• Journals
• Books
• Conferences

EDPS Account

• Login

• All issues
• Special issues
• About

Search

Menu

• All issues
• About the journal
  • Aims and scope
  • Copyright transfer
• Reader services

Advanced Search

All issues Volume 60 / No 3 (April 2003) Ann. For. Sci., 60 3 (2003) 277-284 References

• All issues
• About the journal
  • Aims and scope
  • Copyright transfer
• Reader services

Free Access

Issue		Ann. For. Sci. Volume 60, Number 3, April 2003
Page(s)		277 - 284
DOI		https://doi.org/10.1051/forest:2003019

References

1. Amundson R.G., Kohut R.J., Laurence J.A., Influence of foliar N on foliar soluble sugars and starch of red spruce sapling exposed to ambient and elevated ozone, Tree Physiol. 15 (1995) 167-174.
2. Agati G., Mazzinghi P., Paola M.L., Fusi F., Cecchi G., The F685/ F730 chlorophyll fluorescence ratio as an indicator of chilling stress in plants, J. Plant Physiol. 148 (1996) 384-390.
3. Aronsson A., Influence of photo- and thermoperiod on the initial stages of frost hardening and dehardening of phytotron-grown seedlings of Scots pine (Pinus sylvestris L.) and Norway spruce (Picea abies (L.) Karst.), Stud. For. Suec. 128 (1975) 1-20.
4. Binder W.D., Fielder P., Mohammed G.H., L'Hirondelle S.J., Applications of chlorophyll fluorescence for stock quality assessment with different types of fluorometers, New Forests 13 (1997) 63-89.
5. Bogeat-Triboulot M.B., Lévy G., Contribution of different solutes to the cell osmotic pressure in tap and lateral roots of maritime pine seedlings: effects of a potassium deficiency and of an all- macronutrient deficiency, Ann. Sci. For. 55 (1998) 315-327.
6. Bolhàr-Nordenkampf H.R., Óquist G., Chlorophyll fluorescence as a tool in photosynthesis research, in: Doll D.O., Scurlock J.M.O., Bolhàr-Nordenkampf H.R., Leegood R.C., Long S.P. (Eds.), Photosynthesis and production in a changing environment, Chapman & Hall, 1993, pp. 193-206.
7. Bréda N., Ménard J.-E., Notice d'utilisation du mille-pattes. Laboratoire de Bioclimatologie et d'Écophysiologie Forestière, INRA Nancy, France, 1992.
8. Burr K.E., The target seedling concepts: bud dormancy and cold-hardiness, in: Rose R., Campbell S.J., Landis T.D. (Eds.), Target seedling symposium: Proc., Combined Meeting Western Forest Nursery Associations, USDA Forest Service, GTR RM-200, 1990, pp. 79-90.
9. Burr K.E., Tinus R.W., Wallner S.J., King R.M., Relationships among cold hardiness, root growth potential and bud dormancy in three conifers, Tree Physiol. 5 (1989) 291-306.
10. Calamassi R., Della Rocca G., Falusi M., Paoletti E., Strati S., Resistance to water stress in seedlings of eight European provenances of Pinus halepensis Mill., Ann. For. Sci. 58 (2001) 663-672.
11. Cannell M.G.R., Tabbush P.M., Deans J.D., Hollinsworth M.K., Sheppard L.J., Philipson J.J., Murray M.B., Sitka spruce and Douglas-fir seedlings in the nursery and in cold storage: root growth potential, carbohydrate content, dormancy, frost hardiness and mitotic index, Forestry 63 (1990) 9-27.
12. Coursolle C., Bigras F.S., Margolis F.A., Herbert C., Growth and hardening of four provenances of containerized white spruce (Picea glauca (Moench) Voss) seedlings in response to the duration of 16 h long-night treatments, New Forests 16 (1998) 155-166.
13. Devisscher G., Huner N.P.A., Malek L., Variable chlorophyll a fluorescence as a potential indicator of black spruce seedling freezing tolerance under nursery conditions, Tree Planters' Notes 46 (1995) 107-111.
14. Duryea M.L., Evaluating seedling quality: importance to reforestation, in: Duryea M.L. (Ed.), Evaluating Seedling Quality: principles, procedures, and predictive abilities of major tests, Forest Research Laboratory, Oregon State University, Corvallis, OR, 1985, pp. 1-4.
15. Duryea M.L., McClain K.M., Altering seedling physiology to improve reforestation success, in: Duryea M.L., Brown G.N. (Eds.), Seedling physiology and reforestation success, Martinus Nijhoff/Dr W. Junk Publishers, Boston, 1984, pp. 77-114.
16. Edwards I.K., The effects of mineral nutrition on hardening-off of container seedlings, in: Proc. Intermountain Forest Nursery Association, August 14-18, 1989, Bismarck, North Dakota, USDA Forest Service, Gen. Techn. Report RM-184, 1989.
17. Ekramoddoullah A.K.M., Taylor D., Hawkins B.J., Characteriza- tion of a fall protein of sugar pine and detection of its homologue associated with frost hardiness of western white pine needles, Can. J. For. Res. 25 (1995) 1137-1147.
18. Fernández M., Gil L., Pardos J.A., Supervivencia y crecimiento en vivero de plantas de cinco procedencias de Pinus pinaster Ait. bajo diferentes regímenes hídricos, Invest. Agr.: Sist. Recur. For. 5 (1996) 20-44.
