Free access
Issue
Ann. For. Sci.
Volume 59, Number 2, March 2002
Page(s) 155 - 161
DOI http://dx.doi.org/10.1051/forest:2002002

References

  1. Bonga J.M., von Aderkas P., Rejuvenation of tissues from mature conifers and its implications for propagation in vitro, in: Ahuja M.R., Libby W.J. (Eds.), Clonal Forestry I, Genetics and Biotechnology, Springer-Verlag, Berlin, Heidelberg, 1993, pp. 182-199.
  2. Cline M.G., The role of hormones in apical dominance. New approaches to an old problem in plant development, Physiol. Plant. 90 (1994) 230-237.
  3. Cline M.G., Concepts and terminology of apical dominance, Am. J. Bot. 84 (1997) 1064-1069.
  4. Dumas E., Franclet A., Monteuuis O., Microgreffe de méristèmes primaires caulinaires de pins maritimes (Pinus pinaster Ait.) âgés sur jeunes semis cultivés in vitro, C.R. Acad. Sci. 3 (1989) 723-728.
  5. Ewald D., Kretzschmar U., The influence of micrografting in vitro on tissue culture behavior and vegetative propagation of old European larch trees, Plant Cell Tissue Organ. Cult. 44 (1996) 249-252.
  6. Franclet A., Rajeunissement par culture in vitro et pratique sylvicole, Bull. Soc. Bot. Fr., 130, Actual. Bot. 2 (1983) 87.
  7. Gleed J.A., Development of plantings and stecklings of radiata pine, in: Ahuja M.R., Libbby W.J. (Eds.), Clonal forestry II, Genetics and Biotechnology, Springer-Verlag, Berlin, Heidelberg, 1993, pp. 141-158.
  8. Huang L.C., Lius S., Huang B.L., Murashige T., Mahdi F.M., van Gundy R., Rejuvenation of Sequoia sempervirens by repeated grafting of shoot tips onto juvenile rootstocks in vitro, Plant Physiol. 98 (1992) 166-173.
  9. Jonard R., Micrografting and its applications to tree improvement, in: Bajaj Y.P.S. (Ed.), Biotechnology in agriculture and forestry, Springer-Verlag, Berlin, Heilderberg, New York, 1986, pp. 31-48.
  10. Lang G., Dormancy: a new universal terminology, HortScience 22 (1990) 817-820.
  11. Monteuuis O., Microgreffage de points végétatifs de Sequoiadendron giganteum Buchholz séculaires sur de jeunes semis cultivés in vitro, C. R. Acad. Sci. Par. 302 (1986) 223-225.
  12. Monteuuis O., Effect of technique and darkness on the success of meristem micrografting of Picea abies, Silvae Genet. 42 (1994) 2-3.
  13. Murashige T., Skoog F., A revised medium for rapid growth and bioassays with tobacco tissue culture, Physiol. Plant. 15 (1962) 473-497.
  14. Pacheco J., Revigorización de material adulto de Pinus nigra ARN: criterios morfológicos y moleculares, Doctoral Thesis, Universidad de Oviedo, 1995.
  15. Quoirin M., Lepoivre P., Études de milieux adaptés aux cultures in vitro de prunes, Acta Hortic. 78 (1977) 437-442.
  16. Rodríguez R., Sánchez-Tamés R., Durzan D.J., Plant Aging. Basic and Applied Approaches, Plenum Press, New York, 1990.
  17. Rodríguez R., Centeno M.L., Ca nal M.J., Rodríguez A., Fernández B., Fraga M.F., Physiological basis of plant ageing. Problems and solutions for micropropagation of gymnosperms and angiosperms selected mature trees, in: Espinel S., Ritter E. (Eds.), Applications of Biotechnology to Forest Genetics, Diputación Foral de Álava, Vitoria, 2000, pp. 411-424.
  18. Smith D.R., The role of in vitro methods in pine plantation establishment: the lesson from New Zeeland, Plant Tissue Cult. Biotech. 3 (1997) 63-73.

Abstract

Copyright INRA, EDP Sciences