Diallel Crossing in Pinus cembra: V. Age Trends in Genetic Parameters and Genetic Gain for Height

ANDERSON, R. L. and T. A. BANCROFT (1952): Statistical theory in research. McGraw-Hill Book Co., New-York, 399 p.Search in Google Scholar

BALLOCHI, C. E., F. E. BRIDGWATER, B. J. ZOBEL and S. JAHROMI (1993): Age trends in genetic parameters for tree height in nonselected populations of loblolly pine. For. Sci. 39: 231-251.Search in Google Scholar

BECKER, W. A. (1984): Manual of procedures in quantitative genetics. Fourth Edition. Acad. Enterp. Pullman, Washington, 190 p.Search in Google Scholar

BELDIE, A. (1941): Observat¸ii asupra vegetat¸iei lemnoase din Munt¸ii Bucegi. Analele ICEF, Seria 1, Vol. 6: 39-43.Search in Google Scholar

BINGHAM, R. T. (1972): Taxonomy, crossability and relative blister rust resistance of 5 needle pines, p. 271-280. In: BINGHAM, R. T., R. J. HOFF and G. I. MCDONALD (Eds.), Biology of rust resistance in forest trees. USDA For. Serv., Misc. Publ. 1921.Search in Google Scholar

BLADA, I. (1994): Interspecific hybridization of Swiss Stone Pine (Pinus cembra L.). Silvae Genetica 43 (1): 14-20.Search in Google Scholar

BLADA, I. (1995): Diallel cross in Pinus cembra. I: Results of the three years old nursery test. In: IUFRO Congress, Tampere, Finland, 6 to 12 August, Poster abstracts p. 66.Search in Google Scholar

BLADA, I. (1996): Breeding of Pinus cembra and its nursery and planting operations. Annual Rep. No. 26, For. Res. Inst., Bucharest, 5 p.Search in Google Scholar

BLADA, I. (1997): Stone pine (Pinus cembra L.) provenance experiment in Romania: I. Nursery stage at age 6, Silvae Genetica 46 (4): 197-200.Search in Google Scholar

BLADA, I. (1999): Diallel crossing in Pinus cembra. III: Analysis of genetic variation the nursery stage. Silvae Genetica 48 (3-4): 179-187.Search in Google Scholar

BLADA, I. (2003): Genetic variation in stone pine half-sib progenies, pp. 85-95. In: MCKINLEY, C. R. (Ed.). Proc. 27th Southern Forest Tree Improv. Conf., Stillwater, Oklahoma USA, June 24-27, 221 p.Search in Google Scholar

BLADA, I. (2007): Swiss stone pine provenance experiment in Romania: II. variation in growth and branching traits at age 14. Silvae Genetica 56 (3-4): 148-158.Search in Google Scholar

BLADA, I. and F. POPESCU (2008): Diallel Crossing in Pinus cembra. IV. Age Trends in Genetic Parameters and Genetic Gain for Growth and Branching Traits, pp. 89-113. Annals of Forest Research, Vol. 51, 180 p.Search in Google Scholar

BRECHE, Y. and L. CHAVAUTIER (1975): Une vieille vallée raconte ses souvenirs. Petite histoire de la Tarantaise. Collection „Trsors de la Savoie“. Ed. Xavier Mappus, 83 p.Search in Google Scholar

CARSON, M. J. (1986): Control-pollinated seed orchards of the best general combiners - a new strategy for radiate pine improvement, pp. 144-149. In: WILLIAMS, T. S. and G. S. WRATT (Eds.). Proc. Plant Breeding Symposium DSIR 1986. Agron. Soc. of New Zealand pecial Publ. No. 5. Search in Google Scholar

CONTINI, L. and Y. LAVARELLO (1982): Le pin cembro. INRA, Paris, 197 p.Search in Google Scholar

COSTA, P. and C. E. DUREL (1996): Time trend in genetic control over height and diameter in maritime pine. Can. J. For. Res. 26: 1209-1217.Search in Google Scholar

