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All issues Volume 60 / No 6 (September 2003) Ann. For. Sci., 60 6 (2003) 503-508 References
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Issue
Ann. For. Sci.
Volume 60, Number 6, September 2003
Page(s) 503 - 508
DOI https://doi.org/10.1051/forest:2003043
References of  Ann. For. Sci. 60 (2003) 503-508
  1. Ammann M., Siegwolf R., Pichlmayer F., Suter M., Saurer M., Brunold C., Estimating the uptake of traffic-derived NO2 from the 15N abundance in Norway spruce needles, Oecologia 118 (1999) 124-131  [CROSSREF link].
  2. Badeau V., Dupouey J.L., Becker M., Picard J.F., Long-term growth trends of Fagus sylvatica L. in North-eastern France, A comparison between high and low density stands, Acta Oecol. 16 (1995) 571-583.
  3. Badeau V., Becker M., Bert D., Dupouey J.L., Lebourgeois F., Picard J.F., Long-term growth trends of trees: ten years of dendrochronological studies in France, in: Spiecker H., Mielikäinen K., Köhl M., Skovsgaard J.P. (Eds.), Growth trends in European forests, Berlin, Springer Verlag, 1996, pp. 167-181.
  4. Bao W., O'Malley D.M., Sederoff R.R., Wood contains a cell wall structural protein, Proc. Natl. Acad. Sci. USA 89 (1992) 6604-6608  [PUBMED link].
  5. Becker M., Bert G.D., Bouchon J., Dupouey J.L., Picard J.F., Ulrich E., Long-term changes in forest productivity in north-eastern France: the dendroecological approach, in: Landmann G., Bonneau M. (Eds.), Forest decline and atmospheric deposition effects in the French mountains, Springer, Berlin Heidelberg New York, 1995, pp. 143-156.
  6. Cutter B.E., Guyette R.P., Anatomical, chemical and ecological factors affecting tree species choice in dendrochemistry studies, J. Environ. Qual. 22 (1993) 611-619.
  7. Dill I., Salnikow J., Kraepelin G., Hydroxyproline-rich protein material in wood and lignin of Fagus sylvatica, Appl. Environ. Microbiol. 48 (1984) 1259-1261.
  8. Duquesnay A., Dupouey J.L., Clement A., Ulrich E., Le Tacon F., Spatial and temporal variability of foliar mineral concentration in beech (Fagus sylvatica) stands in northeastern France, Tree Physiol. 20 (2000) 13-22  [PUBMED link].
  9. Flückiger W., Braun S., Nitrogen deposition in Swiss forests and its possible relevance for leaf nutrient status, parasite attacks and soil acidification, Environ. Pollut. 102, S1 (1998) 69-76.
  10. Garten C.T., Jr., van Miegroet H., Relationships between soil nitrogen dynamics and natural 15N abundance in plant foliage from Great Smoky Mountains National Park, Can. J. For. Res. 24 (1994) 1636-1645.
  11. Granier A., Biron P., Lemoine D., Water balance, transpiration and canopy conductance in two beech stands, Agric. For. Meteorol. 100 (2000) 291-308  [CROSSREF link].
  12. Handley L.L., Scrimgeour C.M., Terrestrial plant ecology and 15N natural abundance: the present limits to interpretation for uncultivated systems with original data from a Scottish old field, Adv. Ecol. Res. 27 (1997) 133-212.
  13. Högberg P., 15N natural abundance in soil-plant systems, New Phytol. 137 (1997) 179-203  [CROSSREF link].
  14. Koerner W., Dambrine E., Dupouey J.L., Benoît M., $\delta ^{15}$N of forest soil and understorey vegetation reflect the former agricultural land use, Oecologia 121 (1999) 421-425  [CROSSREF link].
  15. Nõmmik H., The uptake and translocation of fertilizer N15 in young trees of Scots pine and Norway spruce, Stud. For. Suec. 35 (1966) 1-18.
  16. Norby R.J., Nitrogen deposition: a component of global change analyses, New Phytol. 139 (1998) 189-200  [CROSSREF link].
  17. Penninckx V., Glineur S., Gruber W., Herbauts J., Meerts P., Radial variations in wood mineral element concentration: a comparison of beech and pedunculate oak from the Belgian Ardennes, Ann. For. Sci. 58 (2001) 253-260  [EDPS link].
  18. Peñuelas J., Estiarte M., Trends in plant carbon concentration and plant demand for N throughout this Century, Oecologia 109 (1997) 69-73  [CROSSREF link].
  19. Poulson S.R., Chamberlain C.P., Friedland A.J., Nitrogen isotope variation of tree rings as a potential indicator of environmental change, Chemical Geology 125 (1995) 307-315  [CROSSREF link].
  20. Sauter J.J., van Cleve B., Biochemical, immunochemical and ultrastructural studies of protein storage in poplar (Populus x canadensis "robusta") wood, Planta 183 (1990) 92-100.
  21. Sheppard P.R., Thompson T.L., Effect of extraction pre-treatment on radial variation of nitrogen concentration in tree rings, J. Environ. Qual. 29 (2000) 2037-2042.
  22. Spiecker H., Mielikäinen K., Köhl M., Skovsgaard J.P., Growth trends in European forests. EFI, Springer Verlag, Berlin, 1996.
  23. Stewart G.R., What do $\delta ^{15}$N signatures tell us about nitrogen relations in natural ecosystems? in: Unkovich M., Pate J., McNeill A., Gibbs D.J. (Eds.), Stable isotopes techniques in the study of biological processes and functioning of ecosystems, 2001, pp. 91-101.
  24. Tollier M.T., Lapierre C., Monties B., Rolando C., Hervé du Penhoat C., Inhomogeneity of angiosperm lignin: comparison of the monomeric composition of lignan fractions isolated from different wood species, Holzforschung 40 (Suppl.) (1986) 75-79.
  25. Yoneyama T., Kouno K., Yazaki J., Variation of natural 15N abundance of crops and soils in Japan with special reference to the effect of soil conditions and fertilizer application, Soil Sci. Plant Nutr. 36 (1990) 667-675.
  26. Zeller B., Colin-Belgrand M., Dambrine E., Martin F., 15N partitioning and production of 15N-labelled litter in beech trees following [ 15N] urea spray, Ann. Sci. For. 55 (1998) 375-383.