[BINGHAM, E. T.: Possibilities for improvement of western white pine by inbreeding. USDA For. Ser. Res. Pap. INT-44, 18 p. 197310.5962/bhl.title.69044]Search in Google Scholar
[DUREL, C. E., BERTIN, P., and KREMER, A.: Relationship between inbreeding depression and inbreeding coefficient in maritime pine (Pinus pinaster). Theor. Appl. Genet. 92: 347-356 (1996)10.1007/BF0022367824166256]Open DOISearch in Google Scholar
[GRIFFIN, A. R. and LINDGREN, D.: Effect of inbreeding on production of filled seed in Pinus radiata - experimental results and a model of gene action. Theor. Appl. Genet. 71: 334-343 (1985)10.1007/BF0025207724247404]Search in Google Scholar
[MATHESON, A. C., WU, H. X., SPENCER, D. J., RAYMOND, C. A. and GRIFFIN, A. R.: Inbreeding in Pinus radiata: III. The effect of inbreeding on age-age correlation and early selection efficiency. Silvae Genet. 51: 115-122 (2002)]Search in Google Scholar
[MORAN, G. F. and BELL, J. C.: The origin and genetic diversity of Pinus radiata in Australia. Theor. Appl. Genet. 73: 616-622 (1987)10.1007/BF0028920324241122]Search in Google Scholar
[MORAN, G. F., BELL, J. C. and ELDRIDGE, K. G.: The genetic structure and the conservation of five natural populations of Pinus radiata. Can. J. For. Res. 18: 506-514 (1988) 10.1139/x88-074]Search in Google Scholar
[ORREWING, A. L.: Inbreeding and single crossing in Douglas-fir. For. Sci. 11: 279-290 (1965)]Search in Google Scholar
[ORR-EWING, A. L.: Inbreeding Douglas-fir to the S3 generation. Silvae Genet. 25: 179-183 (1976)]Search in Google Scholar
[PAWSEY, C. K.: Inbreeding radiata pine. Dept Nat. Dev. For. and Timb. Bur. Leaflet No 87, Forest Research Institute, Canberra 31 pp. (1964)]Search in Google Scholar
[RUDOLPH, T. D.: Cone set, seed yield. Seed quality, and early seedling development of S2 generation jack pine. Proceedings of the Tenth Central States Forest Tree Improvement Conference, Purdue University. West Lafayette. Pp 42-60 (1976)]Search in Google Scholar
[SAS Institute Inc.: SAS/STAT User’s Guide, Version 6, 4th Edition, Volume 1&2, Cary, North Carolina (1989)]Search in Google Scholar
[SNIEZKO, R. A.: Inbreeding and outcrossing in loblolly pine. Unpublished Ph.D. Thesis. North Carolina State Univ., Raleigh, North Carolina. 50 p. (1984).]Search in Google Scholar
[WILCOX, M. D.: Inbreeding depression and genetic variances estimated from self-and cross-pollinated families of Pinus radiata. Silvae Genet. 32: 89-96 (1983)]Search in Google Scholar
[WILLIAMS, C. G. and SALVOLAINEN, O.: Inbreeding depression in conifers: implications for breeding strategy. For. Sci. 42: 102-117 (1996)]Search in Google Scholar
[WU, H. X., MATHESON, A. C. and SPENCER, D.: Inbreeding in Pinus radiata I. The effect of inbreeding on growth, survival and variance. Theor. and Appl. Genet. 97: 1256-1268 (1998a). -10.1007/s001220051018]Open DOISearch in Google Scholar
[WU, H. X., MATHESON, A. C. and SPENCER, D.: Inbreeding in Pinus radiata II. Time trend of inbreeding depression with tree age and effects on growth curve. N. Z. J. For. Sci. 28: 123-139 (1998b)]Search in Google Scholar
[WU, H. X., MATHESON, A. C. and ABARQUEZ, A.: Inbreeding in Pinus radiata IV. The effect of inbreeding on wood density. Ann. For. Sci. 59: 557-562 (2002).10.1051/forest:2002041]Search in Google Scholar