Journal of Korean Society of Forest Science (한국산림과학회지)

Korean Society of Forest Science (한국산림과학회)
권호 표지

Growth Characteristics of 100 Open-pollinated Families in an Early-age Test of Agathis loranthifolia in West Java, Indonesia

  • Kang, Kyu-Suk (Division of Forest Policy, Korea Forest Service) ;
  • Cappa, Eduardo P. (Instituto Nacional de Tecnologia Agropecuaria (INTA), Instituto de Recursos Biologicos) ;
  • Hwang, Jae-Hong (Department of Forest Resources Development, Korea Forest Research Institute)
  • Received : 2010.01.05
  • Accepted : 2010.02.09
  • Published : 2010.04.30
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Abstract

Early results from a field trail of Agathis loranthifolia are reported from a progeny test of 100 open-pollinated families in west Java, Indonesia. The average of height and diameter at root collar (DRC) was 40.18 cm and 0.52 cm at age 15 months. Family survival rate ranged from 86.5% at age 10 months to 81.7% at age 15 months. Family means of 10 best and 10 poorest families for each trait indicated that there was a large difference of growth performances among individual families. For height and DRC growth, the poorest groups had averages of 33.98 cm and 0.43 mm while the averages of the best groups were 47.35 cm and 0.62 mm at age 15 months as a difference of 39.36% and 43.65%, respectively. Differences between the best group and the test population mean, which is the selection differential, were implying that genetic gain from selection for the improvement of height and DRC growth would be achieved. The family variances of DRC and height were relatively small compared to replicate and residual variances. Family heritabilities for both studied traits were fluctuated, and the genetic coefficients of variation for DRC and height at age of 15 months were 7.19% and 5.22%, respectively.

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References

  1. Becker, W.A. 1984. Manual of quantitative genetics. 4th edition. Academic enterprises, Washington. 188pp.
  2. Falconer, D.S. 1981. Introduction to quantitative genetics. 2nd edition. Longman Inc., New York. 340pp.
  3. Gilmour, A.R., Gogel, B.J., Cullis, B.R. and Thompson, R. 2006 ASReml User Guide Release 2.0 VSN International Ltd, Hemel Hempstead, HP1 1ES, UK
  4. Hardiyanto, E.B. and Naiem, M. 2001. Present status of conservation, utilization and management of forest genetic resources in Indonesia. p.17-28.
  5. Jansson, G. and Danell, O. 1993. Needs and benefits of empirical power transformations for production and quality traits in forest free breeding. Theoretical and Applied Genetics, 87: 487-497.
  6. Kartodihardjo, H. and Supriono, A. 2000. The Impact of sectoral development on natural forest conversion and degradation: The case of timber and tree crop plantations in Indonesia. CIFOR Occasional paper No. 26(E). 17pp.
  7. Lynch, M. and Walsh, B. 1998. Genetics and Analysis of Quantitative Traits. Sinauer Associates. Sunderland M.A. USA.
  8. Ministry of Forestry. 2000. Forestry and Estate Crops Statistics of Indonesia 1999/2000. Workshop on Illegal Logging. Jakarta, August 2000. 2pp.
  9. Nurhasybi and Sudrajat, D.J. 2002. Agathis loranthifolia R.A. Salisbury. Seed leaflet No. 59. Danida Forest Seed Centre. 2pp.
  10. Patterson, H.D. and Thompson, R. 1971. Recovery of inter-block information when block sizes are unequal. Biometrika, 58: 545-554. https://doi.org/10.1093/biomet/58.3.545
  11. Rumpin Seed Source and Nursery Center (RSSNC). 2007. Final report on experimental forest. 344pp.
  12. SAS Institute. 2002. SAS User's Guide: Statistics. Ver. 9.1. SAS Institute Inc., Cary, NC.
  13. White, T.L. and Hodge, G.R. 1989. Predicting breeding values with applications in forest tree improvement. Dordrecht, The Netherlands. Kluwer. 367pp.
  14. Zobel, B. and Talbert, J. 1984. Applied forest tree improvement. John Wiley and Sons. New York. p.117- 165.