Free access
Issue
Ann. For. Sci.
Volume 62, Number 6, September-October 2005
Page(s) 565 - 573
DOI http://dx.doi.org/10.1051/forest:2005049
References of Ann. For. Sci. 62 565-573
  1. Barlow P.W., From cambium to early cell differentiation within the secondary vascular system, in: Holbrook N.M., Zwieniecki M. (Eds.), Vascular Transport in Plants, Elsevier/Academic Press, Amsterdam, 2005, pp. 279-306.
  2. Barlow P.W., Brain P., Powers S.J., Estimation of directional division frequencies in vascular cambium and in marginal meristematic cells of plants, Cell Prolif. 35 (2002) 49-65 [CrossRef] [PubMed].
  3. Bonhomme R., Bases and limits to using "degree.day" units, Eur. J. Agron. 13 (2000) 1-10 [CrossRef].
  4. Eriksson M.E., Moritz T., Daylength and spatial expression of a gibberellin 20-oxidase isolated from hybrid aspen (Populus tremula L. × P. tremuloides Michx.), Planta 214 (2002) 920-930 [CrossRef] [PubMed].
  5. Ford E.D., Robards A.W., Piney M.D., Influence of environmental factors on cell production and differentiation in the early wood of Picea sitchensis, Ann. Bot. (1978) 683-692.
  6. Fritts H.C., Shashkin A., Downes G.M., A simulation model of conifer ring growth and cell structure, in: Wimmer R., Vetter R.E. (Eds.), Tree-Ring Analysis, CABI International, Wallingford, 1999, pp. 3-32.
  7. Glock W.S., Agerter S.R., Rainfall and tree growth, in: Kozlowski T.T. (Ed.), Tree Growth, Ronald Press, New York, 1962, pp. 23-56.
  8. Hellgren J.M., Puech L., Barlow P., Fink S., Mellerowicz E.J., Sundberg B., Auxin and cambial growth rate in poplar, Sylvestria 268 (2003) 95-105.
  9. Hellmers H., Distribution of growth in tree seedling stems as affected by temperature and light, in: Zimmermann M.H. (Ed.), The Formation of Wood in Forest Trees, Academic Press, New York, 1964, pp. 533-547.
  10. Horacek P., Slezingerova J., Gandelova L., Effects of environment on the xylogenesis of Norway spruce (Picea abies [L.] Karst.), in: Wimmer R., Vetter R.E. (Eds.), Tree-Ring Analysis, CABI International, Wallingford, 1999, pp. 33-53.
  11. Kozlowski T.T., Pallardy S.G., Growth Control in Woody Plants, Academic Press, San Diego, 1997.
  12. Lachaud S., Participation of auxin and abscisic acid in the regulation of seasonal variations in cambial activity and xylogenesis, Trees 3 (1989) 125-137.
  13. Little C.H.A., Wareing P.F., Control of cambial activity and dormancy in Picea sitchensis by indol-3-ylacetic and abscisic acids, Can. J. Bot. 59 (1981) 1480-1493.
  14. Ljung K., Bhalerao R., Sandberg G., Sites and homeostatic control of auxin biosynthesis in Arabidopsis during vegetative growth, Plant J. 28 (2001) 465-474 [CrossRef] [PubMed].
  15. Nicolai V., The bark of trees: thermal properties, microclimate and fauna, Oecologia 69 (1986) 148-160 [CrossRef].
  16. Powers S.J., Brain P., Barlow P.W., First-order differential equation models with estimable parameters as functions of environmental variables and their application to a study of vascular development in young hybrid aspen stems, J. Theor. Biol. 222 (2003) 219-232 [CrossRef] [PubMed].
  17. Puech L., Türk S., Hodson J., Fink S., Wood formation in hybrid aspen (Populus tremula L. × Populus tremuloides Michx.) grown under different nitrogen regimes, in: Savidge R., Barnett J., Napier R. (Eds.), Cell and Molecular Biology of Wood Formation, BIOS Scientific Publishers, Oxford, 2000, pp. 141-153.
  18. Rees W., Shiue C.-J., The structure and development of the bark of quaking aspen, Proc. Minn. Acad. Sci. 25-26 (1957-58) 113-125.
  19. Reifsnyder W.E., Herrington L.P., Spalt K.W., Thermophysical properties of bark of shortleaf, longleaf and red pine, Yale University School of Forestry, Bulletin No. 70, 1967, pp. 1-40.
  20. Riedacker A., Rythmes de croissance et de régénération des racines des végétaux ligneux, Ann. Sci. For. 33 (1976) 109-138.
  21. Schrader J., Baba K., May S.T., Palme K., Bennett M., Bhalerao R.P., Sandberg G., Polar auxin transport in the wood-forming tissues of hybrid aspen is under simultaneous control of developmental and environmental signals, Proc. Natl. Acad. Sci. 100 (2003) 10096-10101 [CrossRef].
  22. Souèges R., Les Lois de Développement, Actualités Scientifiques et Industrielles N° 521, Hermann, Paris, 1937.
  23. Uggla C., Moritz M., Sandberg G., Sundberg B., Auxin as a positional signal in pattern formation in plants, Proc. Natl. Acad. Sci. USA 93 (1996) 9282-9286 [CrossRef] [PubMed].
  24. Uggla C., Mellerowicz E.J., Sundberg B., Indole-3-acetic acid controls cambial growth in Scots pine by positional signaling, Plant Physiol. 117 (1998) 113-121 [CrossRef] [PubMed].
  25. Vines R.C., Heat transfer through bark, and the resistance of trees to fire, Aust. J. Bot. 16 (1968) 499-514.
  26. Went F.W., Sheps L.O., Environmental factors in regulation of growth and development: ecological factors, in: Steward F.C. (Ed.), Plant Physiology. A Treatise. Vol. VA: Analysis of Growth: Behavior of Plants and their Organs, Academic Press, New York, 1969, pp. 299-406.
  27. Zimmermann M.H., Brown C.L., Trees. Structure and Function, Springer, Berlin, 1971.