Free access
Ann. For. Sci.
Volume 58, Number 2, February-March 2001
Page(s) 155 - 164


Aussenac G., Interactions between forest stands and microclimate: Ecophysiological aspects and consequences for silviculture, Ann. For. Sci. 57 (2000) 287-301.
Brádzil R., Dobrý J., Kyncl J., SLtephánová P., Rekonstrukce teploty vzduchu teplého pulroko v oblasi Krkonos na základe lektokruhu smrku v obdobi 1804-1989 [Reconstruction of air temperature for the summer season in the Giant Mts. based on tree-rings of spruce during the period 1804-1989], Geografie-Sbornik Ceské Geprafické Spolecnosti 102 (1997) 3-16.
Burger H., Untersuchungen über das Höhenwachstum verschiedener Holzarten. [Studies on the height increment of different wood species], Mitt. Schweiz. Anst. forstl. Versuchswes. 14 (1926) 29-158.
Burger H., Die Lebensdauer der Fichtennadeln. [The longevity of spruce needles], Schweiz. Zeitschr. Forstwes. 78 (1927) 372-375.
Clements J.R., Shoot responses of young red pine to watering applied over two seasons, Can. J. Bot. 48 (1970) 75-80.
Cook E.R., Peters K., The smoothing spline: a new approach to standardizing forest interior tree-ring-width series for dendroclimatic studies, Tree-Ring Bulletin 41 (1981) 45-53.
Eckstein D., On the application of dendrochronology for the evaluation of forest damage, in: IUFRO Conf. on Inventorying and Monitoring Endangered Forests, Zürich, 1985, pp. 287-290.
Ewers F.W., Schmid R., Longevity of needle fasciles of Pinus longaeva (Bristlecone pine) and other North American pines, Oecologia 51 (1981) 107-115.
Fritts H.C., Tree rings and climate, Academic Press, London, New York, San Francisco, 1976.
Gower S.T., Reich P., Son Y., Canopy dynamics and aboveground production of five tree species with different leaf longevities, Tree Physiol. 12 (1993) 327-345.
Gruber F., Beiträge zum morphogenetischen Zyklus der Knospe, zur Phyllotaxis und zum Triebwachstum der Fichte (Picea abies [L.] Karst.) auf unterschiedlichen Standorten. [Contribution on the morphogenetic cycle of the bud, on the phyllotaxis, and on the shoot growth of spruce on different sites]. Berichte des Forschungszentrums Waldökosysteme/Waldsterben, Univ. Göttingen, Reihe A, Bd. 25, 1987.
Gruber F, Verzweigungssystem, Benadelung und Nadelfall der Fichte (Picea abies). [Branching, needle foliage and needle fall of Norway spruce (Picea abies)], Birkhäuser Verl., Boston, Berlin, 1990.
Guiot J., The bootstrapped response function, Tree-Ring Bulletin 51 (1993) 39-41.
Holmes R.L., Adams R.K., Fritts H.C., Tree-ring chronologies of Western North America: California, Eastern Oregon and Northern Great Basin, Chronology Series IV, Tuscon, University of Arizona, 1987.
Holmes R.L., Dendrochronology Program Library - Users Manual. Laboratory of Tree-Ring Research, University of Arizona, Tucson, Arizona USA, 1994.
Jalkanen R., Kurkela T., Needle retention, age, shedding and budget, and growth of Scots pine between 1865 and 1988, in: Kauppi P. et al. (Eds.), Acidification in Finland, Springer Verlag, Berlin, Heidelberg, 1990.
Jalkanen R., Aalto T., Kurkela T., The use of needle-trace method (NTM) in retrospectively detecting Lophodermella needle-cast epidemic, Eur. J. For. Path. 24 (1994) 376-385.
Jalkanen R., Aalto T., Kurkela T., Development of needle retention in Scots pine (Pinus sylvestris) in 1957-1991 in northern and southern Finland, Trees 10 (1995) 125-133.
Kaufmann M.R., Troendle C.A., The relationship of leaf area and foliage biomass to sapwood conducting area in four subalpine forest tree species, Forest Sci. 27 (1981) 477-482.
Kurkela T. Jalkanen R., Revealing past needle retention in Pinus spp., Scand. J. For. Res. 5 (1990) 481-485.
Mencuccini M, Grace J., Hydraulic conductance, light interception and needle nutrient concentration in Scots pine stand and their relations with net primary productivity, Tree Physiol. 16 (1996) 459-468.
Oren R., Werk K.S., Schulze E.D., Relationships between foliage and conducting xylem in Picea abies (L.) Karst., Trees 1 (1986) 61-69.
Roloff A., Entwicklung und Flexibilität der Baumkrone und ihre Bedeutung als Vitalitätsweiser. II. Kronenentwicklung und Vitalitätsbeurteilung der Eichen, Reiterationen, Kurztrieblebensdauer und Beziehungen zwischen Krone und Wurzel [Development and flexibility of the tree crown and its relevance as a vitality indicator. II. Crown development and vitality indication of oak, reiterations, short shoot longevity and relation between crown and root], Schweiz. Zeitschr. Forstwes. 140 (1989) 943-963.
Sander C., Retrospektive Erfassung der Benadelung von Fichten (Picea abies [L.] Karst) mit Hilfe des Nadelspurverfahrens. [Retrospective assessment of the foliation of spruce by means of the needle trace method], Dissertation Thesis, Univ. Hamburg, 1997.
Sander C., Eckstein D., Reconstruction of the foliation of Picea abies by means of needle traces, Scand. J. For. Res. 9 (1994) 311-315.
Sander C., Eckstein D., Retrospektive Erfassung der Benadelung von Fichten anhand der Nadelspuren im Stamm. [Retrospective assessment of the foliation of spruce by means of needle traces in the trunk], Forst und Holz 52 (1997) 643-646.
Sander C., Eckstein D., Kyncl J., Dobry J., The growth of spruce (Picea abies (L.) Karst.) in the Krkonosle-(Giant) Mts. as indicated by ring width and wood density, Ann. Sci. Forest. 52 (1995) 401-410.
Schweingruber F., Der Jahrring: Standort, Methodik, Zeit und Klima in der Dendrochronologie. [The annual ring: site, methodology, time and climate in dendrochronology], Haupt Verlag, Bern, Stuttgart, 1983.
Shinozaki K., Yoda K., Hozumi K., Kira T., A quantitative analysis of plant form - the pipe model theory. I + II, Jap. J. Ecol. 14 (1964) 97-105; 133-139.
Vacek S., Lep s J., Changes in the horizontal structure in a spruce forest over a 9-year period of pollutant exposure in the Krkonose Mountains, Czechoslovakia, Forest Ecology and Management 22 (1987) 291-295.
Valentine H.T., Gregoire T.G., Burkhart H.E., Hollinger D.Y., A stand-level model of carbon allocation and growth, calibrated for loblolly pine, Can. J. For. Res. 27 (1997) 817-830.
Vanselow K., Krone und Zuwachs der Fichte in gleichaltrigen Reinbeständen. [Crown and increment of spruce in even-aged stands], Forstwiss. Centralbl. 70 (1951) 705-719.
Worral J., Mergen F., Environmental and genetic control of dormancy in Picea abies, Physiol. Plant. 20 (1967) 733-745.
Zederbauer E., Beiträge zur Biologie der Waldbäume. II. Lebensdauer der Blätter. [Contribution on the biology of forest trees], Centralbl. Ges. Forstw. 42 (1916) 339-341.


Copyright INRA, EDP Sciences