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All issues Volume 61 / No 2 (March 2004) Ann. For. Sci., 61 2 (2004) 141-148 References
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Issue
Ann. For. Sci.
Volume 61, Number 2, March 2004
Page(s) 141 - 148
DOI https://doi.org/10.1051/forest:2004005
References of Ann. For. Sci. 61 141-148
  1. Agresti A., Categorical Data Analysis, Wiley Interscience, 1990.
  2. Aldohus J.R., Quality of softwood timber-market prices and revenue expectation, Q. J. For. 80 (1986) 233-240.
  3. Alía R., Gil L., Pardos J.A., Performance of 43 Pinus pinaster provenances on 5 locations in Central Spain, Silvae Genet. 44 (1995) 75-81.
  4. Alía R., Martín R., De Miguel J., Galera R.M., Agúndez D., Gordo J., Salvador L., Catalán G., Gil L.A., Regiones de procedencia, Pinus pinaster Ait., DGCONA, Madrid, 1996.
  5. Ancelin P., Modelisation du comportement biomécanique de l'arbre dans son environnement forestier. Application au pin maritime, Ph.D. thesis, Université de Bordeaux, Bordeaux, 2001.
  6. Bailleres H., Conséquences du bois juvénile et du bois de compression sur la stabilité dimensionnelle des contreplaques de pin maritime, in: Thibaut B. (Ed.), Proceedings of the Third Seminar "Architecture, Structure, Mécanique de l'arbre", LMGC, University of Montpellier II, Montpellier, 1991.
  7. Bravo F., Guerra B., Forest structure and diameter growth in Maritime pine in a Mediterranean area, in: von Gadow K., Saborowski J. (Eds.), IUFRO Conference on continuous cover forestry, Göttingen, 2001, pp. 101-110.
  8. Conche I., Déterminisme génétique de l'anisotropie et de certains caractères de forme chez le pin maritime, Mémoire de stage de fin d'études, INRA-FOREST, IUT de Tours, 1978.
  9. Cotterill P.P., Dean C.A., Van Wye G., Additive and dominance genetic effects in Pinus pinaster, P. radiata and P. elliottii and some implications for breeding strategy, Silvae Genet. 36 (1987) 221-232.
  10. Crisan P.A., Déterminisme génétique de la forme de pin maritime, Corrélations avec la vigueur et le rythme de croissance, Mémoire de stage de fin d'études, INRA-Cestas, 1977.
  11. Davies E.J.M., Unseless? The case against contorta, Scot. For. 34 (1980) 110-113.
  12. Danjon F., Bert D., Godin C., Trichet P., Structural root architecture of 5-year-old Pinus pinaster measured by 3D digitising and analysed with AMAPmod, Plant Soil 217 (1999) 49-62 [CrossRef].
  13. Fourcaud T., Blaise F., Lac P., Castéra P., de Reffye P., Numerical modelling of shape regulation adn growth stresses in trees. II. Implementation in the AMAPpara software and simulation of tree growth, Trees 17 (2003) 31-39 [CrossRef].
  14. Fournier M., Bailleres H., Chanson B., Tree biomechanics: growth, cumulative prestresses and reorientations, Biomimetics 2 (1994) 229-252.
  15. Galera R.M., Martín S., Alía R., Gordo J., Aguado A., Notivol E., Manual de selección de masas productoras de semillas, Evaluación de caracteres, Monografías INIA 97, Madrid, 1997.
  16. Gong Y.L., Swaine M.D., Miller H.G., Effects of Fencing and Ground Preparation on Natural Regeneration of Native Pinewood over 12 years in Glen Tanar, Aberdeenshire, Forestry 64 (1991) 157-168.
  17. González A., Evaluación de una parcela de ensayo de procedencias de Pinus pinaster Ait., T.M. La Pedraja de Portillo (Valladolid), Proyecto Fin de Carrera de Ingeniería de Montes, Universidad de Valladolid, Palencia, 1999.
  18. González-Martínez S.C., Gerber S., Cervera M.T., Martínez Zapater J.M., Gil L., Alía R., Detecting reliable parent-offspring matches in parentage analysis: a case study, in: Degen B. (Ed.), Modelling and experimental research on genetic processes in tropical and temperate forests, Belén, 2002, pp. 159-164.
  19. González-Martínez S.C., Salvador L., Agúndez D., Alía R., Gil L., Geographical variation of gene diversity of Pinus pinaster Ait. in the Iberian Peninsula, in: Müller-Starck G., Schubert R. (Eds.), Genetic response of forest systems to changing environmental conditions, Kluwer Academic Press, Dordrecht, 2001, pp. 161-171.
  20. Gonzalo J., Sánchez P., Análisis de calidad de estación en dos regiones de procedencias de Pinus pinaster Ait.: Oña (Burgos) y Sierra del Teleno (León), in: Puertas F., Rivas M. (Eds.), Proceedings of I Congreso Hispano-Luso (mesa IV), Pamplona, 1997, pp. 315-320.
  21. Laguardia A., The behaviour of Pinus caribaea var. hondurensis in Misiones, Suppl. For. 4 (1967) 53-58.
  22. Leaphart C.D., Hungerford R.D., Johnson H.E., Stem deformities in young trees caused by snowpack and its movement, U.S. For. Serv. Res. Notes INT 158, 1972, pp. 10.