COTTERILL, P. P., C. A. DEAN and G. VAN WYK (1987): Additive and dominance genetic effects in Pinus pinaster, P. radiata and P. elliottii and some implications for breeding strategy. Silvae Genetica 36 (5-6): 221-232.Search in Google Scholar

COTTERILL, P. P. and C. A. DEAN (1988): Changes in the genetic control over height and diameter in maritime pine. Can. J. For. Res. 26: 1209-1217.Search in Google Scholar

CRITCHFIELD, W. B. and E. L. LITTLE JR. (1966): Geographic distribution of the pines of the world. U.S.D.A. For. Serv. Misc. Publ. No. 991.10.5962/bhl.title.66393Search in Google Scholar

DANJON, F. (1994): Heritability and genetic correlations for estimated growth curve parameters in maritime pine. Theor. Appl. Genet. 89: 911-921.Search in Google Scholar

DIETERS, M. J. (1995): Genetic parameters for slash pine in south-east Queensland, Australia: growth, stem straightness and crown defects. Forest Genetics 3 (1): 27-36.Search in Google Scholar

DIETERS, M. J., T. L. WHITE and G. R. HODGE (1995): Genetic parameter estimates for volume from full-sib tests of slash pine. Can. J. For. Res. 25: 1397-1408.Search in Google Scholar

EL-KASSABY, Y. A. and Y. S. PARK (1993): Genetic variation and correlation in growth, biomass and phenology of Douglas-fir diallel progeny at different spacing. Silvae Genetica 42 (6): 289-297.Search in Google Scholar

FALCONER, D. S. (1981): Introduction to quantitative genet - ics. Fourth edition, Longman and Co., New York, 340 p. Search in Google Scholar

FALCONER, D. S. (1989): Introduction to quantitative genetics. 3rd edition, Longman Scientific and Technical, Logman Group, Hong Kong.Search in Google Scholar

FEKETE, L. es T. BLATTNY (1913): Az erdeszeti jelentosegu, fak es cserjek elterjedese: A magyar allam teruleten. Selmecbanya.Search in Google Scholar

FOSTER, G. S. (1986): Trends in genetic parameters with stand development and their influence on early selection for volume growth in loblolly pine. Forest Science 32: 944-959.Search in Google Scholar

FOSTER, G. S. and F. E. BRIDGWATER (1986): Genetic analysis of fifth-year data from a seventeen parent partial diallel loblolly pine. Silvae Genetica 35 (2-3): 118-122.Search in Google Scholar

GEORGESCU, C. C. s¸i C. D. IONESCU-BARLAD (1932): Asupra stat¸iunilor de Pinus cembra din Carpat¸ii Romaniei. Rev. Pad. 8-9: 531-543.Search in Google Scholar

GRIFFING, B. (1956): Concept of general and specific combining ability in relation to diallel crossing systems. Australian J. Science 9: 463-493.Search in Google Scholar

GWAZE, D. P., F. E. BRIDGWATER, T. D. BYRAM and W. J. LOWE (2001): Genetic parameter estimates for growth and wood density in loblolly pine. Forest Genetics 8 (1): 47-55.Search in Google Scholar

GWAZE, D. P. and F. E. BRIDGEWATER (2002): Determining the optimum selection age for diameter and height in loblolly pine. Forest Genetics 9: 159-165.Search in Google Scholar

HAAPANEN, M. (2001): Time trends in the genetic parameter estimates and selection efficiency for Scots pine in relation to field testing method. Forest Genetics 8: 129-144. Search in Google Scholar

HALLAUER, A. R. and J. B. MIRANDA (1981): Quantitative genetics in maize breeding. Iowa State University Press/Ames, 468 p.Search in Google Scholar

HODGE, G., T. WHITE and G. POWELL (1991): Thirtythird progress report. Cooperative Forest Genetics Research Program, Dpt. of Forestry, Univ. of Forida, Gainesville.Search in Google Scholar

