Modelling the Effect of Sulfur Dioxide, Hydrogen Sulfite and Sulfite on the Metabolisw of Plants

  • M. Plöchl
  • F. W. Badeck
  • G. H. Kohlmaier

Abstract

Decrease of gross photosynthesis and increase of dark respiration are discussed as main effects of sulfur dioxide and its derivatives on vegetation. The nature of inhibition of the ribulose bisphosphate carboxylase as the main enzyme of the Calvin cycle is examined in model simulations. First simulation runs are compared with measurements under controlled conditions. Further simulation runs combine effects of climate and air pollution under ambient conditions. The effect of SO2 on net photosynthesis is measurable at relative high SO2 concentrations (more than 100 ppb) but seems to be neglectable at ambient conditions.

Keywords

Calvin Cycle Dark Respiration Stomatal Resistance Ribulose Bisphosphate Ribulose Bisphosphate Carboxylase 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Black, V. J.; Unsworth, M. H. (1979). Effects of low concentrations of Sulphur dioxide on net photosynthesis and dark respiration of Vicia faba. J. Exp. Bot. 30: 473–483.CrossRefGoogle Scholar
  2. Darrall, N.M. (1988). The sensitivity of net photosynthesis in several plant species to short-term fumigation with Sulphur dioxide. J. Exp. Bot. 37: 1313–1322.CrossRefGoogle Scholar
  3. Gezelius, K.; Hällgren, J.-E. (1980). Effect of S03 2- on the activity of ribulose bisphosphate carboxylase from seedlings of Pinus sivestris. Physiol. Plant. 49: 354–358.CrossRefGoogle Scholar
  4. Keller, T. (1978). Einfluss niedriger S02-Konzentrationen auf die C02-Aufnahme von Fichte und Tanne. Photosynthetica 12(3): 316–322.Google Scholar
  5. Keller, T. & Häsler, R. (1986). The influence of a prolonged S02 fumigation on the stomatal reaction of spruce. Eur. J. For. Path. 16: 110–115.CrossRefGoogle Scholar
  6. Khan, A.A.; Malhotra, S.S. (1982). Ribulose bisphosphate carboxylase and glycollate oxidase from Jack Pine: Effects of sulphur dioxide fumigation. Phytochemistry 21(11): 2607–2612.CrossRefGoogle Scholar
  7. Lommen, P.W.; Schwintzer, C.R.; Yoccum, C.S. & Gates, D.M. (1971). A Model Describing Photosynthesis in Terms of Gas Diffusion and Enzyme Kinetics. Planta 98, 195–220.CrossRefGoogle Scholar
  8. Parry, M.A.J.; Gutteridge, S. (1984). The effect of S03 2- and S04 2- ions on the reactions of ribulose bisphosphate carboxylase. Journal of experimental botany 35(151): 157–168.CrossRefGoogle Scholar
  9. Schmidt, W.; Schreiber, U. Urbach, W. (1987). S02 injury in intact leaves, as detected by chlorophyll flourescence. Z. Naturforsch. 43c: 269–274.Google Scholar
  10. Siebke, K. (1988). Modellierung des Kurzstreckentransports von S02 im System Blatt. Diplomarbeit Fachbereich Biologie d. J. W. Goethe-Universität Frankfurt: 146 p.Google Scholar
  11. Siebke, K.; Badeck, F.-W.; Kohlmaier, G.H.; Plöchl, M.; Wientzek, C. (1989). Modelling Pollutant Exchange between Plant and Environment: Uptake and Metabolization of Sulphur Dioxide by different Leaf Cell Compartments. In: Modelling in Ecotoxicology (S.E. Jörgensen, ed.). Elsevier, in press.Google Scholar
  12. Uritani, I. & Asahi, T. (1980). Respiration and related Metabolic Activity in Wounded and Infected Tissues. In: The Biochemistry of Plants Vol. 2 (D.D. Davies, ed.). Academic Press: 463–485.Google Scholar
  13. Ziegler, I. (1972). The effect of S03 2- on the activity of Ribulose-1, 5-disphosphate carboxylase in isolated spinach chloroplasts. Planta 103: 155–163.CrossRefGoogle Scholar

Copyright information

© Kluwer Academic Publishers 1989

Authors and Affiliations

  • M. Plöchl
    • 1
  • F. W. Badeck
    • 1
  • G. H. Kohlmaier
    • 1
  1. 1.Institute for Physical and Theoretical ChemistryJohann Wolfgang Goethe UniversityFrankfurt 50Federal Republik of Germany

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