SEARCH

SEARCH BY CITATION

REFERENCES

  • Ball, E., Hann, J., Kluge, M., Lee, H. S. J., Lüttge, U., Orthen, B., Popp, M., Schmitt, A. K. & Ting, I. P. (1991a). Ecophysiological comportment of the tropical CAM-tree Clusia in the field. I. Growth of Crusia rosea Jacq. on St. John, US Virgin Islands, Lesser Antilles. New Phytologist 117, 473481.
  • Ball, E., Hann, J., Kluge, M., Lee, H. S.J., Lüttge, U. Orthen, B., Popp, M., Schmitt, A. K. & Ting, I. P. (1991b) Ecophysiological comportment of the tropical CAM-tree Clusia in the field. II. Modes of photosynthesis in trees and seedling: New Phytologist 117, 483491.
  • Borland, A. M. & Griffiths, H. (1989). The regulation of citri acid accumulation and carbon recycling during CAM in Anana comosus. Journal of Experimental Botany 40, 5360.
  • Borland, A. M. & Griffiths, H. (1990). The regulation of CAM and respiratory recycling by water supply and light regime in the C3-CAM intermediate Sedum telephium L. Functional Ecology 4, 3339.
  • Broadmeadow, M. S. J., Griffiths, H., Maxwell, C. & Borland, A. M. (1992). The carbon isotope ratio of plant organic material reflects temporal and spatial variations in CO2 partial pressure and δ13C within tropical forest formations in Trinidad. Oecologia 89, 435441.
  • Franco, A. C., Ball, E. & Lüttge, U. (1990). Patterns of gas exchange and organic acid oscillations in tropical trees of the genus Clusia. Oecologia 85, 108114.
  • Franco, A. C., Ball, E. & Lüttge, U. (1991). The influence of nitrogen, light and water stress on CO2 exchange and organic acid accumulation in the tropical C3-CAM tree Clusia minor. Journal of Experimental Botany 42, 597603.
  • Griffiths, H. (1989). Carbon dioxide concentrating mechanisms and the evolution of CAM in vascular epiphytes. In: Vascular Plants as Epiphytes (Ed. by LT.Luttge), pp. 4286. Ecological Studies 76. Springer-Verlag, Berlin .
  • Griffiths, H., Broadmeadow, M. S. J., Borland, A. M. & Hetherington, C. S. (1990). Short-term changes in carbon-isotope discrimination identify transitions between C3 and C4 carboxylation during crassulacean acid metabolism. Planta 181, 604610.
  • Haag-Kerwer, A., Franco, A. C. & Lüttge, U. (1992). The effect of temperature and light on the gas exchange and acid accumulation in the C3-CAM plant Clusia minor L. Journal of Experimental Botany 43, 345352.
  • Hohorst, H. J. (1965). l-(–)-malate. Determination with malic acid dehydrogenase and DPN. In: Methods of Enzymatic Analysis (Ed. by H. U.Bergmeyer), pp. 328332. Academic Press, New York .
  • Lee, H. S. J., Lüttge, U., Medina, E., Smith, J. A. C., Cram, W. J., Diaz, M., Griffiths, H., Popp, M., Schafer, C. Stimmel, K.-H. & Thonke, B. (1989). Ecophysiology of xerophytic and halophytic vegetation of a coastal alluvial plain in Northern Venezuela. III. Bromelia humilis Jacq., a terrestrial CAM bromeliad. New Phytologist 111, 253271.
  • Lüttge, U. (1988). Day-night changes of citric acid levels in CAM: phenomenon and ecophysiological significance. Plant, Cell and Environment 11, 445451.
  • Lüttge, U., Stimmel, K.-H., Smith, J. A. C. & Griffiths, H. (1986). Comparative ecophysiology of CAM and C3 bromeliads. II. Field measurements of gas exchange of CAM bromeliads in the humid tropics. Plant, Cell and Environment 9, 377383.
  • Maxwell, C., Griffiths, H., Borland, A. M., Broadmeadow, M. S. J. & McDavid, C. R. (1992). Photoinhibitory responses of the epiphytic bromeliad Guzmania monostachia during the dry season in Trinidad maintain photochemical integrity under adverse conditions. Plant, Cell and Environment 15, 3747.
  • Möllering, H. (1985). Citrate. Determination with citrate lyase, MDH and LDH. In: Methods of Enzymic Analysis, 3rd edn. Vol. VII. (Ed. by H. U.Bergmeyer), pp. 212. Academic Press, New York .
  • Popp, M., Kramer, D., Lee, H., Diaz, M., Ziegler, H. & Lüttge, U. (1988). Crassulacean acid metabolism in tropical dicotyledonous trees of the genus Clusia. Trees 1, 238247.
  • Schmitt, A. K., Lee, H. S. J. & Lüttge, U. (1988). The response of the C3-CAM tree, Clusia rosea, to light and water stress. I. Gas exchange characteristics. Journal of Experimental Botany 39, 15811590.
  • Smith, J. A. C., Griffiths, H. & Lüttge, U. (1986). Comparative ecophysiology of CAM and C3 bromeliads. I. The ecology of the Bromeliaceae in Trinidad. Plant, Cell and Environment 9, 359376.
  • Ting, I. P., Hann, J., Holmbrook, N. M., Putz, F. E., Sternberg, L. Da, S. L., Price, D. & Goldstein, G. (1987). Photosynthesis in hemi-epiphytic species of Clusia and Ficus. Oecologia 74, 339346.
  • Ting, I. P., Lord, E. M., Sternberg, L. Da S. L. & Deniro, M. J. (1985). Crassulacean acid metabolism in the strangler Clusia rosea Jacq. Science 229, 969971.
  • Tinoco Ojanguren, C. & Vazquez-Yanes, C. (1983). Especies CAM in la selva humeda tropical de los Tuxtlas, Veracruz. Boletin de la Sociedad Botánica de México 45, 150153.