Free Access
Ann. For. Sci.
Volume 62, Number 3, April-May 2005
Page(s) 209 - 218
References of Ann. For. Sci. 62 209-218
  1. Becker B., An 11 000-year German oak and pine dendrochronology for radiocarbon calibration, Radiocarbon 35 (1993) 201-213.
  2. Bednarz Z., Ptak J., The influence of temperature and precipitation on ring widths of oak (Quercus robur L.) in the Niepolomice forest near Cracow, Southern Poland, Tree-Ring, Bull. 50 (1990) 1-10.
  3. Blasing T.J., Solomon A.M., Duvick D.N., Response functions revisited, Tree-Ring Bull. 44 (1984) 1-15.
  4. Brakel J.A., van den Visser H., The influence of environmental conditions on tree-ring series of Norway spruce for different canopy and vitality classes, For. Sci. 42 (1996) 206-219.
  5. Bridge M.C., Gasson P.E., Cutler D.F., Dendroclimatological observations on trees at Kew and Wakehurst Place: event and pointer years, Forestry 69 (1996) 263-269.
  6. Briffa K., Jones P.D., Basic chronology statistics and assessment, in: Cook E., Kairiukstis L. (Eds.), Methods of dendrochronology: applications in the environmental sciences, Kluwer Academic Publishers, Dordrecht, 1990, pp. 137-152.
  7. Cleaveland M.K., Duvick D.N., Iowa climate reconstructed from tree rings, 1640-1982, Water Resour. Res. 28 (1992) 2607-2615.
  8. Colenutt M.E., Luckman B.H., Dendrochronological investigation of Larix lyallii at Larch Valley, Alberta, Can. J. For. Res. 21 (1991) 1222-1233.
  9. Cook E.R., Holmes R.L., Guide for computer program ARSTAN, in: Grissino-Mayer H.D., Holmes R.L., Fritts H.C. (Eds.), The International Tree-Ring Data Bank Program Library Version 2.0 User's Manual, Laboratory of Tree-Ring Research, University of Arizona, Tucson, 1996, pp. 75-87.
  10. Cook E.R., Peters K., The smoothing spline: a new approach to standardizing forest interior tree-ring width series for dendroclimatic studies, Tree-Ring Bull. 41 (1981) 45-53.
  11. Cook E., Briffa K., Shiyatov S., Mazepa V., Tree-ring standardization and growth-trend estimation, in: Cook E., Kairiukstis L. (Eds.), Methods of dendrochronology: applications in the environmental sciences, Kluwer Academic Publishers, Dordrecht, 1990, pp. 104-132.
  12. Cook E.R., Johnson A.H., Blasing T.J., Forest decline: modeling the effect of climate in tree rings, Tree Physiol. 3 (1987) 27-40 [PubMed].
  13. Cullen L.E., Palmer J.G., Duncan R.P., Stewart G.H., Climate change and tree-ring relationships of Nothofagus menziesii tree-line forests, Can. J. For. Res. 31 (2001) 1981-1991.
  14. Dittmar C., Zech W., Elling W., Growth variation of common beech (Fagus sylvatica L.) under different climatic and environmental conditions in Europe - a dendroecological study, For. Ecol. Manage. 173 (2003) 63-78.
  15. Fritts H., Tree rings and climate, Academic Press, London, 1976.
  16. Foster J.R., LeBlanc D.C., A physiological approach to dendroclimatic modeling of oak radial growth in the midwestern United States, Can J. For. Res. 23 (1993) 783-798.
  17. García González I., Díaz Vizcaíno E.A., Martínez Cortizas A., Evidence for a common and a species-specific climatic response of oak and birch on a northern Galician site (NW Spain) by means of multivariate procedures, Dendrochronologia 15 (1997) 119-127.
  18. García González I., Díaz Vizcaíno E.A., Martínez Cortizas A., Dendrochronological analysis of oak (Quercus robur L., Fagaceae) in the Serra da Carba (Galicia, NW Spain): an application of cluster analysis, Nova Acta Científica Compostelana (Bioloxía) 9 (1999) 171-177.
