SEARCH

SEARCH BY CITATION

REFERENCES

  • Asada, K. & Takahashi, M. (1987). Production and scavenging of active oxygen in photosynthesis. In: Topics in Photosynthesis, vol. 9, Photoinhibition (Ed. by D. J.Kyle, C. B.Osmond & C. J.Arntzen), pp. 228257. Elsevier Science Publications.
  • Arnon, D. I. & Barber, I. (1990). Photoreduction of NAADP+ by isolated reaction centres of photosystem II. Requirement for plastocyanin. Proceedings of the National Academy of Sciences, USA 87, 59305934.
  • Avron, M. (1987). Photophosphorylation in chloroplasts. In: Photosynthesis I. Encyclopedia of Plant Physiology. New Series, vol. 5 (Ed. by A.Trebst & M.Avron), pp. 159173. Springer Verlag, Berlin , Heidelberg , New York .
  • Bailey, K. & Walker, D. A. (July 1992). Changes in fluorescence quenching brought about by feeding dithriothreitol to illuminated leaves. Plant Physiology 99 (in the press).
  • Baker, N. R. (1991). A possible role of photosystem II in environmental pertubations of photosynthesis. Physiologia Plantarum 81, 563570.
  • Barber, J. (1985). Thylakoid membrane structure and organisation of electron transport components. In: Photosynthetic Mechanisms and the Environment. Topics in Photosynthesis, vol. 6 (Ed. by J.Barber & N. R.Baker), pp. 91134. Elsevier Science Publications, Amsterdam .
  • Barber, J. (1987). Topics in Photosynthesis, vol. 9, Photoinhibition (Ed. by J.Barber), pp. 137. Elsevier, Amsterdam , New York , Oxford .
  • Bilger, W. & Bjorkman, O. (1990). Role of the xanthophyll cycle in photoprotection elucidated by measurements of light-induced absorbance changes, fluorescence and photosynthesis in leaves of Hedera canariensis. Photosynthesis Research 25, 173185.
  • Bilger, W., Bjorkman, O. & Thayer, S. S. (1989). Light-induced spectral absorbance changes in relation to photosynthesis and the epoxidation state of xanthophyll cycle components in cotton leaves. Plant Physiology 91, 542551.
  • Bjorkman, O. & Demmig, B. (1987). Photon yields of O2 evolution and chlorophyll fluorescence characteristics at 77K among vascular plants of diverse origins. Planta 170, 489504.
  • Blackman, F. F. (1895a). Experimental researches on vegetable assimilation and respiration. I. On a new method for investigating the carbon acid exchanges of plants. Philosophical Transactions of the Royal Society (B) 186, 485502.
  • Blackman, F. F. (1895b). Experimental researches on vegetable assimilation and respiration. II. On the paths of gaseous exchange between aerial leaves and the atmosphere. Philosophical Transactions of the Royal Society (B) 186, 503562.
  • Bolton, J. R. & Hall, D. O. (1991). The maximum efficiency of photosynthesis. Photochemistry and Photobiology 43, 545548.
  • Bradbury, M. & Baker, N. R. (1981). Analysis of the phase of the in vivo chlorophyll induction curve. Biochimica et Biophysica Acta 635, 542551.
  • Cheeseman, J. M., Clough, B. F., Carter, D. R., Lovelock, C. E., Ong Jin, Eong & Sim, R. G. (1991). The analysis of photosynthetic performance in leaves under field conditions: a case study using Bruguiera mangroves. Photosynthesis Research 29, 1122.
  • Clark, L. C. Jr. (1956). Monitor and control of blood and tissue oxygen tension. Transactions of the American Society for Artificial Internal Organs 2, 41.
  • Cornic, G. & Briantais, J.M. (1991). Partitioning of photosynthetic electron flow between CO2 and O2 reduction in a C3 leaf (Phaseolus vulgaris L.) at different CO2 concentrations and during drought stress. Planta 171, 171184.
  • Decker, J. P. (1957). Further evidence of increased carbon dioxide production accompanying photosynthesis. Journal of Solar Energy Science and Engineering 1, 3033.
