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Ann. For. Sci.
Volume 57, Number 1, January 2000
Page(s) 1 - 8


Andersson M., Toxicity and tolerance of aluminium in vascular plants, Water Air Soil Pollut. 39 (1988) 439-462.

Aronsson A., Indikationer på stress vid obalans i trädens växtnäringsinnehåll, K. Skogs- o. Lantbr.akad. tidskr. Suppl. 17 (1985) 40-51 (in Swedish).

Balsberg Påhlsson A.-M., Mineral nutrients, carbohydrates and phenolic compounds in leaves of beech (Fagus sylvatica L.) in southern Sweden as related to environmental factors, Tree Physiol. 5 (1989) 485-495.

Balsberg Påhlsson A.-M., Influence of nitrogen fertilization on minerals, carbohydrates, amino acids and phenolic compounds in beech (Fagus sylvatica L.) leaves, Tree Physiol. 10 (1992) 93-100.

Bergkvist B., Folkesson L., Soil acidification and element fluxes of a Fagus sylvatica forest as influenced by simulated nitrogen deposition, Water Air Soil Pollut. 65 (1992) 111-133.

Boxman A., Van der Ven P., Roelofs J., Ecosystem recovery after a decrease in nitrogen input to a Scots pine stand at Ysselsteyn, the Netherlands, For. Ecol. Manag. 101 (1998) 155-163.

Bredemeier M., Blanck K., Dohrenbusch A., Lamersdorf N., Meyer A.C., Murach D., Parth A., Xu Y.-J., The Solling roof project - site characteristics, experiments and results, For. Ecol. Manag. 101 (1998) 281-293.

Burke M.K., Raynal D.J., Mitchell M.J., Soil nitrogen availability influences seasonal carbon allocation patterns in sugar maple (Acer saccharum), Can. J. For. Res. 22 (1992) 447-456.

Evers F.H., Hüttl R.F., A new fertilization strategy in declining forests, Water Air Soil Pollut. 54 (1990/91) 495-508.

Falkengren-Grerup U., Eriksson H., Changes in soil, vegetation and forest yield between 1947 and 1988 in beech and oak sites of southern Sweden, For. Ecol. Manag. 38 (1990) 37-53.

Falkengren-Grerup U., Tyler G., Changes of cation pools of the topsoil in south Swedish beech forests between 1979 and 1989, Scand. J. For. Res. 6 (1991) 145-152.

Fitter A.H., Hay R.K.M., Environmental physiology of plants, 2 ed. Academic press, London, ISBN 0-12-257764-7, 1993.

Fransman B., Bramryd T., Barkaska som vitaliseringsmedel i samband med bokföryngring. Ynde-projektet, Ekol. inst. University of Lund. (In Swedish) 1996.

Glavac V., Koenies H., Ebben U., Seasonal variations in mineral concentrations in the trunk xylem sap of beech (Fagus sylvatica L.) in a 42-year-old beech forest stand, New Phytol. 116 (1990) 47-54.

Grubb P.J., Edwards P.J., Studies of mineral cycling in a montane rain forest in New Guinea, J. Ecol. 70 (1982) 623-648.

Hartmann G., Blank R., Etiology of oak decline in northern Germany. History, symptoms, biotic and climatic predisposition, pathology, in: Luisi N., Lerario P. and Vannini A (Eds.), Recent advances in studies on oak decline, Tipolitografia radio, Putignano Baic, ISBN 88-86337-00-0, 1993.

Liljelund L.-E., Nihlgård B., in: Andersson F. and Persson T. (Eds.) Liming as a measure to improve soil and tree condition in areas affected by air pollution, Swedish Environmental Protection Agency report 3518, 1988.

Ljungström M. and Nihlgård B., Effects of lime and phosphate additions on nutrient status and growth of beech (Fagus sylvatica L.) seedlings, For. Ecol. Manag. 74 (1995) 133-148.

Marschner H., Mineral nutrition of higher plants, Academic press, Belfast, ISBN 0-12-473540-1, 1986.

McLaughlin S.B., Shriner D.S., Allocation of resources to defence and repair, in: Horsfall J.G. and Cowling E.B. (Eds.), Plant disease, Vol. V. Academic Press, New York, ISBN 0-12-356405-0, 1980.

Nihlgård B., Forest decline and environmental stress, in: Brune D., Chapman D.V., Gwynne M.D. and Pacyna J.M. (Eds.), The global environment; science, technology and management, Scandinavia Science Publ., Oslo, ISBN 3-527-28771-x. 1997.

Perrin R., Garbaye J., Influence de la nutrition de hêtre (Fagus sylvatica L.) sur la sensibilité au chancre provoqué par Nectria ditissima Tul., Ann. Sci. For. 41 (1984) 449-460 (in French).

Scheffer, Schachtschabel P., Lehrbuch der Bodenkunde. 12ed., Ferdinand Enke Verlag, Stuttgart, ISBN 3 432 84772 6, 1989.

Skeffington R.A., Wilson E.J., Excess nitrogen deposition: Issues for consideration, Environ. Pollut. 54 (1988) 159-184.

Sokal R.R., Rohlf F.J., Biometry. 3ed., Freeman and Company, New York, ISBN 0-7167-2411-1, 1995.

Sverdrup H., Warfvinge P., Critical loads of acidity for Swedish forest ecosystems, Ecol. Bull. 44 (1995) 75-89.

Thomas F.M., Büttner G., Excess nitrogen, drought, and winter frost as possible predisposing factors of oak decline in northern Germany, in: Luisi N., Lerario P. and Vannini A. (Eds.), Recent advances in studies on oak decline, Tipolitografia radio, Putignano Baic, ISBN 88-86337-00-0, 1993.

Thomas F.M., Blank R., The effect of excess nitrogen and of insect defoliation on the frost hardiness of bark tissue of adult oaks, Ann. Sci. For. 53 (1996) 395-406.

Timmer V.R., Effect of fertilization on nutrient concentrations of white spruce foliage and bark, For. Sci. 25 (1979) 115-119.

Tyler G., Acidification and Chemical Properties of Fagus sylvatica L. Forest Soils, Scand. J. For. Res. 2 (1987) 263-271.

Ulrich B., Soil acidity and its relations to acid deposition, in: Ulrich B. and Pankrath J.D. (Eds.), Effects of accumulation of air pollution in forest ecosystems, Reidel Publ. Co., Dortrecht, 1983.

Wargo P.M., Amino nitrogen and phenolic constituents of bark of American beech (Fagus grandifolia) and infestation by beech scale (Cryptococcus fagisuga), Eur. J. For. Pathol. 18 (1988) 279-290.

Wargo P.M., Consequences of environmental stress on oak: predisposition to pathogens, Ann. Sci. For. 53 (1996) 359-368.


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