  19. García González I., Eckstein D., Climatic signal of earlywood vessels of oak on a maritime site, Tree Physiol. 23 (2003) 497-504 [PubMed].
  20. Gray B.M., Pilcher J.R., Testing the significance of summary response functions, Tree-Ring Bull. 43 (1983) 31-38.
  21. Gray B.M., Wigley T.M.L., Pilcher J.R., Statistical significance and reproducibility of tree-ring response functions, Tree-Ring Bull. 41 (1981) 21-35.
  22. Guiot J., Methods of calibration, in: Cook E., Kairiukstis L. (Eds.), Methods of dendrochronology: applications in the environmental sciences, Kluwer Academic Publishers, Dordrecht, 1990, pp. 165-178.
  23. Hillam J., The dating of archaeological sites in the United King-dom, Lundqua Rep. 34 (1992) 146-149.
  24. Holmes R.L., Computer-assisted quality control in tree-ring dating and measurement, Tree-Ring Bull. 43 (1983) 69-78.
  25. Hughes M.K., Gray B., Pilcher J., Baillie M., Leggett P., Climatic signals in British Isles tree-ring chronologies, Nature 272 (1978) 605-606.
  26. Jacobi J.C., Tainter F.H., Dendroclimatic examination of white oak along an environmental gradient in the Piedmont of South Carolina, Castanea 53 (1988) 252-262.
  27. Lara A., Aravena J.C., Villalba R., Wolodarsky-Franke A., Luckman B., Wilson R., Dendroclimatology of high-elevation Nothofagus pumilio forests at their northern distribution limit in the central Andes of Chile, Can. J. For. Res. 31 (2001) 925-936.
  28. LeBlanc D.C., Temporal and spatial variation of oak growth-climate relationships along a pollution gradient in the midwestern United States, Can. J. For. Res. 23 (1993) 772-782.
  29. Lebourgeois F., Climatic signals in earlywood, latewood and total ring width of Corsican pine from western France, Ann. For. Sci. 57 (2000) 155-164 [EDP Sciences].
  30. Lonsdale D., Pollarding success or failure: some principles to consider, in: Read H.J. (Ed.), Pollard and Veteran Tree Management, II, Corporation of London, Burnham Beeches, 1996, pp. 100-104.
  31. McClenahen J.R., Dochinger L.S., Tree ring response of white oak to climate and air pollution near the Ohio River Valley, J. Environ. Qual. 14 (1985) 274-280.
  32. Morgan R.A., Litton C.D., Salisbury C.R., Trackways and tree trunks - dating Neolithic oaks in the British Isles, Tree-Ring Bull. 47 (1987) 61-69.
  33. Orwig D.A., Abrams M.D., Variation in radial growth responses to drought among species, site, and canopy strata, Trees 11 (1997) 474-484.
  34. Pérez Antelo A., Fernández Cancio A., Dendrocronologias de las sierras orientales gallegas: Los Ancares y El Courel (España), Invest. Agrar. Sist. Recur. For. 4 (1995) 5-31.
  35. Pérez Antelo A., Fernández Cancio A., Reconstrucciones dendroclimatológicas de Galicia (España) desde finales del siglo XVIII, Invest. Agrar. Sist. Recur. For. 6 (1997) 17-37.
  36. Pilcher J.R., Baillie M.G., Six modern oak chronologies from Ireland, Tree-Ring Bull. 40 (1980) 23-34.
  37. Pilcher J.R., Baillie M.G., Eight modern oak chronologies from England and Scotland, Tree-Ring Bull. 40 (1980) 45-58.
  38. Pilcher J.R., Gray B., The relationships between oak tree growth and climate in Britain, J. Ecol. 70 (1982) 297-304.
  39. Pilcher J.R., Baillie M.G.L., Schmidt B., Becker B., A 7,272 year tree-ring chronology for western Europe, Nature 312 (1984) 150-152.
  40. Pilcher J.R., Hillam J., Baillie M.G.L., Pearson G.W., A long sub-fossil oak tree-ring chronology from the north of Ireland, New Phytol. 79 (1977) 713-729.