  • Delieu, T. D. & Walker, D. A. (1981). Polarographic measurement of photosynthetic O2 evolution by leaf discs. New Phytologist 89, 165175.
  • Delieu, T. D. & Walker, D. A. (1983). Simultaneous measurement of oxygen evolution and chlorophyll fluorescence from leaf pieces. Plant Physiology 73, 542549.
  • Demmig, B. & Winter, K. (1988a). Characterization of three components of non-photochemical fluorescence quenching and their response to photoinhibition. Australian Journal of Plant Physiology 15, 163177.
  • Demmig, B. & Winter, K. (1988b). Light response of carbon dioxide assimilation, reduction state of Q and radiationless energy dissipation in intact leaves. Australian Journal of Plant Physiology 15, 151162.
  • Demmig, B., Winter, K., Kruger, A. & Czygan, F. C. (1987). Photoinhibition and zeaxanthin formation in intact leaves. A possible role of the xanthophyll cycle in the dissipation of excess light energy. Plant Physiology 84, 218224.
  • Demmig, B., Winter, K., Kruger, A. & Czygan, F. C. (1988). Zeaxanthin and the heat dissipation of excess light energy in Nerium oleander exposed to a combination of high light and water stress. Plant Physiology 87, 1724.
  • Demmig-Adams, B., Adams, W. W., Heber, U., Neimanis, S., Winter, K., Kruger, A., Czygan, F. C., Bilger, W. & Bjorkman, O. (1990). Inhibition of zeaxanthin formation and of rapid changes in radiationless energy dissipation by dithiothreitol in spinach leaves and chloroplasts. Plant Physiology 92, 293301.
  • Demmig-Adams, B., Winter, K., Kruger, A. & Czygan, F.-C. (1989). Light stress and photoprotection related to the carotenoid zeaxanthin in higher plants. In: Photosynthesis (Ed. by W. R.Briggs), pp. 375391. Alan R. Liss Inc., New York .
  • Edwards, G. E. & Walker, D. A. (1983). C3, C4, Mechanisms, and Cellular and Environmental Regulation of Photosynthesis. Blackwell Scientific Publications, Oxford .
  • Ehleringer, J. & Bjorkman, D. (1977). Quantum yields for CO2 uptake in C3 and C4 plants. Dependence on temperature, CO2 and O2 concentration. Plant Physiology 56, 8690.
  • Emerson, R. (1958). The quantum yield of photosynthesis. Annual Review of Plant Physiology 9, 124.
  • Emerson, R. & Chalmers, R. (1955). Transient changes in cellular gas exchange and the problem of maximum efficiency of photosynthesis. Plant Physiology 30, 504529.
  • Emerson, R. & Green, L. (1938). Effect of hydrogen-ion concentration on Chlorella photosynthesis. Plant Physiology 13, 157168.
  • Emerson, R. & Lewis, C. M. (1939). Factors influencing the efficiency of photosynthesis. American Journal of Botany 266, 808822.
  • Emerson, R. & Lewis, C. M. (1941). Carbon dioxide exchanges and the measurement of the quantum yield of photosynthesis. American Journal of Botany 28, 789804.
  • Emerson, R. & Lewis, C. M. (1943). The dependence of the quantum yield of Chlorella photosynthesis on wave length of light. American Journal of Botany 30, 165178.
  • Evans, E. H. & Carr, N. G. (1979). The interaction of respiration and photosynthesis in microalgae. In: Encyclopaedia of Plant Physiology: Photosynthesis II, vol. 6 (Ed. by M.Gibbs & E.Latzko), pp. 163171. Springer Verlag, Berlin .
  • Falkowski, P. G., Kolber, Z. & Fujita, Y. (1988). Effect of redox state on the dynamics of photosystem II during steady-state photosynthesis in eucaryotic algae. Biochimica Biophysica Acta 933, 432443.