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 strategy. Silvae Genetica 41: 252-262.Search in Google Scholar

HOFF, R. J., R. T. BINGHAM and G. I. MCDONALD (1980): Relative blister rust resistance of white pines. Eur. Jour. Forest. Path. 10 (5): 307-316.10.1111/j.1439-0329.1980.tb00042.xSearch in Google Scholar

HOLTMEIER, F.-K. (1994): Introduction to the pper Engadine and its forests, pp. 9-17. In: SCHMIDT, W. C. and F.-K. HOLTMEIER (Eds.). Proc. Int. Workshop on Subalpine Stone Pines and their Environment: the Status of our Knowledge. USDA For. Serv., Int. Res. Station, Tech. Rep. INT-GTR-309, 321 p.Search in Google Scholar

HOLZER, K. (1969): Erste Ergebnisse der Auswahl von Zirbeneinzelbaumen (Pinus cembra L.). Centralblatt fur das Gesamte Forstwesen 86: 149-160.Search in Google Scholar

HOLZER, K. (1975): Genetics of Pinus cembra L. Annales Forestales, 6/5, Zagreb, 158 p.Search in Google Scholar

JANNSON, G., B. LI and B. HANNRUP (2003): Time trend in genetic parameter for height and optimal age for parental selection in Scotch pine. Forest Sci. 45: 696-705.Search in Google Scholar

JANSSON, G., B. LI and HANNRUP (2003b): Time trends in genetic parameters for height and optimum age for parental selection in Scots pine. Forest Sci. 49: 696-705.Search in Google Scholar

JANSSON, G. and B. LI (2004): Genetic gain of full-sib families from disconnected diallels in loblolly pine. Silvae Genetica 53 (2): 60-64.10.1515/sg-2004-0011Search in Google Scholar

JOHNSON, G. R., R. A. SNIEZKO and N. L. MANDEL (1997): Age trends in Douglas-fir genetic parameters and implications for optimum selection age. Silvae Genetica 46: 349-358.Search in Google Scholar

KING, J. N., M. J. CARSON and G. R. JOHNSON (1998): Analysis of disconnected diallel mating designs. II: results from a third generation progeny test of the New Zealand Radiata pine improvement programme. Silvae Genetica 47 (2-3): pp. 80-87.Search in Google Scholar

KRIEBEL, H. B. (1983): Breeding eastern white pine: a world-wide perspective. Forest Ecology and Management, 6: 263-279.10.1016/S0378-1127(83)80006-1Search in Google Scholar

KRIEBEL, H. B., G. NAMKOONG and R. A. USANIS (1972): Analysis of genetic variation in 1-, 2-, and 3-year old eastern white pine in incomplete diallel cross experiments. Silvae Genetica 21 (1-2): 44-47.Search in Google Scholar

KUMAR, S. and J. LEE (2002): Age-age correlations and early selection for end-of-rotation wood density in Radiata pine. Forest Genetics 9 (4): 323-330.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. Silvae Genetica 47 (2-3): 136-141.Search in Google Scholar

LAMBETH, C. C. (1980): Juvenile mature correlations in Pinaceae and implications for early selection. Forest Sci. 36 (4): 571-580.Search in Google Scholar

LAMBETH, C. C., J. P. VAN BUIJTENEN, S. D. DUKE and R. B. MCCULLOUGH (1983): Early selection is effective in 20-year-old-tests of loblolly pine. Silvae Genetica 32: 210-215.Search in Google Scholar

LI, B., S. E. MCKEAND and R. J. WEIR (1996): Genetic parameters estimates and selection efficiency for the loblolly pine breeding in the south-eastern US. In: DIETERS, M. J. (Ed.), Tree improvement for sustainable forestry. QFRI-IUFRO Conf. Coloundra, Queensland, Australia.Search in Google Scholar

LI, B., S. E. MCKEAND and R. J. WEIR (1999): Tree improvement and sustainable impact of two cycles of loblolly pine breeding in the U. S. Forest Genetics 6 (4): 229-234.Search in Google Scholar

