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Forstwissenschaftliches Centralblatt

, Volume 104, Issue 1, pp 186–198 | Cite as

Eine Methode zur raschen Charakterisierung der photosynthetischen Leistungsfähigkeit von Bäumen unter Freilandbedingungen—Anwendung zur Analyse «neuartiger Waldschäden” bei der Fichte

  • O. L. Lange
  • J. Gebel
  • E. -D. Schulze
  • H. Walz
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Literatur

  1. Björkman, O., 1981: Responses to different quantum flux densities. In: Encyclopedia of Plant Physiology, New Series Vol. 12A (ed.O. L. Lange, P.S. Nobel, C. B. Osmond, H. Ziegler), 57–107. Springer: Berlin, Heidelberg, New York.Google Scholar
  2. Caemmerer, S. von;Farquhar, G. D., 1981: Some relationships between the biochemistry of photosynthesis and the gas exchange of leaves. Planta153, 376–387.CrossRefGoogle Scholar
  3. Davies, C. E., Benecke, U., 1980: Fluidized bed coating of conifer needles with glass beads for determination of leaf surface area. Forest Sci.26, 29–32.Google Scholar
  4. Fuchs, M., Schulze, E.-D., Fuchs, M. I., 1977: Spacial distribution of photosynthetic capacity and performance in a mountain spruce forest in Northern Germany. II. Climatic control of carbon dioxide uptake. Oecologia29, 329–340.CrossRefGoogle Scholar
  5. Guderian, R., 1977: Air pollution—phytotoxicity of acidic gases and its significance in air pollution control. Ecological Studies, Vol. 22. Springer: Berlin, Heidelberg, New York.Google Scholar
  6. Hällgren, J.-E., 1984: Photosynthetic gas exchange in leaves affected by air pollutants. In: Gaseous Air Pollutants and Plant Metabolism, (ed.M. J. Koziol, F. R. Whatley), 147–159. Butterworths: London.CrossRefGoogle Scholar
  7. Koch, W.;Lange, O. L.;Schulze, E.-D., 1971: Ecophysiological investigations on wild and cultivated plants in the Negev Desert. I. Methods: A mobile laboratory for measuring carbon dioxide and water vapour exchange. Oecologia8, 296–309.CrossRefGoogle Scholar
  8. Lange, O. L.;Beyschlag, W.;Meyer, A.;Tenhunen, J. D., 1984a: Determination of of lichens in the field—a method for measurement of light response curves at saturating CO2-concentration. Flora175, 283–293CrossRefGoogle Scholar
  9. Lange, O. L., Kilian, E., Meyer, A., Tenhunen, J. D., 1984b: Measurement of lichen photosynthesis in the field with a portable steady-state CO2-porometer. Lichenologist16, 1–9.CrossRefGoogle Scholar
  10. Lange, O. L.;Schulze, E.-D., 1971: Measurement of CO2 gas-exchange and transpiration in the beech (Fagus sylvatica L.) In: Ecological Studies, Vol. 2 (ed.H. Ellenberg), 16–28. Springer: Berlin, Heidelberg, New York.Google Scholar
  11. Lange, O. L.;Tenhunen, J. D., 1984: A minicuvette system for measurement of CO2 exchange and transpiration of plants under controlled conditions in field and laboratory. Selbstverlag H. Walz, EffeltrichGoogle Scholar
  12. Lendzian, K. J.;Unsworth, M. H., 1983: Ecophysiological effects of atmospheric pollutants. In: Encyclopedia of Plant Physiology, New Series Vol. 12 D (ed.O. L. Lange, P. S. Nobel, C.B. Osmond, H. Ziegler), 465–502. Springer: Berlin, Heidelberg, New York.Google Scholar
  13. Lichtenthaler, H. K.;Buschmann, C., 1984: Beziehungen zwischen Photosynthese und Baumsterben. AFZ39, 12–16.Google Scholar
  14. Pisek, A.;Winkler, E., 1958: Assimilationsvermögen und Respiration der Fichte (Picea excelsa Link) in verschiedener Höhenlage und der Zirbe (Pinus cembra L.) an der alpinen Waldgrenze. Planta51, 518–543.CrossRefGoogle Scholar
  15. Rehfuess, K.-E., 1983: Walderkrankungen und Immission—eine Zwischenbilanz. AFZ24, 601–610.Google Scholar
  16. Schulze, E.-D.;Fuchs, M. I.;Fuchs, M., 1977: Spacial distribution of photosynthetic capacity and performance in a mountain spruce forest of Northern Germany. I. Biomass distribution and daily CO2-uptake in different crown layers. Oecologia29, 43–61.CrossRefGoogle Scholar
  17. Schulze, E.-D.;Hall, E. H.;Lange, O. L.;Walz, H., 1982: A portable steady-state porometer for measuring the carbon dioxide and water vapour exchange of leaves under natural conditions. Oecologia53, 141–145.CrossRefGoogle Scholar
  18. Šesták, Z., 1977: Photosynthetic characteristics during ontogenesis of leaves. 2. Photosystems, components of electron transport chain and photophosphorylations. Photosynthetica11, 449–474.Google Scholar
  19. Tenhunen, J. D.;Lange, O. L.;Gebel, J.;Beyschlag, W.;Weber, J. A., 1984: Changes in photosynthetic capacity, carboxylation efficiency, and CO2 compensation point associated with midday stomatal closure and midday depression of net CO2 exchange of leaves ofQuercus suber. Planta162, 193–203.CrossRefGoogle Scholar
  20. Thompson, F. B.;Leyton, L., 1971: Method for measuring the leaf surface of complex shoots. Nature229, 572.CrossRefGoogle Scholar
  21. Tichá, I.;Čatský, J., 1981: Photosynthetic characteristics during ontogenesis of leaves. 5. Carbon dioxide compensation concentration. Photosynthetica15, 401–428.Google Scholar
  22. Ulrich, B., 1980: Die Wälder in Mitteleuropa: Meßergebnisse ihrer Umweltbelastung, Theorie ihrer Gefährdung, Prognose ihrer Entwicklung. AFZ44, 1198–1202.Google Scholar
  23. Zech, W.;Popp, E., 1983: Magnesiummagel, einer der Gründe für das Fichten- und Tannensterben in NO-Bayern. Forstw. Cbl.102, 50–55.CrossRefGoogle Scholar
  24. Ziegler, I., 1975: The effect of SO2 pollution on plant metabolism. Residue Rev.56, 79–105.Google Scholar

Copyright information

© Verlag Parey 1985

Authors and Affiliations

  • O. L. Lange
    • 1
  • J. Gebel
    • 1
  • E. -D. Schulze
    • 2
  • H. Walz
    • 3
  1. 1.Lehrstuhl für Botanik II der Universität WürzburgWürzburg
  2. 2.Lehrstuhl für Pflanzenökologie der Universität BayreuthBayreuth
  3. 3.Meß- und RegeltechnikEffeltrich

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