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All issues Volume 63 / No 1 (January-February 2006) Ann. For. Sci., 63 1 (2006) 1-8 References
Open Access
Issue
Ann. For. Sci.
Volume 63, Number 1, January-February 2006
Page(s) 1 - 8
DOI https://doi.org/10.1051/forest:2005092
Published online 28 January 2006
References of Ann. For. Sci. 63 1-8
  1. Aitken S.N., Hannerz M., Genecology and gene resource management strategies for conifer cold hardiness, in: Bigras F.J., Colombo S.J. (Eds.), Conifer Cold Hardiness, Kluwer Academic Publishers, The Netherlands, 2001, pp. 23-53.
  2. Aronsson A., Influence of photo- and thermoperiod on the initial stages of frost hardening and dehardening of phytotron-grown seedlings of Scots pine (Pinus silvestris L.) and Norway spruce (Picea abies (L.) Karst.), Stud. For. Suec. 128 (1975) 5-20.
  3. Burr K.E., The target seedling concept: bud dormancy and cold-hardiness, in: Rose R., Campbell S.J., Landis T.D. (Eds.), Target Seedling Symposium: Proceedings of the Western Forest Nursery Associations, USDA For. Serv. Gen. Tech. Rep. RM-200, pp. 79-90.
  4. Bur K.E., Tinus R.W., Wallner S.J., King R.M., Comparison of three cold hardiness tests for conifer seedlings, Tree Physiol. 6 (1990) 351-369 [PubMed].
  5. Davradou M., Hawkins B.J., Effects of plantation location and population on the seasonal freezing tolerance of yellow-cedar (Chamaecyparis nootkatensis) stecklings, New For. 15 (1998) 77-88.
  6. Dexter S.T., Tottingham W.E., Graber L.F., Preliminary results in measuring the hardiness of plants, Plant Physiol. 5 (1930) 215-223.
  7. Dickmann D., Role of physiology in forest tree improvement, Silva. Fenn. 25 (1992) 248-256.
  8. Flint H.L., Boyce B.R., Beattie D.J., Index of injury - a useful expression of freezing injury to plant tissues as determined by the electrolytic method, Can. J. Plant Sci. 47 (1967) 229-230.
  9. Folk R.S., Grossnickle S.C., Major J.E., Arnott J.T., Influence of nursery culture on western redcedar. II. Freezing tolerance of fall-planted seedlings and morphological development of fall- and spring-planted seedlings, New For. 8 (1994) 231-247.
  10. Fowells H.A. (Ed.), Silvics of forest trees of the United States, USDA For. Serv. Ag. handbook, No. 271, 1965.
  11. Fryer J.H., Ledig F.T., Microevolution of the photosynthetic temperature optimum in relation to the elevational complex gradient, Can. J. Bot. 50 (1972) 1231-1235.
  12. Greer D.H., Stanley C.J., Regulation of the loss of frost hardiness in Pinus radiata by photoperiod and temperature, Plant Cell Environ. 8 (1985) 111-116.
  13. Grossnickle S.C., Relationship between freezing tolerance and shoot water relations of western redcedar, Tree Physiol. 11 (1992) 229-240 [PubMed].
  14. Grossnickle S.C., Russell J.H., Gas exchange processes of yellow-cedar (Chamaecyparis nootkatensis (D. Don) Spach) in response to environmental variables, Can. J. Bot. 69 (1991) 2684-2691.
  15. Grossnickle S.C., Russell J.H., Changes in shoot water relations parameters of yellow-cedar (Chamaecyparis nootkatensis (D. Don) Spach) in response to environmental conditions, Can. J. Bot. 74 (1996) 31-39.
  16. Hall A.E., Mathematical models of plant water loss and plant water relations, in: Lange O.L., Nobel P.S., Osmond C.B., Ziegler H. (Eds.), Physiological Plant Ecology. II. Water Relations and Carbon Assimilation, Springer-Verlag, New York, NY, 1982, pp. 231-262.
