 40-44 (in Chinese). Search in Google Scholar

LIANG, K. and J. BAI (2003): Selection on growth and wind-resistance traits for provenances and families of Eucalyptus urophylla. Forest Research 16(6): 700-707 (in Chinese).Search in Google Scholar

LIMA, J. T., M. C. BREESE and C. M. CAHALAN (2000): Genotype-environment interaction in wood basic density of Eucalyptus clones. Wood Science and Technology 34: 197-206.10.1007/s002260000041Search in Google Scholar

LU, G., Z. LU, J. XU, R. ZHAO, Y. LI and G. LI (2003): Study on integrated selection and estimated the breeding value of Eucalyptus urophylla families progenies. Guangdong Forest Science and Technology 19(4): 1-6 (in Chinese).Search in Google Scholar

LU, G., Z. LU, J. XU, R. ZHAO, Y. LI and G. LI (2004): Study on growth variation of Eucalyptus urophylla clones. Guangxi Forestry Science 33(1): 42-45 (in Chinese).Search in Google Scholar

LU, Z., J. XU, G. LI, J. BAI and S. QI (2004): The character analysis of Eucalyptus urophylla families progenies by open pollination. Journal of Central South Forestry University 24(5): 20-23 (in Chinese).Search in Google Scholar

LU, Z., J. XU, G. LI, J. BAI, H. HUANG and Y. HU (2010): Study on multi-characters genetic analysis and selection index of 93 Eucalyptus urophylla clones. Eucalypt Science & Technology 27(1): 1-8 (in Chinese).Search in Google Scholar

LUO, J., G. ZHOU, B. WU, D. CHEN, J. CAO, W. LU, R. E. PEGG and R. J. ARNOLD (2010): Genetic variation and age-age correlations of Eucalyptus grandis at Dongmen Forest Farm in southern China. Australian Forestry 73(2): 69-82.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 ssp. globulus in Tasmania (Australia). Silvae Genetica 46(4): 236-241.Search in Google Scholar

MCKENNEY, D. W., J. S. DAVIS and J. W. TURNBULL (1991): The impact of Australian tree species research in China [A]. ACIAR Economic Assessment Series[C] Canberra. 12: 6-7. Search in Google Scholar

MAHMOOD, K., N. E. M. MARCAR, M. H. NAQVI, R. J. ARNOLD, D. F. CRAWFORD, S. IQBAL and K. M. AKEN (2003): Genetic variation in Eucalyptus camaldulensis Dehnh. For growth and stem straightness in a provenance- family trial on saltland in Pakistan. Forest Ecology and Management 176: 405-416.10.1016/S0378-1127(02)00230-XSearch in Google Scholar

MATHESON, A. C., W. J. GAPARE, J. ILIC and H. X. WU (2008): Inheritance and genetic gain in wood stiffness in Radiata pine assessed acoustically in young standing trees. Silva Genetica 57(2): 56-64.10.1515/sg-2008-0009Search in Google Scholar

MCKENNEY, D. W. (1998): Australian tree species selection in China. Canberra, Canadian Forest Service Great Lakes Forestry Centre, ACIAR Projescts 8457 and 8848, Impact Assessment Series Report No. 8, Search in Google Scholar

MIRANDA, I., M. H. ALMEIDA and H. PEREIRA (2001): Provenance and site variation of wood density in Eucalyptus globulus Labill. at harvest age and its relation to a nondestructive early assessment. Forest Ecology and Management 149: 235-240, 10.1016/S0378-1127(00)00560-0Search in Google Scholar

MO, X., S. PENG, T. Long, W. CHEN and X. YANG (2002): Important traits and combined evaluation of eucalypt clones. pp. 102-108. In: WEI, R., XU, D. Eucalyptus Plantation Research, Management and Development. Proceedings of the International Symposium held in Guangzhou, People’s Republic of China. 1-6 September 2002 World Scientific Publishing Co. Pte. Ltd. Search in Google Scholar

MUNERI, A. and C. A. RAYMOND (2000): Genetic parameters and genotype-by-environment interactions for basic density, Pilodyn and stem diameter in Eucalyptus globulus. Forest Genetics 7(4): 317-328.Search in Google Scholar

OSORIO, L. F., T. L. WHITE and D. A. HUBER (2001): Age rends of heritabilities and genotype-by-environment interactions for growth traits and wood density from clonal trials of Eucalyptus grandis Hill ex Maiden. Silva Genetica 50(1): 30-36.Search in Google Scholar