  41. Piutti E., Cescatti A., A quantitative analysis of the interactions between climatic response and intraspecific competition in European beech, Can. J. For. Res. 27 (1997) 277-284.
  42. Read H., Veteran trees: a guide to good management, English Nature, The Countryside Agency and English Heritage, Peterborough, 2000.
  43. Robertson P.A., Factors affecting tree growth on three lowland sites in southern Illinois, Am. Midl. Nat. 128 (1992) 218-236.
  44. Rozas V., Detecting the impact of climate and disturbances on tree-rings of Fagus sylvatica L. and Quercus robur L. in a lowland forest in Cantabria, Northern Spain, Ann. For. Sci. 58 (2001) 237-251 [EDP Sciences].
  45. Rozas V., Dendrochronology of pedunculate oak (Quercus robur L.) in an old-growth pollarded woodland in northern Spain: establishment patterns and the management history, Ann. For. Sci. 62 (2005) 13-22 [EDP Sciences] [CrossRef].
  46. Rubino D.L., McCarthy B.C., Dendroclimatological analysis of white oak (Quercus alba L., Fagaceae) from an old-growth forest of southeastern Ohio, USA, J. Torrey Bot. Soc. 127 (2000) 240-250.
  47. Santini A., Bottacci A., Gellini R., Preliminary dendroecological survey on pedunculate oak (Quercus robur L.) stands in Tuscany (Italy), Ann. Sci. For. 51 (1994) 1-10.
  48. Splechtna B.E., Dobry J., Klinka K., Tree-ring characteristics of subalpine fir (Abies lasiocarpa (Hook.) Nutt.) in relation to elevation and climatic fluctuations, Ann. For. Sci. 57 (2000) 89-100 [EDP Sciences].
  49. Stahle D.W., Hehr J.G., Dendroclimatic relationships of post oak across a precipitation gradient in the southcentral United States, Ann. Assoc. Amer. Geogr. 74 (1984) 561-573.
  50. Stokes M.A., Smiley T.L., An introduction to tree-ring dating, University of Chicago Press, Chicago, 1968.
  51. Szeicz J.M., Growth trends and climatic sensitivity of trees in the North Patagonian rain forest of Chile, Can. J. For. Res. 27 (1997) 1003-1014.
  52. Szeicz J.M., MacDonald G.M., Age-dependent tree-ring growth responses of subarctic white spruce to climate, Can. J. For. Res. 24 (1994) 120-132.
  53. Tardif J., Earlywood, latewood and total ring width of a ring-porous species (Fraxinus nigra Marsh.) in relation to climatic and hydrological factors, in: Dean J.S., Meko D.M., Swetnam T.W. (Eds.), Tree rings, environment and humanity, radiocarbon, 1996, pp. 315-324.
  54. Tardif J., Brisson J., Bergeron Y., Dendroclimatic analysis of Acer saccharum, Fagus grandifolia, and Tsuga canadensis from an old-growth forest, southwestern Quebec, Can. J. For. Res. 31 (2001) 1491-1501.
  55. Tessier L., Nola P., Serre-Bachet F., Deciduous Quercus in the Mediterranean region: tree-ring/climate relationships, New Phytol. 126 (1994) 355-367.
  56. Van Deusen P.C., Evaluating time-dependent tree ring and climate relationships, J. Environ. Qual. 19 (1990) 481-488.
  57. Visser H., Analysis of tree ring data using the Kalman filter technique, IAWA Bull. 7 (1986) 29-37.
  58. Visser H., Molenaar J., Kalman filter analysis in dendroclimatology, Biometrics 44 (1988) 929-940.
  59. Visser H., Molenaar J., Detecting time-dependent climatic response in tree rings using the Kalman filter, in: Cook E., Kairiukstis L. (Eds.), Methods of dendrochronology: applications in the environmental sciences, Kluwer Academic Publishers, Dordrecht, 1990, pp. 270-277.
  60. Yasue K., Funada R., Kondo T., Kobayashi O., Fukazawa K., The effect of climatic factors on the radial growth of Japanese ash in northern Hokkaido, Japan, Can. J. For. Res. 29 (1996) 2052-2055.