  • Forti, G. (1987). Energy conversion in higher plants and algae. In: Photosynthesis I. Encyclopedia of Plant Physiology, New Series, vol. 5 (Ed. by A.Trebst & M.Avron), pp. 1120. Springer Verlag, Berlin , Heidelberg , New York .
  • Foyer, C., Furbank, R., Harbinson, J. & Horton, P. (1990). The mechanisms contributing to photosynthetic control of electron transport by carbon assimilation in leaves. Photosynthesis Research 25, 83100.
  • Franck, J. (1953). Participation of respiratory intermediates in the process of photosynthesis as an explanation of abnormally high quantum yields. Archives of Biochemistry and Biophysics 45, 190229.
  • Genty, B., Briantais, J.-M. & Baker, N. R. (1989). The relationship between the quantum yield of photosynthetic electron transport and quenching of chlorophyll fluorescence. Biochimica et Biophysica Acta 990, 8792.
  • Giersch, C., Sivak, M. N. & Walker, D. A. (1991). A mathematical skeleton model of photosynthetic oscillations. Proceedings of the Royal Society (B) 245, 7783.
  • Good, N. E. (1977). Uncoupling of electron transport from photophosphorylation in chloroplasts. In: Photosynthesis I. Encyclopedia of Plant Physiology. New Series, vol. 5 (Ed. by A.Trebst & M.Avron), pp. 429436. Springer Verlag, Berlin , Heidelberg , New York .
  • Graham, D. & Chapman, E. A. (1979). Interactions between photosynthesis and respiration in higher plants. In: Encyclopedia of Plant Physiology: Photosynthesis II, vol. 6 (Ed. by M.Gibbs & E.Latzko), pp. 150162. Springer Verlag, Berlin .
  • Grant, B. R. & Whatley, F. R. (1967). Some factors effecting the onset of cyclic photophosphrylation. In: Biochemistry of Chloroplasts (Ed. by T. W.Goodwin), pp. 505521. New York , Academic Press.
  • Harbinson, J., Genty, B. & Baker, N. R. (1989). Relationship between the quantum efficiencies of photosystems I and II in pea leaves. Plant Physiology 90, 10291034.
  • Heber, U. (1969). Conformational changes of chloroplasts induced by illumination of leaves in vivo. Biochimica et Biophysica Acta 180, 302319.
  • Heber, U., Neimanis, S. & Dietz, K. K. (1988). Fractional control of photosynthesis by the Qb protein, the cytochrome f/b6 complex and other components of the photosynthetic apparatus. Planta 173, 267274.
  • Heber, U., Neimanis, S., Setlikova, E. & Schreiber, U. (1989b). Why is photorespiration a necessity for leaf survival under water stress? In: Proceedings of the International Congress of Plant Physiology Neic Delhi, vol. 1 (Ed. by S. K.Sinha, P. V.Sane, S. C.Bhargava & P. K.Agrawal), pp. 581602. Society for Plant Physiology and Biochemistry Water Technology Centre, New Delhi , India .
  • Heber, U., Schreiber, LL, Siebke, K. & Dietz, K. J. (1990). Relationship between light-driven electron transport, carbon reduction and carbon oxidation in photosynthesis. In: Perspectives in Biochemical and Genetic Regulation of Photosynthesis (Ed. by I.Zelitch), pp. 1737. Alan R. Liss, Inc., New York .
  • Heber, U., Viil, J., Neimanis, S., Mimura, T. & Dietz, K. J. (1989a). Photoinhibitory damage to chloroplasts under phosphate deficiency and alleviation of deficiency and damage by photorespiratory reactions. Zeitschrift für Naturforschung 44c, 110122.
  • Hill, R. & Bendall, F. (1960). Function of the two cytochrome components in chloroplasts: a working hypothesis. Nature 186, 136137.
  • Holmes, J. J., Weger, H. G. & Turpin, D. H. (1990). Chlorophyll a fluorescence predicts total photosynthetic electron flow to CO2 or NO3/NO2 under transient conditions. Plant Physiology 91, 331337.