OSORIO, L. F., T. L. WHITE and D. A. HUBER (2003): Ageage and trait-trait correlations for Eucalyptus grandis Hill ex Maiden and their implications for optimal selection age and design of clonal trials. Theoretical Applied Genetics 106: 735-743.10.1007/s00122-002-1124-9Search in Google Scholar

PEGG, R. E., H. J. LI, H. W. LI, G. F. ZHOU and D. Y. XIANG (2006): Study on artificial breeding of eucalypt hybrid in Guangxi. Guangxi Forestry Science 35(4): 238-242 (in Chinese).Search in Google Scholar

PELLETIER, M. C., M. HENSON, S. BOYTON, D. THOMAS and J. VANCLAY (2008): Genetic variation in shrinkage properties of Eucalyptus pilularis assessed using increment cores and test blocks. New Zealand Journal of Forestry Science 38(1): 194-210.Search in Google Scholar

PLIURA, A., S. Y. ZHANG, J. MACKAY and J. BOUSQUET (2007): Genotypic variation in wood density and growth traits of poplar hybrids at four clonal trials. Forest Ecology and Management 238: 92-106.10.1016/j.foreco.2006.09.082Search in Google Scholar

QI, S. (2002): Eucalyptus in China. Beijing: China Forestry Publishing House. PP: 1-2 (in Chinese). Search in Google Scholar

QUANG, T. H., N. D. KIEN, S. V. ARNOLD, G. JANSSON, H. H. THINH and D. CLAPHAM (2009): Relationship of wood composition to growth traits of selected open-polinated families of Eucalyptus urophylla from a progeny trial in Vietnam. New Forests 39: 301-312.10.1007/s11056-009-9172-5Search in Google Scholar

RAYMOND, C. A., P. D. KUBE, L. PINKARD, L. SAVAGE and A. D. BRADLEY (2004): Evaluation of non-destructive methods of measuring growth stress in Eucalyptus globulus: relationships between strain, wood properties and stress. Forest Ecology and Management 190: 187-200.10.1016/j.foreco.2003.10.011Search in Google Scholar

RETIEF, E. C. L. and T. K. STANGER (2009): Genetic control of wood density and bark thickness, and their correlations with diameter, in pure and hybrid populations of Eucalyptus grandis and E. urophylla in south Africa. Southern Forests 71(2): 147-153.Search in Google Scholar

STACKPOLE, D. J., R. E. VAILLANCOURT, M. D. AGUIGAR and B. M. POTTS (2010): Age trends in genetic parameters for growth and wood density in Eucalyptus globulus. Tree Genetics ? Genomes 6: 179-193.10.1007/s11295-009-0239-4Search in Google Scholar

TOIT, B. D., C. W. SMITH, K. M. LITTLE, G. BOREHAM and R. N. PALLETT (2010): Intensive, site-specific silviculture: manipulating resource availability at establishment for improved stand productivity. A review of Southern African research. Forest Ecology and Management 259: 1836-1845.10.1016/j.foreco.2009.07.015Search in Google Scholar

VARGHESE, M., C. E. HARWOOD, R. HEGDE and N. RAVI (2008): Evaluation of provenances of Eucalyptus camaldulensis and clones of E. camaldulensis and E. tereticorni at contrasting sites in southern India. Silva Genetica 57(3): 136-141.Search in Google Scholar

WAGHORN, M. J., M. S. WATT and E. G. MASON (2007): Influence of tree morphology, genetics, and initial stand density on outerwood modulus of elasticity of 17-yearold Pinus radiate. Forest Ecology and Management 244: 86-92.10.1016/j.foreco.2007.03.057Search in Google Scholar

WANG, H., D. C. MALCOLM and A. M. FLETCHER (1999): Pinus caribaea in China: introduction, genetic resources and future prospects. Forest Ecology and Management 117: 1-15.10.1016/S0378-1127(98)00479-4Search in Google Scholar

WANG, X., R. J. ROSS, M. MCCLELLAN, R. J. BARBOUR, J. R. ERICKSON, J. W. FORSMAN and G. D. MCGINNIS (2000): Strength and stiffness assessment of standing trees using a nondestructive stress wave technique. Res. Pap. FPL-RP-585. U.S. Department of Agriculture, Forest Service, Forest Products Laboratory, Madison, WI. pp 197-206.Search in Google Scholar

