References
- Anonymous (2001): North Carolina State University- Industry Cooperative Tree Improvement Program. Annual Report No.45. Department of Forestry, College Of Natural Resources, North Carolina State University, Raleigh, N. C., 24 pp.
- BECKER, W. (1985): Manual of Quantitative Genetics. Academic Enterprise, Pullman, Washington, 190 pp.
- BERGMAN, A. (1968): Variation in flowering and its effect on seed cost-study of seed orchards of loblolly pine. Tech. Rept. N0. 38, School of Forest Resources, north Carolina State University at Raleigh, North Carolina.
- BOUVAREL, P. (1966): Economic factors in the choice of a method of forest tree breeding. Sexton Congreso Forestal Mudial, Madrit, Junio 1966, 6 CFM/G/C.T.I./6, PP 1-18.
- BURDON, R. D. (1977): Genetic correlation as a concept for studying genotype-environment interaction in forest tree breeding. Silvae Genet. 26: 168-175.
- DAVIS, L. S. (1967): Investment in loblolly pine clonal seed orchards. Production costs and economic potential. J. For. 65: 882-887.
- DHAKAL, L, T. WHITE and G. HODGE (1966): Realized genetic gain from slash pine tree improvement. Silvae Genet. 45(4): 190-197.
- FALCONER, D. (1970): Introduction to Quantitative Genetics. The Ronald Press Company, N. York, 365 pp.
- FOSTER, G. S. and S. A. KNOWE (1995): Deployment and genetic gain. Proceedings of CRCTHF-IUFRO Conference, Hobart Australia. Eucalypt plantations: Improving fibre yield and quality, 469-478, p.
- HODGE, G. R. and T. l. WHITE (1992): Genetic parameter estimates for growth traits at different ages in slash pine and some implications for breeding. Silvae Genet. 41: 252-262.
- KANG, K. S. (2001): Genetic gain and gene diversity of seed orchard crops. Swedish University of Agricultural Sciences, Silvestralia No. 187.
- KANG, K. S. and D. LINDGREN (1999): Fertility variation among clones of Korean pines (Pinus Koraiensis S. et. Z.) and its implications on seed orchard management. For. Gen. 6: 191-200.
- KANG, K. S., A. BILA, D. LINDGREN and W. CHOI (2001): Predicted drop in gene diversity over generations in the population where the fertility varies among individuals. Silvae Genet. 50(5-6): 200-205.
- LAMBETH, C. (1980): Juvenile-mature correlations in Pinaceae and implications for early selection. For. Sci. 26(4): 571-580.
- LI, B., S. MCKEAND and R. WEIR (1999): Tree improvement and sustainable forestry-impact of two cycles of loblolly pine breeding in the USA. For. Genet. 6: 229-234.
- LINGREN, D. (1994): Intensity roguing in young seed orchards. In: LEE, S. J. (editor). Progeny testing and breeding strategies. Proceeding of the Nordic Group for Tree Breeding. Edimbugh, 1993, PP 14-22.
- MCKEAND, S. C. (1988): Optimum age for family selection for growth in genetic test of loblolly pine. For. Sci. 34: 400-411.
- MATHESON, A. C., K. G. ELDRIDGE, A. G. BROWN and D. J. SPENCER (1986): Wood volume gains from first generation Radiata pine seed orchards. CSIRO Div. For Res. User Ser. No. 4, 13 pp.
- MATZIRIS, D. (1974): Predicted versus Realized Gain in loblolly pine (Pinus taeda L.) improvement. Ph. D. Thesis, North Carolina State University, School of Forest Resources, Raleigh N. C. USA, 191 pp.
- MATZIRIS, D. (1994): Genetic variation in the phenology of flowering in black pine. Silvae Gen. 43(5-6): 321-328.
- MATZIRIS, D. (1998): Precocity of flowering and commercial maturity in a clonal seed orchard of black pine grown in Greece. Proceedings of International Conference, Bulgarian Academy of Sciences, Forest Research Institute Sofia, Vol. II 44-49 pp.
- MATZIRIS, D. (2000): Genetic variation and realized genetic gain from Aleppo pine tree improvement. Silvae Gen. 49(1): 5-10.
- NAMKOONG, G. (1979): Introduction to Quantitative Genetics in Forestry. U. S. Dep. Agri. Tech. Bull. No. 1588, 342 pp.
- NAMKOONG, G., D. R. BARNES and J. BURLEY (1980): Screening for yield in forest tree breeding. Comonw. For. Rev. 59(1): 62-68.
- OLSON T., D. LINDGREN and B. LI (2001): Balancing genetic gain and relatedness in seed orchards. Silvae Gen. 50(5-6): 222-227.
- PEPPER, W. and G. NAMKOONG (1978): Comparing efficiency of balanced mating designs for progeny testing. Silvae Genet. 27(3-4): 161-169).
- PIRCHNER, F. (1969): Population Genetics in Animal Breeding. W. F. FREEMAN and Company, San Francisco, California, 270 pp.
- SAMUEL, C. J., A. JOHN and S. J. LEE (2000): Fifty years of tree breeding in Great Britain. Forest Research, Northern Research Station, Roslin, Midlothian, U.K., 70 pp.
- SHEPHERD, K. R. and M. U. SLEE (1969): Tree breeding programs and silvicultural practice in Australian manmade forests. Second World Cons. On FTB., FO-FTB-69-9/9, 13 pp.
- SIERRA-LUCERO, V., S. MCKEAND, D. HUBER, D. ROCKWOOD and T. WHITE (2002): Performance differences and genetic parameters for four Coastal Provenances of loblolly pine in southeastern United States. Forest Sci., 48(4): 732-742.10.1093/forestscience/48.4.732
- SNEDECOR, G. and W. COCHRAN (1968): Statistical Methods. Iawa State Un. Press. AMCS, Iawa USA, 593 pp.10.1097/00010694-196809000-00018
- STONOCYPHER, R. W. (1966): The loblolly pine heritability study. Tech. Bull. No. 5, International Paper Company, Bainbridge, Georgia USA. 128 pp.
- STEINHOFF, R. (1974): Juvenile mature correlations in ponderosa and western white pine. Proceedings, IUFRO Joint Meeting of Working Parties on Population and Ecological Genetics, Breeding Theory and Progeny Testing, Stockholm. 243-250 pp.
- WEIR, R. J. (1973): Realizing genetic gains through second generation seed orchards. Proc. Twelfth Southern Forest Tree Improvement Conf., Baton Rouge, Louisiana, 1973, 14-23 pp.
- ZOBEL, B. J. (1974): Increasing productivity of forest lands through better trees. S. J. Hall Lectureship, University of California, Berkeley, California, 43 pp.
- ZOBEL, B. J., R. KELLISON and M. MATHIAS (1969): Genetic improvement of forest trees growth rate and wood characteristics in young loblolly pine. Proc. Tenth Southern Conf. On Forest Tree Improvement, Houston, Texas pp. 59-75.
- ZOBEL, B. J. and J. TALBERT (1984): Applied Tree Improvement. John Wiley and Sons, N. York, USA, 505 pp.