  • Horton, P. (1985). Interactions between electron transport and carbon metabolism. In: Photosynthetic Mechanisms and the Environment, vol. 6 (Ed. J.Barber & N. R.Baker), Topics in Photosynthesis, pp. 135187. Elsevier Science Publications, Amsterdam .
  • Horton, P. (1989). Regulation of light harvesting by metabolic-events. In: Current Research in Photosynthesis, vol. 4 (Ed. by M.Baltscheffsky), pp. 111118. Kluwer Academic Publishers.
  • Horton, P. & Bowyer, J. (1990). Chlorophyll fluorescence transients. Methods in Plant Biochemistry 4, 259296.
  • Horton, P., Noctor, G. & Rees, D. (1990). Regulation of light harvesting and electron transport in photosystem II. In: Perspectives in Biochemical and Genetic Regulation of Photosynthesis, vol. 10 (Ed. by I.Zelitch), pp. 145158.
  • Horton, P., Ruban, A. V., Rees, D., Pascal, A. A., Noctor, G. & Young, A. J. (1991). Control of the light-harvesting function of chloroplast membranes by aggregation of the LHC II chlorophyll protein complex. Federation of European Biochemical Societies Letters 292, 14.
  • Kautsky, H. & Hirsch, A. (1931). Neue versuche zur kohlenstoffassimilation. Naturwissenschaften 19, 964.
  • Keiller, D. R. & Walker, D. A. (1990). The use of chlorophyll fluorescence to predict CO2-fixation during photosynthetic oscillations. Proceedings of the Royal Society (B) 241, 5964.
  • Kobayashi, Y., Koster, S. & Heber, U. (1982). Light scattering, chlorophyll fluorescence and state of the adenylate system in illuminated spinach leaves. Biochimica et Biophysica Acta 682, 4454.
  • Kok, B. (1948). A critical consideration of the quantum yield of Chlorella-photosynthesis. Enzymologia 13, 156.
  • Kok, B. (1949). On the interrelation of photosynthesis and respiration in green plants. Biochimica et Biophysica Acta 3, 625631.
  • Kok, B. (1951). Photo-induced interactions of metabolism of green plant cells. Symposium for the Society of Experimental Biology, 5 209221.
  • Kok, B. (1960). Efficiency of photosynthesis. In: Encyclopedia of Plant Physiology, vol. VI (Ed. by W.Ruhland), pp. 566633. Springer Verlag, Berlin , Gottingen , Heidelberg .
  • Kolbowski, J., Reising, H. & Schreiber, U. (1990). Computer controlled pulse modulation system for analysis of photo-acoustic signals in the time domain. Photosynthesis Research 25, 309319.
  • Krall, J. P. & Edwards, G. E. (1990). Quantum yields of photosystem II electron transport and carbon dioxide fixation in C4 plants. Australian Journal of Plant Physiology 17, 579588.
  • Krall, J. P. & Edwards, G. E. (1991). Environmental effects on the relationship between the quantum yields of carbon assimilation and in vivo PS II electron transport in maize. Australian Journal of Plant Physiology 18, 267278.
  • Krall, J. P. & Edwards, G. E. (July 1992). Relationship between photosystem II activity and CO2 fixation in leaves. Physiologia Plantarum (in the press).
  • Krall, J. P., Edwards, G. E. & Ku, M. S. B. (1991). Quantum yield of photosystem II and efficiency of CO2 fixation in Flaveria species under varying light and CO2. Australian Journal of Plant Physiology 18, 369383.
  • Krause, G. H. (1973). The high-energy state of the thylakoid system as indicated by chlorophyll fluorescence and chloroplast shrinkage. Biochimica et Biophysica Acta 292, 715728.
  • Krause, G. H. & Cornic, G. (1987). CO2 and O2 interaction in photoinhibition. In: Photoinhibition (Ed. by D. J.Kyle, C.B.Osmond & C. J.Arntzen), pp. 145168. Elsevier, Amsterdam .
  • Krause, G. H. & Weis, E. (1984). Review: Chlorophyll fluorescence as a tool in plant physiology. II. Interpretation of fluorescence signals. Photosynthesis Research 5, 139157.
