Free Access
Issue
Ann. For. Sci.
Volume 62, Number 3, April-May 2005
Page(s) 219 - 228
DOI https://doi.org/10.1051/forest:2005013
References of Ann. For. Sci. 62 219-228
  1. Beauregard R.L., Gazo R., Ball R.D., Grade recovery, value, and return-to-log for the production of NZ visual grades (cuttings and framing) and Australian machine stress grades, Wood Fiber Sci. 34 (2002) 485-502.
  2. Belsley D.A., Kuh E., Welsch R.E., Regression Diagnostics, John Wiley and Sons, New York, NY, 1980.
  3. Briggs D.G., Tree value system: description and assumptions, General Technical Report Pacific Northwest Research Station, USDA Forest Service, No. PNW-GTR-239, 1989, 24 p.
  4. Draper N.R., Smith H., Applied regression analysis, 2nd ed., John Wiley and Sons, New York, 1981.
  5. Fahey T.D., Grading second-growth Douglas-fir by basic tree measurements, J. For. 4 (1980) 206-206.
  6. Forintek Canada Corp., Optitek: User's guide, Forintek Canada Corp., Sainte-Foy, Quebec, 1994, 185 p.
  7. Gujarati D.N., Basic econometrics, 3rd ed., McGraw-Hill, New York, 1995.
  8. Harless T.E.G., Wagner F.G., Steele P.H., Taylor F.W., Yadama V., McMillin C.W., Methodology for locating defects within hardwood logs and determining their impacts on lumber-value yield, For. Prod. J. 41 (1991) 25-30.
  9. Kellogg R.M., Warren W.G., Evaluating western hemlock stem characteristics in terms of lumber value, Wood Fiber Sci. 16 (1984) 583-597.
  10. Law K.N., Valade J.L., Status of the utilization of jack pine (Pinus banksiana) in the pulp and paper industry, Can. J. For. Res. 24 (1994) 2078-2084.
  11. Middleton G.R., Munro B.D., Log and lumber yields, in: Kellogg R.M. (Ed.), Second-growth Douglas-fir: its management and conversion value, Special Publication, No. SP-32, Forintek Canada Corp., Vancouver, BC, 1989.
  12. Myers R.H., Classical and modern regression with applications, PWS-KENT, Boston, Massachusetts, 1989.
  13. Oberg J.C., Impacts on lumber and panel products, Proceedings of Southern Plantation Wood Quality Workshop, June 6-7, 1989, Athens, Georgia.
  14. Pnevmaticos S.M., Flann I.B., Petro F.J., How log characteristics relate to sawing profit, Canadian Forest Service, Can. For. Industries No. 1, 1971, 4 p.
  15. Quebec Forest Industry Council. 2002 - the yearbook, Economics & Markets Department, Quebec Forest Industry Council, Quebec, Canada, 2003.
  16. Sharma M., Zhang S.Y., Variable exponent taper equation for jack pine, black spruce and balsam fir in eastern Canada, For. Ecol. Manage. 198 (2004) 39-53.
  17. Shi R., Steele P.H., Wagner F.G., Influence of log length and taper on estimation of hardwood BOF position, Wood Fiber Sci. 22 (1990) 142-148.
  18. Steele P.H., Factors determining lumber recovery in sawmilling, General Technical Report FPL-39, Forest Products Laboratory, Madison, Wisconsin, 1984.
  19. Wagner F.G., Taylor F.W., Lower lumber recovery at southern pine sawmills may be due to misshapen sawlogs, For. Prod. J. 43 (1993) 53-55.
  20. Yu C.H., Centered-score Regression/SAS tips, [on-line] Available URL: http://seamonkey.ed.asu.edu/~alex/computer/sas/s_regression.html, 1998.
  21. Zhang S.Y., Chauret G., Ren H.Q., Desjardins R., Impact of plantation black spruce initial spacing on lumber grade yield, bending properties and MSR yield, Wood Fiber Sci. 34 (2002) 460-475.
  22. Zhang S.Y., Chauret G., Swift E., Maximizing the value of jack pine through intensive forest management, CFS Rep. No. 3171, Forintek Canada Corp., Sainte-Foy, Quebec, 2001.
  23. Zhang S.Y., Corneau Y., Chauret G., Impact of precommercial thinning on tree and wood characteristics, product quality and value in balsam fir, Canadian Forest Service No. 39, Forintek Canada Corp., Sainte-Foy, Quebec, 1998, 77 p.
  24. Zhang S.Y., Lei Y.C., Modeling the relationship of product value of individual trees with tree characteristics in black spruce, Forest Sci. (submitted).
  25. Zheng Y., Wagner F.G., Steele P.H., Ji Z.D., Two-dimensional geometric theory for maximizing lumber yield from logs, Wood Fiber Sci. 21 (1989) 91-100.