19. Fernández M., Puértolas J., Alonso J., Rodríguez M., Gil L., Pardos J.A., Efecto de la fertilización durante el periodo de endurecimiento sobre plantas de Pinus pinea L. producidas en contenedor, in: Junta de Castilla León (Ed.), Actas del 1er Simposio del pino pi nonero (Pinus pinea L.), Tomo I. Valladolid (Spain), February 22-24, 2000, pp. 183-190.
20. Folk R.S., Grossnickle S.C., Major J.E., Arnott J.T., Influence of nursery culture on western red cedar. II. Freezing tolerance and morphological development of fall- and spring-planted seedlings, New Forests 8 (1994) 231-247.
21. Gil L., Díaz P., Jiménez M.P., Roldán M., Alía R., Agúndez D., de Miguel J., Martín S., de Tuero M., Las regiones de procedencia de Pinus halepensis Mill. en Espa na, Organismo Autónomo Parques Nacionales, Madrid, 1996.
22. Gil-Albert Velarde F., La ecología del árbol frutal, MAPA, Madrid, 1989.
23. Gillies S.L., Binder W.D., The effect of sub-zero temperatures in the light and dark on cold-hardened, dehardened and newly flushed white spruce (Picea glauca [Moench.] Voss) seedlings, New Forests 13 (1997) 91-104.
24. Grossnickle S.C., Folk R.S., Stock quality assessment: forecasting survival and performance on a reforestation site, Tree Planters' Notes 44 (1993) 113-121.
25. Haase D.L., Rose R., Vector analysis and its use for interpreting plant nutrient shifts in response to silvicultural treatments, For. Sci. 41 (1995) 275-294.
26. 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. 25 (1995) 18-28.
27. Hawkins C.D.B., Shewan K.B., Frost hardiness, height and dormancy of 15 short-day, nursery-treated interior spruce seed lots, Can. J. For. Res. 30 (2000) 1096-1105.
28. Ingestad T., Macroelement nutrition of pine, spruce and birch seedlings in nutrient solutions, Medd. Skogsforsknings Inst. Stokolm, Sweden, 51 art. 7, 1962.
29. Ingestad T., Mineral nutrient requirements of Pinus sylvestris and Picea abies seedlings, Physiol. Plant. 45 (1979) 373-380.
30. Jalkanen A., Rikala R., Foliar nutrient composition in bareroot Pinus sylvestris nursery crops, New Forests 10 (1995) 225-237.
31. Ketchie D.O., Cold resistance of apple trees through the year and its relationship to the physiological stages, Acta Hort. 168 (1985) 131- 137.
32. Lambers H., Cambridge M.L., Konings H., Pons T.L., Causes and consequences of variation in growth rate and productivity of higher plants, SPB Academic Publishing bv, The Hague, The Netherlands, 1990.
33. Landis T.D., Tinus R.W., McDonald S.E., Barnett J.P., Seedling nutrition and irrigation. The container tree nursery manual. Vol. 4, Agric. Handbook 674, USDA, Washington DC, 1989.
34. Lantz C.W., Biesterfeldt R.C., Moorheal D.J., Aycock O.E., Barham R.O., Brissette J.C., Dierauf T.A., Dougherty P.M., Fryar R.D., Ross O.E., Schroeder R.A., Stauder A.F., Care and planting of Southern pine seedlings, U.S.D.A. Forest Service, Southern Region, Management Bulletin, RB-ME39, 1996.
35. Lavender D.P., Environment and shoot growth of woody plants, Forest Research Laboratory, Oregon State University, Corvallis, OR, Res. pap. 45, 1981.
36. Lavender D.P., Bud dormancy, in: Duryea M.L. (Ed.), Evaluating Seedling Quality: principles, procedures, and predictive abilities of major tests, Forest Research Laboratory, Oregon State University, Corvallis, OR, 1985, pp. 7-15.
37. Lavender D.P., Measuring phenology and dormancy, in: Lassoie J.P., Hinckley T.M. (Eds.), Techniques and approaches in forest tree ecophysiology, CRC Press, Inc., Boca Ratón, Florida, USA, 1991, pp. 403-422.
38. McDonald J.E., Lang G.A., Early development of bud dormancy in conifer seedlings, in: Plant dormancy: physiology, biochemistry and molecular biology, CAB International, Wallingford, UK, 1996, pp. 193-196.
39. Major J.E., Grossnickle S.C., Folk R.S., Arnott J.T., Influence of nursery culture on western red cedar. I. Measurement of seedlings attributes before fall and spring planting, New Forests 8 (1994) 211-229.
40. Massacci A., Jones H.G., Use of simultaneous analysis of gas- exchange and chlorophyll fluorescence quenching for analysing the effects of water stress on photosynthesis in apple leaves, Trees 4 (1990) 1-8.
41. Miller B.D., Timer V.R., Nutrient dynamics and carbon partitioning in nutrient loaded Picea mariana (Mill.) B.S.P. seedlings during hardening, Scand. J. For. Res. 12 (1997) 122-129.
42. Morgan J.M., Osmorregulation and water stress in higher plants, Ann. Rev. Plant. Physiol. 35 (1984) 299-319.
43. Nguyen A., Dormling I., Kremer A., Characterization of Pinus pinaster seedling growth in different photo- and thermoperiods in a phytotron as a basis for early selection, Scand. J. For. Res. 10 (1995) 129-139.
44. Noland T.L., Mohammed G.H., Scott M., The dependence of root growth potential on light level, photosynthesis rate, and root starch content in jack pine seedlings, New Forests 13 (1997) 105-119.