  • Krause, G. H. & Weis, E. (1991). Chlorophyll fluorescence and photosynthesis: the basics. Annual Review of Plant Physiology and Plant Molecular Biology 42, 131349.
  • Laisk, A. (1977). Kinetics of Photosynthesis and Photorespiration in C3 Plants. Nauka Publishers, Moscow (in Russian).
  • Laisk, A. & Eichelmann, H. (1989). Towards understanding oscillations: a mathematical model of the biochemistry of photosynthesis. Philosophical Transactions of the Royal Society 323, 369384.
  • Laisk, A., Eichelmann, H., Oja, V., Eatherall, A. & Walker, D. A. (1989b). A mathematical model of the carbon metabolism in photosynthesis. Difficulties in explaining oscillations by fructose 2,6-bisphosphate regulation. Proceedings of the Royal Society (B) 237, 389415.
  • Laisk, A, Oja, V., Kiirats, O., Raschke, K. & Heber, U. (1989a). The state of photosynthetic apparatus in leaves as analysed by rapid gas exchange and optical methods: the pH of the chloroplast stroma and activation of enzymes in vivo. Planta 177, 350358.
  • Laisk, A., Oja, Y., Walker, D. A. & Heber, U. (July 1992). Steady state, induction and oscillatory kinetics of photosynthetic electron transport related to donor side oxidation and acceptor side reduction of photosystem I in sunflower leaves. Evidence for photosynthetic control and functional Cyt b/f-PSI-FNR complexes. Photosynthetica (in the press).
  • Laisk, A., Siebke, K., Gerst, U., Eichelmann, H., Oja, V. & Heber, U. (1991). Oscillations in photosynthesis are initiated and supported by imbalances in the supply of ATP and NADPH to the Calvin cycle. Planta 182, 554562.
  • Laisk, A. & Walker, D. A. (1989). A mathematical model of electron transport. Thermodynamic necessity for photosystem 11 regulation: light stomata. Proceedings of the Royal Society (B) 237, 417444.
  • Lavorell, J. & Etienne, A. L. (1977). In vivo chlorophyll fluorescence. In: Primary Processes in Photosynthesis (Ed. by J.Barber), pp. 203268. Elsevier Biomedical Press, Amsterdam ).
  • Lechtenberg, D., Voss, B. & Weis, E. (1990). Regulation of photosynthesis: Photosynthetic control and thioredoxin dependent enzyme regulation. In: Current Research in Photosynthesis, vol. iv (Ed. by M.Baltscheffsky), pp. 171174.
  • MacDonald, F. D. & Buchanan, B. B. (1987). Carbon dioxide assimilation. In: ‘Photosynthesis’ New Comprehensive Biochemistry, vol. 15 (Ed. by J.Amesz), pp. 175197. Elsevier, Amsterdam .
  • Mathis, P. & Rutherford, A. W. (1987). The primary reactions of photosystems I and II of algae and higher plants. In: ‘Photosynthesis’ New Comprehensive Biochemistry, vol. 15 (Ed. by J.Amesz), pp. 6396. Elsevier, Amsterdam .
  • Mehler, A. H. (1951a). Studies on reactions of illuminated chloroplasts. I. Mechanism of the reduction of oxygen and other Hill reagents. Archives of Biochemistry and Biophysics 33, 6577.
  • Mehler, A. H. (1951). Studies on reactions of illuminated chloroplasts. II. Stimulation and inhibition of the reaction with molecular oxygen. Archives of Biochemistry and Biophysics 34, 339351.
  • Meidner, H. & Mansfield, T. A. (1968). Physiology of Stomata, p. 178. McGraw-Hill, London .
  • Moss, D. A. & Bendall, D. S. (1984). Cyclic electron transport in chloroplasts; the Q cycle and the site of action of antimycin. Biochimica et Biophysica Acta 767, 389395.
  • Neubauer, C. & Schreiber, U. (1989). Photochemical and non-photochemical quenching of chlorophyll fluorescence induced by hydrogen peroxide. Zeitschrift für Naturforschung 44c, 262270.