WARREN, E., R. G. B. SMITH, L. A. APIOLAZA and J. C. F. WALKER (2009): Effects of stocking on juvenile wood stiffness for three Eucalyptus species. New Forests 37: 241-250.10.1007/s11056-008-9120-9Search in Google Scholar

WEI, R. (2002): Merging ecological concerns into sustainable management of short-rotation forest plantations in south china: practices by Sino-forest Corp. pp. 51-63. In: WEI, R., XU, D. Eucalyptus Plantation Research, Management and Development. Proceedings of the International Symposium held in Guangzhou, People’s Republic of China. 1-6 September 2002 World Scientific Publishing Co. Pte. Ltd.10.1142/9789812704504_0005Search in Google Scholar

WEI, X. M. and N. M. G. BORRALHO (1996): A simple model to describe age trends in heritability in short rotation tree species. Tree Improvement for Sustainable Tropical Forestry. Proc. QFRI-IUFRO Conf., Caloundra, Queensland, Australia. pp: 178-181. [Refereed conference]Search in Google Scholar

WEI, X. and N. M. G. BORRALHO (1997): Genetic control of basic density and bark thickness and their relationships with growth traits of Eucalyptus urophylla in south east China. Silvae Genetica 46(4): 245-250.Search in Google Scholar

WRIGHT, J. A. and L. F. OSORIO (1996): Comparison of Eucalyptus urophylla provenance performance at halfrotation in Colombia and hybrid strategies with Eucalyptus grandis. Forest Ecology and Management 83: 117-122.10.1016/0378-1127(95)03681-4Search in Google Scholar

WU, S., J. XU, G. LI, V. RISTO, Z. LU, B. LI and W. WANG (2010): Use of the Pilodyn for assessing wood properties in standing trees of Eucalyptus clones. Journal of Forestry Research 21(1): 68-72.10.1007/s11676-010-0011-5Search in Google Scholar

WU, S., J. XU, G. LI, V. RISTO, Z. LU, B. LI and W. WANG (2011a): Estimation of basic density and modulus of elasticity of eucalypts clones using nondestructive methods in southern China. Journal of Tropical Forestry Science 23(1): 51-56.Search in Google Scholar

WU, S., J. XU, G. LI, Z. DU, Z. LU, B. LI and W. WANG (2011b): Genotypic variation in wood properties and growth traits of Eucalyptus hybrid clones in southern China. New Forests 42: 35-50.10.1007/s11056-010-9235-7Search in Google Scholar

XIANG, B., B. LI and F. ISIK (2003): Time trend of genetic parameters in growth traits of pinus taeda L. Silvae Genetica 52(3-4): 114-121.Search in Google Scholar

XU, D. and B. DELL (2002): Nutrient management of eucalypt plantations in south China. In: R.WEI and D. XU (eds), Eucalyptus Plantation Research, Management and Development. World Scientific Publishing Co. Pte. Ltd. pp: 269-288.Search in Google Scholar

XU, J., J. BAI and Z. LU (2001): Some sustainable strategies of improvement and breeding for Eucalyptus tree species in southern China. Forest Research 14(6): 587-594 (in Chinese).Search in Google Scholar

XU, J., Z. LU, G. LI and J. BAI (2003a): Study on integrated selection of provenances-families of Eucalyptus tereticornis. Forest Research 16(1): 1-7 (in Chinese).10.1142/9789812704504_0017Search in Google Scholar

XU, J., G. LI, Z. LU, J. BAI, G. LU and S. WANG (2003b): Progeny test for the open pollinated families of Eucalyptus urophylla in multiple sites. Forest Research 16(3): 277-283 (in Chinese).Search in Google Scholar

XU, J., Z. LU, J. BAI, S. WANG, G. YANG and G. LI (2005): Genetic analysis and breeding value estimation of seedling seed orchard of Eucalyptus urophylla. Forest Research 18(5): 516-523 (in Chinese).Search in Google Scholar

XU, J., Z. LU, G. LI, S. WU, W. WANG, H. HUANG, P. TAN and T. YE (2009): Study on the selection from clones of Eucalyptus hybrids. Eucalypt Science & Technology 26(2): 1-8.Search in Google Scholar

YANG, M. (2003): Present situation and prospects for eucalypt plantations in China. pp. 9-15. In: TURNBULL, J. W. Eucalypts in Asia Proceedings of an international conference held in Zhanjiang, Guangdong, People’s Republic of China, 7-11 April 2003. Canberra, Australian Centre for International Agricultural Research Proceedings No. 111.Search in Google Scholar