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References
Alston, R E, and Turner, B L. 1963. Biochemical Systematics. 404 pp. Prentice-Hall, Inc., New Jersey.
Baker, R T, and Smith, H G. 1920. Research on the eucalypts especially in regard to their essential oils. Ed 2, Sydney Technol Mus NS Wales Tech Educ Ser No 13.
Bannister, M H, Williams, Allette L, McDonald, I R C, and Forde, Margot B. 1962. Variation of turpentine composition in five population samples of Pinus radiata. New Zealand Jour Sci, 5, 486–495.
Erdtman, H. 1958. Conifer Chemistry and Taxonomy of Conifers. IV. Internatl. Cong. Biochem., Vienna. II. Pergamon, New York.
Falconer, D S. 1960. Introduction to Quantitative Genetics. Ronald Press, New York.
Forde, Margot B. 1964. Inheritance of turpentine composition in Pinus attenuata X radiata hybrids. New Zeal Jour Bot, 2(1), 53–59.
Haagen-Smit, A J, and Nimmo, C C. 1963. Chemistry of isoprenoid compounds, pp. 115–168. In Florkin, Marcel and Stots, Elmer H. (eds.), Comprehensive Biochemistry. Elsevier, New York.
Kempthorne, O, and Tandon, O B. 1953. The estimation of heritability by regression of offspring on parent. Biometrics, 9, 90–100.
King, J F, and De Mayo, P. 1964. Terpenoid rearrangements, pp. 771–840. In de Mayo, P. (ed.), Molecular Rearrangements. Interscience, New York.
Mirov, Nicholas T. 1958. Distribution of turpentine components among species of the genus Pinus, pp. 251–268. In Thimann, K. F. (ed.), The Physiology of Forest Trees. Ronald Press, New York.
Mirov, Nicholas T. 1961. Composition of gum turpentine of pines. US Dept Agr Tech Bull, 1239, 158 pp.
Pecsok, R L. 1959. Principles and Practice of Gas Chromatography. 226 pp. John Wiley, New York.
Penfold, A R, and Morrison, F R. 1927. The occurrence of a number of varieties of Eucalyptus dives as determined by chemical analyses of the essential oils. Part 1. Four, and Proc Roy Soc NS Wales, 67, 54–67.
Reeve, E C R. 1955. The variance of the genetic correlation coefficient. Biometrics, 11, 357–374.
Smith, Richard H. 1964. Variation in the monoterpenes of Pinus ponderosa Laws. Science, 143, 1337–1338.
Swain, T. 1962. The biosynthesis of polyphenols, pp. 277–313. In Hillis, W. E. (ed.), Wood Extractives and their Significance to the Pulp and Paper Industries. Academic Press, New York.
Williams, Allette L, and Bannister, M H. 1962. Composition of gum turpentines from twenty-two species of pines grown in New Zealand. Pharm Sci, 51, 970–975.
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Hanover, J. Genetics of terpenes I. Gene control of monoterpene levels in Pinus monticola dougl.. Heredity 21, 73–84 (1966). https://doi.org/10.1038/hdy.1966.5
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DOI: https://doi.org/10.1038/hdy.1966.5
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