  • Noctor, G. & Horton, P. (1990). Uncoupler titration of energy-dependent chlorophyll fluorescence quenching and photosystem II photochemical yield in intact pea chloroplasts. Biochimica et Biophysica Acta 1016, 228234.
  • Noctor, G., Rees, D., Young, A. & Horton, P. (1991). The relationship between zeaxanthin, energy-dependent quenching of chlorophyll fluorescence, and trans-thylakoid pH gradient in isolated chloroplasts. Biochimica et Biophysica Acta 1057, 320330.
  • Ogren, W. L. (1984). Photorespiration: pathways, regulation, and modification. Annual Review of Plant Physiology 35, 415442.
  • Osmond, C. B. (1981). Photorespiration and photoinhibition. Biochimica et Biophysica Acta 639, 7798.
  • Osmond, C. B. (1987). Photosynthesis and carbon economy of plants. New Phytologist 106, 161175.
  • Oxborough, K. & Horton, P. (1988). A study of the regulation and function of energy-dependent quenching in pea chloroplasts. Biochimica et Biophysica Acta 934, 135143.
  • Peterson, R., Sivak, M. N. & Walker, D. A. (1988a). Carbon-dioxide induced oscillations in fluorescence and photosynthesis. Plant Physiology 88, 11251130.
  • Peterson, R., Sivak, M. N. & Walker, DA. (1988). Relationship between steady-state fluorescence yield and photosynthetic efficiency in spinach leaf tissue. Plant Physiology 88, 158163.
  • Pirt, S. J. (1986). The thermodynamic efficiency (quantum demand) and dynamics of photosynthetic growth. New Phytologist 102, 337.
  • Pirt, S. J., Lee, Y.-K., Richmond, A. & Watts Pirt, M. (1980). The photosynthetic efficiency of Chlorella biomass growth with reference to solar energy utilization. Journal of Chemical Technology and Biotechnology 30, 2534.
  • Pirt, S. J., Lee, Y.-K., Walach, M. R., Watts Pirt, M., Balyuzi, H. H. M. & Bazin, M. J. (1983). A tubular bioreactor for photosynthetic production of biomass from carbon dioxide: design and performance. Journal of Chemical Technology and Biotechnolog 33B, 3558.
  • Quick, W. P. & Horton, P. (1984). Studies on the induction of chlorophyll fluorescence in barley protoplasts. II. Resolution of fluorescence quenching by redox state and the transthylakoid pH gradient. Proceedings of the Royal Society (B) 220, 371382.
  • Radmer, R. J. & Kok, B. (1977). Light conversion efficiency in photosynthesis. In: Photosynthesis I. Encyclopedia of Plant Physiology, New Series, vol. 5 (Ed. by A.Trebst & M.Avron), pp. 125135. Springer Verlag, Berlin , Heidelberg , New York .
  • Rees, D. & Horton, P. (1990). The mechanisms of changes in photosystem II efficiency in spinach thylakoids. Biochimica el Biophysica Acta 1016, 219227.
  • Rees, D., Young, A., Noctor, G., Britton, G. & Horton, P. (1989). Enhancement of the ΔpH-dependent dissipation of excitation energy in spinach chloroplasts by light-activation: correlation with the synthesis of zeaxanthin. Federation of European Biochemical Societies Letters 256, 8590.
  • Reising, H. & Schreiber, U. (1991). Photoacoustics reveal strong light-induced O2-uptake in leaves at high CO2. Photosynthesis Research 31, 227238.
  • Ruban, A. V., Rees, D., Noctor, G. D., Young, A. & Horton, P. (1991). Long-wavelength chlorophyll species are associated with amplification of high-energy state excitation quenching in higher plants. Biochimica et Biophysica Acta 1059, 355360.
  • Schreiber, U. (1983). Technical review. Chlorophyll fluorescence yield changes as a tool in plant phsyiology. 1. The measuring system. Photosynthesis Research 4, 361373.
  • Schreiber, U. & Neubauer, C. (1990). O2-dependent electron flow, membrane energization and the mechanism of non-photochemical quenching of chlorophyll fluorescence. Photosynthesis Research 25, 279293.