LOWE, W. J. and J. P. VAN BUIJTENEN (1989): The incorporationof early testing procedure into an operational tree improvement program. Silvae Genetica 38 (5-6): 243-250.Search in Google Scholar

MAGNUSSEN, S. and C. W. YEATMAN (1989): Predictions of genetic gains from various selection methods in open pollinated Pinus banksiana progeny sites. Silvae Genetica 39: 140-153. Search in Google Scholar

MCKEAND, S. E. and F. E. BRIDGWATER (1986): When to establish advanced generation seed orchards. Silvae Genetica 35: 245-247.Search in Google Scholar

MCKEAND, S. E. (1988): Optimum age for family selection for growth in genetics tests of Loblolly pine. Forest Science 34: 400-411.Search in Google Scholar

MULIN, T. J., E. G. MORGENSTERN, Y. S. PARK and D. P. FOWLER (1992): Genetic parameters from clonally replicated tests. Canad. J. For. Res. 22, 1: 24-36.Search in Google Scholar

PAWARAYI, I. Z. (1993): Genetic parameters and selection indices for a population of Pinus elliottii Engelm. var elliottii. Ph.D. thesis, Linacre College, Oxford Uni versity.Search in Google Scholar

RIEMENSCHNEIDER, D. E. (1988): Heritability, age-age correlations, and inference regarding juvenile selection in jack pine. Forest Science 34: 1076-1082.Search in Google Scholar

RIKLI, M. (1909): Die Arve in der Schweiz. Denkschrift d. Schweizer naturf.Gesellschaft 44, 455p. Search in Google Scholar

SAMUEL, C. J. A. (1991): The estimation of genetic parameters for growth and stem-form over 15 years in a diallel cross of Sitka spruce. Silvae Genetica 40 (2): 67-72.Search in Google Scholar

SCHAFFER, H. E. and R. A. USANIS (1969): General least squares analysis of diallel experiments: a computer program- DIALL. Genetics Dept. Res. Report 1, North Carolina State University, 61 p.Search in Google Scholar

SNYDER, E. B. and G. NAMKOONG (1978): Inheritance in a diallel crossing experiment with longleaf pine. U.S. For. Serv., South For. Exp. Stn., Res. Pap. SO-140.Search in Google Scholar

TAUER, C. G. and R. W. MCNEW (1985): Inheritance and correlation of growth of Shortleaf pine in two environments. Silvae Genetica 34, 1: 5-11.Search in Google Scholar

VASQUEZ, J. and W. S. DVORAK (1996): Trend in variance and heritabilities with stand development of tropical pines. Can. J. For. Res. 26: 1473-1480.Search in Google Scholar

WHITE, T. L., G. R. HODGE and G. L. POWELL (1993): An advanced-tree improvement plan for slash pine in the southeastern United States. Silvae Genetica, 42: 359-371.Search in Google Scholar

WILCOX, M. D. (1976): Applications of the diallel cross in the breeding of radiata pine. New Zealand For. Serv., For. Res. Inst., Genetics and Tree Improvement Report No. 74, 66 p.Search in Google Scholar

WRIGHT, J. W. (1959): Species hybridization in the white pines. Forest Science, Vol. 5, 3: 210-222.Search in Google Scholar

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

XIANG, B., B. LI and S. MCKEAND (2003b): Genetic gain and selection efficiency of loblolly in three geographic regions. Forest. Science 49: 196-208.Search in Google Scholar

XIE, C.-Y. and C. C. YING (1996): Heritability, age-age correlation and early selection in lodgepole pine. Silvae Genetica 45: 101-107.Search in Google Scholar

YING, C. C., C. THOMPSON and L. HERRING (1989): Geographic variation, nursery effects and early selection in lodgepole pine. Can. J. For Res. 19: 832-841.Search in Google Scholar

ZOBEL, B. and J. TALBERT (1984): Applied forest tree improvement. John Wiley and Sons, New-York, 505 p.Search in Google Scholar