Forestry and Forest Products Research

Forestry and Forest Products Research Institute, Ministry of Agriculture, Forestry, and Fisheries, P.O. Box 16, Tsukuba Norin, Ibaraki 305, Japan... 

Department of Chemical Engineering, 42 Division of Processing and Chemical Manufacturing Technology, CSIR, 346 Eastman Kodak Company, 33,109,324 Ecole Fran aise de Papeterie, 134 Forest Products Utilization Laboratoiy, 324 Forestry and Forest Products Research Institute, 4%... 

Forestry and Forest Products Research Institute Ibaraki, Japan... 

Department cj) Biomolecular Science, Toho University, Funabashi 274> Japan, and Forestry and Forest Product Research Institute, Ibaragi 305, Japan... 

Fukuhara, N. (1989) Fertility in interspecific-crossing between hinoki Chamaecyparis obtusa Endl.) and Sawara (C. pisifera Endl.) and identification of the hybrids. Bulletin of the Forestry and Forest Products Research Institute, 354 1-38. 

Federal Research Center for Forestry and Forest Products, Institute for Wood Chemistry and Chemical Technology of Wood,... 

Federal Research Centre for Forestry and Forest Products,... 

Analytical methods of atomic spectroscopy have been used in forestry and wood product research since their earliest development. Nowadays, almost all of the spectroscopic techniques available are employed in the analysis of metals and trace elements in diverse samples of industrial and environmental origin. The techniques that find most regular application include flame atomic absorption spectroscopy (F-AAS), graphite furnace atomic absorption spectroscopy (GF-AAS), inductively coupled plasma atomic emission spectroscopy (ICP-AES) and, occasionally, also direct current plasma atomic emission spectroscopy (DCP-AES). In many applications F-AAS is a sufficiently sensitive and precise technique however, in the analysis of some environmental samples for trace elements (forest soils, plant material and water) where concentrations may be very low (of the order of 100 ng mL" ) the greater sensitivity of GF-AAS and ICP/DCP-AES is required. In considering the applications of atomic spectroscopy to forestry and... 

F-AAS is probably the most widely used analytical method in forestry and wood product research for two reasons. Firstly, it is a long established technique, machines are relatively cheap and widely available and many of the analyses routinely performed by this method have now been optimized. Secondly, the concentrations of many nutrient elements that are important for forest growth, which are present in soil and water (e.g. Ga, Mg, Al, Fe, K, Si) and in wood treated with metal-containing preservatives (Cu, Cr, As, Zn), are well within the limits of detection (100 ppm) of the technique. Environmental samples of this kind are also usually available in large quantities. F-AAS offers a precise, rapid... 

Feihl O and Godin V (1967) Setting veneer lathes with aid of instruments. Canadian Department for Rural Development, Forestry Branch, Publication No. 1206 Feist WC (1984) The role of water repellents and chemicals in controlling mildew on wood exposed outdoors USDA, Forest Service, Forest Products Laboratory, Research Note FPL 0247... 

Huang L-H, Qin T-F, and Ohira Tatsuro (2004) Studies on preparations and analysis of essential oil from Chinese fir. Journal of Forestry Research, 75(1) 80-2 Hudson MS and Henrrksson ST (1956) The oscillation pressure method of wood impregnation. Forest Products Journal, 6(10) 381-6 Hughes C (1982) The natural durability of untreated timbers. What s New in Forest Research No. 112. New Zealand Ministry of Forestry, Forest Research Institute, Rotorua Humphrey PE and Bolton AJ (1989) The hot pressing of dry-formed wood-hased composites. Part 2 A simulation model for heat and moisture transfer, and typical results. Holzforschung, 43 T) 199-206... 

Stanley A. Clarke Medal (1986). Honorary Member (1986), Executive Board Member (1977-1983), International Union of Forestry Research Organizations. President (1978-1982), Fellow (1970), International Academy of Wood Science. Honorary Advisor, Research Institute of Chemical Processing and Utilization of Forest Products, Chinese Academy of Forestry, Nanjing, P.R. China. 

Zhaobang, S. Production and Standards for Chemical Non-Wood Forest Products in China Center for International Forestry Research, October 1995. http//cgiar.org/cifor. 

Tomita, B., Yoshida, Y. and Hse, C.-Y, In Adhesive Technology and Bonded Tropical Wood Products, Proceedings, USDA Forest Service and Taiwan Forestry Research Institute, Taipei, 1993, pp. 71-83. 

Charcoal Production for Forest Stand Improvement and Domestic Space Heating in Maine" Cooperative Forestry Research Unit, University of Maine, Orono, Research Bulletin 1, March 1979 52 pp. 

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