45. Ögren E., Nilsson T., Sundblad L.G., Relationship between respiratory depletion of sugars and loss of cold hardiness in coniferous seedlings over-wintering at raised temperatures: indications of different sensitivities of spruce and pine, Plant Cell Environ. 20 (1997) 247-253.
46. Oleksyn J., Tjoelker M.G., Reich P.B., Growth and biomass partitioning of populations of European Pinus sylvestris L. under simulated 50$^\circ$ and 60$^\circ$ N daylength: evidence for photoperiodic ecotypes, New Phytol. 120 (1992) 561-574.
47. Puértolas J., Fernández M., Pardos J.A., Effects of improved nursery fertilization in the use of Aleppo pine (Pinus halepensis Mill.) for afforestation of abandoned agricultural land, Proceedings of International Conference of Forest Ecosystem Restoration, Ecological and Economical Impacts of Restoration Processes in Secondary Coniferous Forests, April 2000, Viena, 2000.
48. Rikala R., Repo T., The effect of late summer fertilization on the frost hardening of second-year Scots pine seedlings, New Forests 14 (1997) 33-44.
49. Ritchie G.A., Assessing seedling quality, in: Duryea M.L., Landis T.D. (Eds.), Forest nursery manual: production of bareroot seedlings, Martinus Nijhoff/Dr. W. Junk Publishers, The Hague, 1984, pp. 243-259.
50. Ritchie G.A., Root growth potential: principles, procedures and predictive ability, in: Duryea M.L. (Ed.), Proc. of Workshop evaluating seedling quality: principles, procedures, and predictive abilities of major tests, Oregon State University, Corvallis, OR, USA, 1985, pp. 93-105.
51. Ritchie G.A., Dunlap J.R., Root growth potential: its development and expression in forest tree seedlings, N.Z.J. For. Sci. 10 (1980) 218-248.
52. Roberts K.K., Zwiazek J.J., Periodic chilling exposure during nursery culture. Effects on growth, morphology and drought resistance of containerized white spruce seedlings, New Forests 18 (1999) 301-314.
53. Rose R., Root growth potential and starch differences in seedlings of six families of genetically improved loblolly pine, For. Sci. 38 (1992) 448-456.
54. Rose R., Carlson W.C., Morgan P., The target seedling concept, in: Rose R., Campbell S.J., Landis T.D. (Eds.), Target seedling symposium: Proc., Combined Meeting Western Forest Nursery Associations, USDA Forest Service, GTR RM-200, 1990, pp. 1-8.
55. Rose R.W., Rose C.L., Omi S.K., Forry K.R., Durall D.M., Bigg, W.L., Starch determination by perchloric acid vs. enzymes: evaluating the accuracy and precision of six colorimetric methods, J. Agric. Food. Chem. 39 (1991) 2-11.
56. Royo A., La calidad de la planta forestal y su relación con el comportamiento en campo. Aplicación a Pinus halepensis Mill., Pinus pinaster Ait. y Quercus ilex L., Ph.D. thesis, Escuela Técnica Superior de Ingenieros de Montes, UPM, Madrid, 1998.
57. Royo A., Fernández M., Gil L., Pardos J.A., Assessing hardiness of Aleppo pine, maritime pine and holm oak seedlings by electrolyte leakage and water potential methods, Tree Planters' Notes 50 (2003) 38-43.
58. Simpson D.G., Frost hardiness, root growth capacity, and field performance relationships in interior spruce, lodgepole pine, Douglas-fir, and western hemlock seedlings, Can. J. For. Res. 20 (1990) 566-572.
59. Sperry J.S., Donnelly J.R., Tyree M.T., A method for measuring hydraulic conductivity and embolism in xylem, Plant, Cell Environ. 11 (1988) 35-40.
60. Spiro R.G., Analysis of sugars found in glycoproteins, in: Neufeld E.F., Ginsburg V. (Eds.), Methods in enzymology. Vol. VIII, Complex carbohydrates, Academic Press, New York, 1966, pp. 3-26.
61. Tinus R.W., McDonald S.E., How to grow tree seedlings in containers in greenhouses, USDA Forest Service, Gen. Tech. Rep. RM-60, 1979.
62. Van den Driessche R., Importance of current photosyntate to new root growth in planted conifer seedlings, Can. J. For. Res. 17 (1987) 776-782.
63. Villar-Salvador P., Oca na L., Pe nuelas J., Carrasco I., Effects of water stress conditioning on the water relations, root growth capacity, and the nitrogen and non-structural carbohydrate concentration of Pinus halepensis Mill. (Aleppo pine) seedlings, Ann. For. Sci. 56 (1999) 459-465.
64. Williams H.M., South D.B., Edwards M.B., Root growth potential and field survival of container loblolly pine seedlings fall fertilized with nitrogen, in: Proc. of the Eighth Biennial Southern Silvicultural Research Conference, Auburn, Alabama, Gen. Tech. Rep. Southern Research Station, USDA Forest Service, SRS-1, 1995, pp. 357-363.
65. Youngberg C.T., Soil and tissue analysis: tools for maintaining soil fertility, in: Duryea M.L., Landis T.D. (Eds.), Forest nursery manual: production bareroot seedlings, Martinus Nijhoff/Dr. W. Junk Publishers, Boston, USA, 1984, pp. 75-80.
66. Zaerr J.B., Cleary B.D., Scheduling irrigation to induce seedling dormancy, in: Proc. Intermountain Nurserymen's Association and Western Forest Nursery Association, USDA Forest Service, GTR, INT-109, 1981, pp. 74-79.

