1. bookVolume 59 (2010): Edition 1-6 (December 2010)
Détails du magazine
License
Format
Magazine
eISSN
2509-8934
Première parution
22 Feb 2016
Périodicité
1 fois par an
Langues
Anglais
Accès libre

Realized Genetic Gains in Coastal Douglas-fir in British Columbia: Implications for Growth and Yield Projections

Publié en ligne: 20 Oct 2017
Volume & Edition: Volume 59 (2010) - Edition 1-6 (December 2010)
Pages: 223 - 233
Reçu: 10 Nov 2010
Détails du magazine
License
Format
Magazine
eISSN
2509-8934
Première parution
22 Feb 2016
Périodicité
1 fois par an
Langues
Anglais

ADAMS, J. P., T. G. MATNEY, S. B. LAND, K. L. BELLI and H.W. DURZAN JR. (2006): Incorporating genetic parametes into a loblolly pine growht-and-yield model. Can. J. For. Res. 36, 1959-1967.Search in Google Scholar

BRUCE, D. (1981): Consistent height-growth and growthrate estimates for remeasured plots. For. Sci. 27, 711-725. Search in Google Scholar

BUFORD, M. A. and H. E. BURKHART (1987): Genetic improvement effects on growth and yield of loblolly pine plantations. For. Sci. 33 (3), 707-724.Search in Google Scholar

CARSON, S. K., M. O. KIMBERLY, J. D. HAYES and M. J. CARSON (1999a): The effect of silviculture on genetic gain in growth of Pinus radiata at one-third rotation. Can. J. For. Res. 29, 1979-1984.10.1139/x99-152Search in Google Scholar

CARSON, S., O. GARCIA and J. HAYES (1999b): Realized gain and prediction of yield with genetically improved Pinus radiata in New Zealand. For. Sci. 45(2), 186-200.Search in Google Scholar

DHAKAL, L. P., T. L. WHITE and G. HODGE (1996): Realized genetic gain from slash pine tree improvement. Silvae Genet. 45, 190-197.Search in Google Scholar

GOULD, P., R. JOHNSON, D. MARSHALL and G. JOHNSON (2008): Estiamtion of genetic-gain multipliers fior modeling Douglas-fir height and diameter growth. For. Sci. 54(6), 599-596.Search in Google Scholar

HAMILTON, D. A. and G. E. REHFELDT (1994): Using individual tree grwoth projection models to estimate standlevel gains attributable to genetically improved stock. For. Ecol. Mgtmt. 68, 189-207.Search in Google Scholar

LAMBETH, C. C. (1980): Juvenile-mature correlations in Pinaceae and implications for early selection. For. Sci. 26, 571-580.Search in Google Scholar

LAMBETH, C. (2000): Realized genetic gains for first generation improved loblolly pine in 45 tests in coastal North Carolina. South. J. Appl. For. 24(3), 140-144.10.1093/sjaf/24.3.140Search in Google Scholar

MAGNUSSEN, S. (1993): Bias in genetic variance estimates due to spatial autocorrelation. Theor. Appl. Genet. 86, 349-355.Search in Google Scholar

MAGNUSSEN, S. (1989): Effects and adjustments of competition bias in progeny trials with single-tree plots. For. Sci., 532-547.Search in Google Scholar

MITCHELL, K. J., M. STONE, S. E. GROUT, C. M. DI LUCCA, G. D. NIGH and J. W. GOUDIE et al. (2004): TIPSY. http://www.for.gov.bc.ca/hr.Search in Google Scholar

MRODE, R. A. (2005): Linear models for the prediction of animal breeding values (2nd ed.). Wallingford, Oxfordshire, UK: CABI Publsihing.10.1079/9780851990002.0000Search in Google Scholar

OMULE, S. A., V. E. FLETCHER and K. POLSSON (1987): Total and merchantable volume equations for small coastal Douglas-fir. Victoria, BC: Canda-BC FRDA.Search in Google Scholar

ORR-EWING, A. L. (1969): The development of a program for the genetic improvement of Douglas-fir in British Columbia. For. Chron., 395-399.10.5558/tfc45395-6Search in Google Scholar

REHFELDT, G. E., W. R. WYKOFF, R. J. HOFF and R. J. STEINHOFF (1991): Genetic gains in growth and simulated yield of Pinus monticola. 37 (1), 326-342.Search in Google Scholar

SAS INSTITUTE INC. (2004): SAS OnlineDoc® 9.1.3. Cary, NC. SAS Institute Inc. Search in Google Scholar

ST. CLAIR, J. B., N. L. MANDEL and K. J. JAYAWICKRAMA (2004): Early realized genetic gains for coastal Douglasfir in the northern Oregon Cascades. West. J. Appl. For. 19(3), 195-201.10.1093/wjaf/19.3.195Search in Google Scholar

STAUDHAMMER, C. L., E. J. JOKELA and T. A. MARTIN (2009): Competition dynamics in pure-versus mixed family stands of loblolly and slash pine in the southeastern United States. Can. J. For. Res. 39, 396-409.Search in Google Scholar

STOEHR, M., A. YANCHUK, X.-Y. XIE and L. SANCHEZ (2008): Gain and diversity in advanced generation coastal Douglas- fir selections for seed production populations. Tree Gen. Genet. 4, 193-200.10.1007/s11295-007-0100-6Ouvrir le DOISearch in Google Scholar

VERGARA, R., T. L. WHITE, D. HUBER and R. SCHMIDT (2007): Realized genetic gains of rust resistant selections of slash pine (Pinus elliottii var. elliottii) planted in high rust hazard sites. Silvae Genet. 56(5), 231-242.Search in Google Scholar

WENG, Y. H., K. TOSH, G. ADAM, M. S. FULLARTON, C. NORFOLK and Y. PARK (2008): Realized genetic gains observed in a first generation seedling seed orchard for jack pine in New Brunswick, Canada. New Forests 36, 285-298.10.1007/s11056-008-9100-0Ouvrir le DOISearch in Google Scholar

WHITE, T. L. and G. R. HODGE (1989): Predicting breeding values with applications in forest tree improvement. Kluwer Acad. Publ. Forest Sciences, Vol. 33. Dordrecht, The Netherlands.10.1007/978-94-015-7833-2Search in Google Scholar

WOODS, J. H. (1993): Breeding programs and strategies for Douglas-fir in North America. In: Breeding strategies of important tree species in Canada. Dept. of Natural Res. Canada Info. Rep. M-X-186E. 54p.Search in Google Scholar

XIE, C.-Y. and A. D. YANCHUK (2003): Breeding values of parental trees, genetic worth of seed orchard seedlots, and yields of improved stocks in British Columbia. West. J. Appl. For. 18(2), 88-100.10.1093/wjaf/18.2.88Search in Google Scholar

Articles recommandés par Trend MD

Planifiez votre conférence à distance avec Sciendo