  17. Harlow W.M., Harrar E.S., Textbook of dendrology, 5th ed. McGraw-Hill, 1969, 512 p.
  18. Hawkins B.J., Photoperiod and night frost influence the frost hardiness of Chamaecyparis nootkatensis clones, Can. J. For. Res. 23 (1993) 1408-1414.
  19. Hawkins B.J., McDonald S.E., Photoperiod influences dehardening of Chamaecyparis nootkatensis seedlings, Can. J. For. Res. 23 (1993) 2452-2454.
  20. Hawkins B.J., Russell J., Arnott J.T., Cold hardiness of yellow-cedar (Chamaecyparis nootkatensis (D. Don) Spach), in: Bigras F.J., Colombo S.J. (Eds.), Conifer Cold Hardiness, Kluwer Academic Publishers, The Netherlands, 2001, pp. 531-554.
  21. Hawkins B.J., Russell J., Shortt R., Effect of population, environment, and maturation on frost hardiness of yellow-cedar (Chamaecyparis nootkatensis), Can. J. For. Res. 24 (1994) 945-953.
  22. Hawkins B.J., Henry G., Whittington J., Frost hardiness of Thuja plicata and Pseudotsuga menziesii seedlings when nutrient supply varies with season, Can. J. For Res. 25 (1995) 1509-1513.
  23. Hawkins B.J., Davradou M., Pier D., Shortt R., Frost hardiness and winter photosynthesis of Thuja plicata and Pseudotsuga menziesii seedlings grown at three rates of nitrogen and phosphorus supply, Can. J. For. Res. 24 (1994) 18-28.
  24. Huitema B.E., The Analysis of Covariance and Alternatives, John Wiley & Sons, New York, 1980.
  25. Johansen D.A., Plant Microtechnique, McGraw-Hill, 1940.
  26. Kleinbaum D.G., Kupper L.L., Muller K.E., Applied regression analysis and other multivariable methods, 2nd ed., PWS-Kent Publishing Co. Boston, 1998.
  27. Krasowski M.J., Owens J.N., Growth and morphology of western redcedar seedlings as affected by photoperiod and moisture stress, Can J. For. Res. 21 (1991) 340-352.
  28. Lavender D.P., Sweet G.B., Zaerr J.B., Hermann R.K., Spring shoot growth in Douglas-fir may be initiated by gibberellins exported from the roots, Science, 182 (1973) 838-839.
  29. Ledig F.T., Korbobo D.R., Adaptation of sugar maple populations along altitudinal gradients: photosynthesis, respiration, and specific leaf weight, Am. J. Bot. 70 (1983) 256-265.
  30. Levitt J., Response of Plants to Environmental Stress. Vol. I. Chilling, Freezing and High Temperature Stress, Academic Press, New York, 1980.
  31. Ludlow M.M., Jarvis P.G., Photosynthesis in Sitka spruce (Picea sitchensis (Bong.) Carr.), J. Appl. Ecol. 8 (1971) 925-954.
  32. Major J.E., Grossnickle S.C., Folk R.S., Arnott J.T., Influence of nursery culture on western redcedar. I. Measurement of seedling attributes before fall and spring planting, New For. 8 (1994) 211-229.
  33. Neilson R.E., Jarvis P.G., Photosynthesis in Sitka spruce (Picea sitchensis (Bong.) Carr). VI. Response of stomata to temperature, J. Appl. Ecol. 12 (1976) 879-891.
  34. Öquist G., Effects of low temperature on photosynthesis, Plant Cell Environ. 6 (1983) 281-300.
  35. Owens J.N., Moder M., Reproductive cycles of western redcedar and yellow-cedar, Information Services Branch, British Columbia Ministry of Forests, Mesachie Lake, B.C., 1984.
  36. Perry T.O., Dormancy of trees in winter, Science 171 (1971) 29-36.
  37. Puttonen P., Arnott J.T., Influence of photoperiod and temperature on growth, gas exchange, and cold hardiness of yellow cypress (Chamaecyparis nootkatensis (D. Don) Spach) stecklings, Can. J. For. Res. 24 (1994) 1608-1616.
