Progeny Testing Preceded by Phenotypic Pre-selection – Timing Considerations
By:
References
- ADAMS, W. T. and JOYCE, D. G.: Comparison of selection methods for improving volume growth in young coastal Douglas-fir. Silvae Genet. 39: 219-226 (1990)
- ALMQVIST, C. and EKBERG, I.: Interstock and GA4/7 effects on flowering after topgrafting in Pinus sylvestris. For. Genet. 8: 279--284 (2001)
- BARNES, R. D., MULLIN, L. J. and BATTLE, G.: Genetic control of 50-th year traits in Pinus patula Schiede and Deppe. Silvae Genet. 41: 242-248 (1992)
- Borralho, N. M. G., COTTERILL, P. P. and KANOWSKI, P. J.: Genetic control of growth in Eucalyptus globules in Portugal. II. Efficiencies of early selection. Silvae Genet. 41: 70-77 (1992)
- BRAMLETT, D. L., WILLIAMS, C. G. and BURRIS, L. C.: Surrogate pollen induction shortens the breeding cycle in loblolly pine. Tree Phys. 15 (7-8): 531-535 (1995)
- BURDON, R. D.: Early selection in tree breeding: Principles for applying index selection and inferring input parameters. Can J. For. Res. 19: 499-504 (1989)
- BURROWS, P.: Variance of selection differentials in normal samples. Biometrics 31: 125-133 (1975) 10.2307/2529714
- COTTERILL, P. P. and JACKSON, N.: Gains expected from clonal orchards under alternative breeding strategies. For. Sci. 35: 183-196 (1989)
- DANELL, Ö.: Breeding programmes in Sweden. In: Proc. Meeting of Nordic group of tree breeding, “Progeny testing and breeding strategies” (Ed. S. J. LEE). Oct. 1993, Edinburgh, Forestry Commission, 128 (i-v), (1993)
- DANUSEVIC˘IUS, D. and LINDGREN, D.: Comparison of phenotypic, clonal and progeny supported selection in long-term tree breeding. Silvae Genet. 51: 19-26 (2002a). -
- DANUSEVIC˘IUS, D. and LINDGREN, D.:. Two stage selection in long-term tree breeding. For. Genet. 9: 147-159 (2002b)
- FRANKLIN, E.: Modeling related levels of genetic variance to stand development of four North America conifers. Silvae Genet. 28: 207-212 (1979)
- GWAZE, D. P., WOOLLIAMS, J. A. and KANOWSKI, P. J.: Optimum selection age for height in Pinus taeda L. in Zimbabwe. Silvae Genet. 46: 358-365 (1997)
- GWAZE, D. P., BRIDGWATER, F. E., BYRAM, T. D., WOOLLIAMS, J. A. and WILLIAMS, C. G.: Predicting age-age genetic correlations in treebreeding programs: a case study of Pinus taeda L. Theor. Appl. Genet. 100: 199-206 (2000)10.1007/s001220050027
- HAGGMAN, H. M., ARONEN, T. S. and STOMP, A. M.: Early-flowering Scots pines through tissue culture for accelerating tree breeding. Theor. Appl. Genet. 93: 840-848 (1996)10.1007/BF00224084
- JOHNSON, G. R., SNIEZKO, R. N. and MANDEL, N. L.: Age trends in Douglas-fir genetic parameters and implications for optimum selection age. Silvae Genet. 46: 349-358 (1997)
- KING, J. N. and BURDON, R. D.: Time trends in inheritance and projected efficiencies of early selection in a large 17- year old progeny test of Pinus radiata. Can J. For. Res. 21: 1200-1207 (1991)
- LAMBETH, C. C.: Juvenile-mature correlation in Pinaceae and implications for early selection. For. Sci. 26: 571-580 (1980)
- LAMBETH, C. and DILL, L. A.: Prediction models for juvenile mature correlations for loblolly pine growth traits within, between and across test sites. For. Genet. 8: 101-108 (2001)
- LAMBETH, C. C., VAN BUITENEN, J. P., MCCULLOUGH, R. B and DUKE, S. D.: Early selection is effective in 20 year-old genetic tests of loblolly pine. Silvae Genet. 32: 210-215 (1983).
- LINDGREN, D. and WERNER, M.: Gain generating efficiency of different Norway spruce seed orchard designs. In: Proc. IUFRO WP S2.02-11
- Meeting Norway spruce; Provenances, Breeding and Genetic Conservation (Eds. L.-G. STENER and M. WERNER), Uppsala, Sweden. pp. 189-207 (1989)
- LINDGREN, D. and MULLIN, T. J.: Balancing gain and relatedness in selection. Silvae Genet. 46: 124-129 (1997)
- LINDGREN, D., GEA, L. D. and JEFFERSON, P. A.: Status number for measuring genetic diversity. For. Genet. 4: 69-76 (1997)
- MAGNUSSEN, S.: Growth differentiation in white spruce crop tree progenies. Silvae Genet. 28: 207-212 (1993)
- MCKEAND, S. E.: Optimum age for family selection for growth in genetic tests of loblolly pine. For. Sci. 34: 400-411 (1988).
- NAMKOONG, G.: Optimum allocation of selection intensity in two stages of truncation selection. Biometrics 26: 465-476 (1970)10.2307/2529102
- RIEMENSCHNEIDER, D. E.: Heritability, age-age correlations, and inferences regarding juvenile selection in Jack pine. For. Sci. 34: 1076-1082 (1988)
- ROSVALL, O.: Enhancing gain from long-term forest tree breeding while conserving genetic diversity. Dissertation, Swedish University of Agricultural Sciences, Umeå, Sweden, Sylvestria 109, (1999). -
- ROSVALL, O., LINDGREN, D. and MULLIN, T. J.: Sustainability robustness and efficiency of a multi-generation breeding strategy based on withinfamily clonal selection. Silvae Genet. 47: 307-321 (1999)
- ROUSSET, F.: Inbreeding and relatedness coefficients: what do they measure? Heredity 88: 371-380 (2002)10.1038/sj.hdy.6800065
- WEI, R.-P. and LINDGREN, D.: Optimum breeding generation interval considering build-up of relatedness. Can. J. For. Res. 31: 722-729 (2001)
- WU, H. X.: Study of early selection in tree breeding - 1. Advantage of early selection through increase of selection intensity and reduction of field test size. Silvae Genet. 47: 146-155 (1998)
- XIE, C.-Y. and YANCHUK, D.: Genetic parameters of height and diameter of interior spruce in British Columbia. For. Genet. 9: 1-10 (2002).
Language: English
Page range: 20 - 26
Submitted on: Sep 15, 2003
Published on: Oct 27, 2017
Published by: Johann Heinrich von Thünen Institute
In partnership with: Paradigm Publishing Services
Publication frequency: 1 times per year
Keywords:
Related subjects:
© 2017 Darius Danusevičius, D. Lindgren, published by Johann Heinrich von Thünen Institute
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.