Abstract

Homepage

Table of Contents

Previous articleNext article

Article

• Abstract
• PDF (207.8 KB)
• References

Services

• Articles citing this article
  
  CrossRef (23)
• Same authors
  
  - Google Scholar
  - EDP Sciences database
  - PubMed
• Recommend this article
• Download citation

Related Articles

Chlorophyll fluorescence characteristics, performance and survival of freshly lifted and cold stored Douglas fir seedlings
Ann. For. Sci. 58, 225-235 (2001)

Geographic variation and bud dormancy in beech seedlings (Fagus sylvatica L)
Ann. For. Sci. 53, 967-979 (1996)

Physiological and morphological responses of dormant and growing Norway spruce container seedlings to drought after planting
Ann. For. Sci. 62, 201-207 (2005)

Predicted global warming and Douglas-fir chilling requirements
Ann. For. Sci. 47, 325-330 (1990)

Divergence among species and populations of Mediterranean pines in biomass allocation of seedlings grown under two watering regimes
Ann. For. Sci. 64, 87-97 (2007)

More

Bookmarking

• Reader's services
• Email-alert

Annals of Forest Science

ISSN: 1286-4560 - eISSN: 1297-966X
© INRA / EDP Sciences

• Mentions légales
• Contacts
• Privacy policy

A Vision4Press website