  38. Rehfeldt G.E., Genetic structure of western red cedar populations in the Interior West, Can. J. For. Res. 24 (1994) 670-680.
  39. Rehfeldt G.E., Quantitative analyses of the genetic structure of closely related conifers with disparate distributions and demographics: the Cupressus arizonica complex, Am. J. Bot. 84 (1997) 190-200.
  40. Russell J.H., Grossnickle S.C., Ferguson C., Carson D.W., Yellow-cedar stecklings: Nursery production and field performance, FRDA Rep. 148, 1990, 20 p.
  41. Sakai A., Larcher W., Frost Survival of Plants, Ecological Studies Vol. 62, Springer-Verlag, New York, 1987.
  42. Schaberg P.G., Wilkinson R.C., Shane J.B., Donnelly J.R., Cali P.F., Winter photosynthesis of red spruce from three Vermont seed sources, Tree Physiol. 15 (1995) 345-350 [PubMed].
  43. Schaberg P.G., Shane J.B., Hawley G.J., Strimbeck G.R., DeHayes D.H., Cali P.F., Donnelly J.R., Physiological changes in red spruce during a simulated winter thaw, Tree Physiol. 16 (1996) 567-574 [PubMed].
  44. Schwarz P.A., Fahey T.J., Dawson T.E., Seasonal air and soil temperature effects on photosynthesis in red spruce (Picea rubens) saplings, Tree Physiol. 17 (1997) 187-194 [PubMed].
  45. Silim N., Lavender D.P., Seasonal patterns and environmental regulation of frost hardiness in shoots of seedlings of Thuja plicata, Chamaecyparis nootkatensis, and Picea glauca, Can. J. Bot. 72 (1994) 309-316.
  46. Slatyer R.O., Ferrar P.J., Altitudinal variation in the photosynthesis characteristics of snow gum, Eucalyptus pauciflora Sieb. Ex Spreng. II. Effects of growth temperature under controlled conditions, Aust. J. Plant Physiol. 4 (1977) 289-299.
  47. Strand M., Lundmark T., Söderbergh I., Mellander P.E., Impacts of seasonal air and soil temperatures on photosynthesis in Scots pine trees, Tree Physiol. 22 (2002) 839-847 [PubMed].
  48. Strimbeck G.R., Schaberg P.G., DeHayes D.H., Shane J.B., Hawley G.J., Midwinter dehardening of montane red spruce during a natural thaw, Can. J. For. Res. 25 (1995) 2040-2044.
  49. Timmis R., Flewelling J., Talbert C., Frost injury prediction model for Douglas-fir seedlings in the Pacific Northwest, Tree Physiol. 14 (1994) 855-869 [PubMed].
  50. Tranquillini W., Physiological Ecology of the Alpine Timberline, Springer-Verlag, N.Y., 1979.
  51. Tranquillini W., Havranek W.M., Influence of temperature on photosynthesis in spruce provenances from different altitudes, in: Turner H., Tranquillini W. (Eds.), Establishment and Tending of Subalpine Forest: Research and Management, Proc. 3rd IUFRO Workshop P 1.07-00 Eidg. Anstl. Forstl. Versuchswes. Ber. 270, 1984, pp. 41-51.
  52. Van den Driessche R., Influence of moisture supply, temperature and light on frost-hardiness changes in Douglas-fir seedlings, Can. J. Bot. 47 (1969) 1765-1772.
  53. Waring R.H., Franklin J.F., Evergreen coniferous forests of the Pacific Northwest, Science, 204 (1979) 1380-1386.
  54. Weiser C.J., Cold resistance and injury in woody plants, Science, 169 (1970) 1269-1277.
  55. Wilkinson L., Hill M., Welna J.P., Birkenbeuel G.K., Systat® for windows (Version 5.0): Statistics, SPSS, Inc., Chicago, 1992.