  23. Lindstrom A., Rune G., Root deformation in plantations of container-grown Scots pine trees: effects on root growth, tree stability and stem straightness, Plant Soil 217 (1999) 29-37 [CrossRef].
  24. Loup C., Le développement architectural du pin maritime, in: Thibaut B. (Ed.), Proceedings of the Second Seminar "Architecture, Structure, Mécanique de l'arbre", LMGC, University of Montpellier II, Montpellier, 1990.
  25. Loup C., Fournier M., Chanson B., Moulia B., Redressements, contraintes de croissance et bois de réaction dans le bois d'un jeune Pinus pinaster artificiellement incline, in: Thibaut B. (Ed.), Proceedings of the Third Seminar "Architecture, Structure, Mécanique de l'arbre", LMGC, University of Montpellier II, Montpellier, 1991.
  26. Magini E., The heritability of the stem form in Pinus pinaster, FAO-FTB 3/8, 1969.
  27. Malinuaskas A., The influence of the initial density and site conditions on Scots pines growth and wood quality, Baltic For. 5 (1999) 8-19.
  28. Montero G., Ortega C., Cañellas I., Bachiller A., Productividad aérea y dinámica de nutrientes en una población de Pinus pinaster Ait. sometida a distintos regímenes de claras, Investigación Agraria: Sistemas y Recursos Forestales FS 1 (1999) 175-206.
  29. Nanos N., Montero G., Spatial prediction of diameter distribution models, For. Ecol. Manage. 161 (2002) 147-158.
  30. Nanos N., Tadesse W., Montero G., Gil L., Alía R., Modelling resin productions for Pinus pinaster Ait. using two probability functions, Ann. For. Sci. 57 (2000) 369-377 [CrossRef].
  31. Nanos N., Tadesse W., Montero G., Gil L., Alía R., Spatial stochastic modeling of resin yield from pine stands, Can. J. For. Res. 31 (2001) 1140-1147 [CrossRef].
  32. Petty J.A., Worrell R., Stability of coniferous tree stems in relation to damage by snow, Forestry 54 (1981) 115-127.
  33. Polge H., Illy G., Observations sur l'anisotropie du pin maritime des Landes, Ann. Sci. For. 24 (1967) 205-231.
  34. Radi M., Catera P., Qualification de la forme de deux pins maritimes en liason avec la structure de leur bois, Ann. Sci. For. 49 (1992) 185-200.
  35. Rottmann M., Waldbauliche Konsequenzen aus Schneebruchkatastrophen, Schweiz Z. Forstwes. 136 (1985) 167-184.
  36. Roussel L., Le phototropisme juvénile des résineux, Rev. For. Fr. 11 (1966) 708-717.
  37. Sierra de Grado R., Mejora genética de Pinus pinaster Ait. de la procedencia Sierra de Gredos. Caracteres de crecimiento y forma, Ph.D. thesis, Universidad Politécnica de Madrid, Madrid, 1994.
  38. Sierra de Grado R., Moulina B., Fournier M., Alía R., Díez-Barra R., Genetic control of stem form in Pinus pinaster Ait. seedlings exposed to lateral light, Tress 11 (1997) 455-461.
  39. Sierra de Grado R., Díez-Barra R., Alía R., Evaluación de la rectitud del fuste en seis procedencias de Pinus pinaster Ait., Investig. Agrar., Sist. Recur. For. 8 (1999) 263-278.
  40. Sierra de Grado R., Martínez-Zurimendi P., Pando V., Straightening abilities in Pinus pinaster Ait.: variability between populations, in: Spatz H.C., Speck T. (Eds.), Proceedings of the third Plant Biomechanics Conference "Plant Biomechanics 2000", Thieme, Freiburg-Badenweiler, 2000, pp. 463-467.
  41. Schmidt W.C., Stand density in relation to biological functions in young Western larch forests, in: Bamsey C., Lake C. (Eds.), Stand density management: planting and implementation, Edmonton (Alberta), 1997, pp. 101-111.
  42. SSPS Inc., SPSS for Windows, Version 9.01 (1989-1999).
  43. Tapia R., Gil L., Pardos J.A., Los pinares (Pinus pinaster Ait.) de las estribaciones de la Sierra del Teleno (León), La influencia del incendio en su ordenación, Montes 52 (1998) 115-121.
  44. Timell T.E., Compression Wood in Gymnosperms, Springer-Verlag, Berlin, 1986.
  45. Valinger E., Lundquist L., Sunberg B., Mechanical bending stress applied during dormancy and growth stimulates stem diameter growth of Scots pine seedlings, Can. J. For. Res., 25 (1995) 886-890.
  46. Williams C.G., Lambeth C.C., Bole straightness measurement for advanced-generation loblolly pine genetic test, Silvae Genet. 38 (1989) 212-217.
  47. Wykoff W.R., Crookston N.L., Stage A.R., User's guide to the stand prognosis model, USDA Forest Service, Intermountain Forest and Range Experiment Station, Ogden, Utah., General Technical Report INT 133, 1982, p. 122.
  48. Yoshizawa N., Okamoto Y., Idei T., Righting movement and xylem development in tilted young conifers trees, Wood Fiber Sci. 18 (1986) 579-589.