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References

  • Black, M. A., Maberl, S. C. & Spence, D. H. N. (1981) Resistance to carbon dioxide fixation in four submerged freshwater macrophytes. New Phytologist, 89, 557568.
  • Boston, H. L. & Adams, M. S. (1983) Evidence of crassulacean acid metabolism in two North American isoetids. Aquatic Botany, 15, 381386.
  • Christiansen, R., Skovmand Friis, N. J. & Sondergaard, M. (1985) Leaf production and nitrogen and phosphorus tissue content of Littorella uniflora (L.) Aschers. in relation to nitrogen and phosphorus enrichment of the sediment in oligotrophic Lake Hampen, Denmark. Aquatic Botany, 23, 111.
  • Cockburn, W., Ting, I. P. & Sternberg, L. O. (1979) Relationship between stomatal behavior and internal carbon dioxide concentration in crassulacean acid metabolism plants. Plant hysiology, 63, 10291032.
  • Holada, A. S. & Bowes, G. (1980). C4 acid metabolism and dark CO2 fixation in a submerged aquatic macrophyte (Hydrilla verticillata). Plant Physiology, 65, 331335.
  • Holada, A. S., Salvucci, M. & Bowes, G. (1983) Variable photosynthesis/photorespiration ratios in Hydrilla and other submersed aquatic macrophyte species. Canadian Journal of Botany, 61, 229236.
  • Keele, J. E. (1981) Isoetes howellii: submerged aquatic CAM plant. American Journal of Botany, 68, 420424.
  • Keele, J. E. (1982) Distribution of diurnal acid metabolism in the genus Isoetes. American Journal of Botany, 69, 254257.
  • Keele, J. E. (1983) Crassulacean acid metabolism in the seasonal submerged aquatic Isoetes howelli. Oecologia, 58, 5762.
  • Keele, J. E. & Busch, G. (1984) Carbon assimilation characteristics of the aquatic CAM plant, Isoetes howellii. Plant Physiology, 76, 525530.
  • Keele, J. E. & Morton, B. A. (1982) Distribution of diurnal acid metabolism in submerged aquatic plants outside the genus Isoetes. Photosynthetica, 16, 546553.
  • Kluge, M. & Ting, I. P. (1978). Crassulacean Acid Metabolism. Ecological Studies 30. Springer-Verlag, New York , pp. 209.
  • Madsen, T. V. (1984) Resistance to CO2 fixation in the submerged aquatic macrophyte Callitriche stagnalis Scop. Journal of Experimental Botany, 35, 338347.
  • Madsen, T. V. (1985) A community of submerged aquatic CAM plants in Lake Kalgaard, Denmark. Aquatic Botany, 23, 97108.
  • Osmond, C. B., Winter, K. & Ziegler, H. (1982). Functional significance of different pathways of CO2 fixation in photosynthesis. In: Physiological Plant Ecology II (Ed. by O. L.Lange, P. S.Nobel, C. B.Osmond & H.Ziegler). Springer-Verlag, New York , pp. 747.
  • Richardson, K., Griffiths, H., Reed, M. L., Raven, J. A. & Griffiths, N. M (1984) Inorganic carbon assimilation in the Isoetids Isotes lacustris L. and Lobelia dortmanna L. Oecologia, 61, 115121.
  • Salvucci, M. E. & Bowes, G. (1981) Induction of reduced photorespiratory activity in submersed amphibious aquatic macrophytes. Plant Physiology, 67, 335340.
  • Salvucci, M. E. & Bowes, G. (1983) Ethoxyzolamide repression of the low photorespiration state in two submersed angiosperms. Planta, 158, 2734.
  • Sand-Jensen, K. (1983) Photosynthetic carbon sources of stream macrophytes. Journal of Experimental Botany, 34, 198210.
  • Sand-Jensen, K. & Gordon, D. (1986) Variable HCO3 affinity of Elodea canadensis Michaux. in response to different HCO3 and CO2 concentrations during growth. Oecologia, 70, 126132.
  • Smith, W. G., Boston, H. L. & Adams, M. S. (1985) A preliminary study of the source and fate of carbon acquired via CAM in Littorella uniflora var. americana (Fern.) Gl. Journal of Freshwater Ecology, 3, 203209.
  • Spalding, M. H., Stumpf, D. K., Ku, M. S. B., Burris, R. H. & Edwards, G. E. (1979) Crassulacean acid metabolism and diurnal variations of internal CO2 and O2 concentrations in Sedum praealtum D.C. Australian Journal of Plant Physiology, 6, 557567.
  • Søndergaard, M. (1979) Light and dark respiration and the effect of the lacunal system on refixation of CO2 in submerged aquatic plants. Aquatic Botany, 6, 269283.
  • Sondergaard, M. & Sand-Jensen, K. (1979a) Physicochemical environment, phytoplankton biomass and production in oligotrophic, softwater Lake Kalgaard. Hydrobiologia, 63, 241253.
  • Sondergaard, M. & Sand-Jensen, K. (1979b) Carbon uptake by leaves and roots of Littorella uniflora (L.) Aschers. Aquatic Botany, 6, 112.
  • Wetzel, R. G., Brammer, E. & Forsberg, C. (1984) Photosynthesis of submerged macrophytes in acidified lakes. I. Carbon fluxes and recycling of CO2 in Juncus bulbosus L. Aquatic Botany, 19, 329342.