Free access
Issue
Ann. For. Sci.
Volume 58, Number 4, May-June 2001
Page(s) 449 - 454
DOI http://dx.doi.org/10.1051/forest:2001138

References

1
Almendros G., Sanz J., Velasco F., Signatures of lipid assemblages in soils under continental Mediterranean forests, Eur. J. Soil Sci. 47 (1996) 183-196.
2
Baradat Ph., Marpeau, A., Walter, J., Terpene markers, in: Muller Starck G., Ziehe M. (Eds.), Genetic variation in European populations of forest trees, Sauerlander's Verlag, Frankfurt am Main, 1991, pp. 40-66.
3
Carvalho J.S., Caracterizaçao Química do Pinhao de Pinus pinea L., Silva Lusitana 4 (1996) 1996
4
Cates R.G., The role of mixture and variation in the production of terpenoids in conifer-insect pathogen interactions, in: Romeo J.T., Saunders J.A., Barbosa P. (Eds.), Phytochemical diversity and redundancy in ecologycal interactions, Vol. 30, Plenum Press, New York, 1996, pp. 179-216.
5
Hafizoglu H., Studies on the wood and bark constituents of Pinus pinea L., Holzforschung 43 (1989) 41-43.
6
Hanover J.W., Applications of terpene analysis in forest genetics, New Forest 6 (1992) 159-178.
7
Lange W., Weißmann G., Studies on the gum oleoresins of Pinus resinosa Ait and Pinus pinea L., Holz als Roh- und Werkstoff 49 (1991) 476-480.
8
Lewinsohn E., Savage T.J., Gijzen M., Croteau R., Simultaneous analysis of monoterpenes and diterpenoids of conifer oleoresin, Phytochem. Anal. 4 (1993) 220-225.
9
Pauly G., Gleizes M., Bernard-Dagan C., Identification des constituants de l'essence des aiguilles de Pinus pinaster, Phytochemistry 12 (1973) 1395-1398.
10
Roussis V., Petrakis P.V., Ortiz A., Mazomenos B.E., Volatile constituents of needles of five Pinus species grown in Greece, Phytochemistry 39 (1995) 357-361.
11
Rudolf von E., Volatile leaf analysis in chemosystematic studies of North American conifers, Biochem. Sist. Ecol. 2 (1969) 131-167.
12
Silva M.M.N.P., O pinheiro manso (Pinus pinea): as potentialidades químicas dos seus produtos, in: I Simposio de aprovechamiento de resinas naturales, Actas científicas. Segovia, 1998, pp. 87-92.
13
Song Z.Q., Chen C.L., Perry J.P., Characterization of mono-, sesqui- and di-terpenes in some Mexican and Guatemalan pine oleoresin. A simple GC method, Chem. Indust. For. Prod. 2 (1988) 10-18.
14
Squillace A.E., Hedrick G.W., Green A.J., Variation and inheritance of levopimaric acid content and its relationship to oleoresin yield in Slash pine, Silvae Genetica 20 (1971) 90-91.
15
Tobolski J.J., Zinkel D.F., Variation in needle and cortex resin acids during shoot development in Pinus sylvestris, P. nigra and P. strobus, For. Sci. 28 (1982) 785-796.
16
Zinkel D.F., Diterpene resin acids of Pinus densiflora needles and cortex, Phytochemistry 15 (1976) 1073-1074.
17
Zinkel D.F., Pine resin acids as chemotaxonomic and genetic indicators, in: TAPPI Conf. Papers, For. Biol. Wood Chem. Conf., Madison, 1977, pp. 53-56.
18
Zinkel D.F., Magee T.V., Walter J. Major resin acids of Pinus nigra needles, Phytochemistry 24 (1985) 1273-1277.

Abstract

Copyright INRA, EDP Sciences