  • Schreiber, U., Reising, H. & Nelbauer, C. (1991). Contrasting pH-Optima of light-driven O2- and H2O2, –reduction in spinach chloroplasts as measured via chlorophyll fluorescence quenching. Zeitschrift für Naturforschung 46c, 173181.
  • Schreiber, U., Schliwa, U. & Bilger, B. (1986). Continuous recording of photochemical and non-photochemical chlorophyll fluorescence quenching with a new type of modulation fluorometer. Photosynthesis Research 10, 5162.
  • Seaton, G. G. R. & Walker, D. A. (1990a). Chlorophyll fluorescence as a measure of photosynthetic carbon assimilation. Proceedings of the Royal Society (B) 242, 2935.
  • Seaton, G. G. R. & Walker, D. A. (1990b). Measuring photosynthesis by measuring chlorophyll fluorescence. In: Trends in Photosynthesis Research (Ed. by J.Barber, H.Medrano, M. C.Guerrero). Intercept Limited Publications.
  • Sharkey, T. D. (1988). Estimating the rate of photorespiration in leaves. Physiologia Plantation 73, 147152.
  • Sharkey, T. D., Berry, J. A. & Sage, R. F. (1988). Regulation of photosynthetic electron-transport in Phaseolus vulgaris L., as determined by room-temperature chlorophyll a fluorescence. Planta 176, 415424.
  • Sharp, R. E., Matthews, M. A. & Boyer, J. S. (1984). Kok effect and the quantum yield of photosynthesis. Plant Physiology 75, 95101.
  • Sivak, M. N. & Walker, D. A. (1985a). Theory and practice of chlorophyll a fluorescence in its relation to photosynthesis: the state of the art and perspectives. In: Photosynthesis and Physiology of the Whole Plant, pp. 937. OECD, Paris .
  • Sivak, M. N., Dietz, K.-J., Heber, U. & Walker, D. A. (1985a). The relationship between light-scattering and chlorophyll a fluorescence during oscillations in photosynthetic carbon assimilation. Archives of Biochemistry and Biophysics 237, 513519.
  • Sivak, M. N., Heber, U. & Walker, D. A. (1985b). Chlorophyll a fluorescence and light-scattering kinetics displayed by leaves during induction of photosynthesis. Planta 163, 7583.
  • Sivak, M. N. & Walker, P. A. (1985b) Chlorophyll a fluorescence; can it shed light on fundamental questions in photosynthetic carbon dioxide fixation. Plant, Cell and Environment 8, 439448.
  • Sivak, M. N. & Walker, D. A. (1986). Photosynthesis in vivo can be limited by phosphate supply. New Phytologist 102, 499512.
  • Sivak, M. N. & Walker, D. A. (1987). Thresholds in the initiation of oscillatory behaviour in photosynthesis. In: Hungarian-USA Binational Symposium on Photosynthesis (Ed. by M.Gibbs), pp. 105113, Waverly Press.
  • Stokes, D., Walker, D. A., Grof, C., & Seaton, G. (1990). Light enhanced dark respiration. In: Perspectives in Biochemical and Genetic Regulation of Photosynthesis (Ed. by I.Zelitch), pp. 319338. Alan Liss Publications, New York .
  • Tagawa, K., Tsujimoto, H. V. & Arnon, D. I. (1963). Analysis of photosynthetic reactions by the use of monochromatic light. Nature 199, 12471252.
  • Terashima, I. & Saeki, T. (1985). A new model for leaf photosynthesis incorporating the gradients of light environment and of photosynthetic properties of chloroplasts within a leaf. Annals of Botany 56, 489499.
  • Terashima, I., Sakaguchi, S. & Hara, N. (1986). Intra-leaf and intracellular gradients in chloroplast ultrastructure of dorsiventral leaves illuminated from the adaxial or abaxial side during their development. Plant Cell Physiology 27 (6), 10231031.
  • Terashima, I. & Takenaka, A. (1986). Organisation of photosynthetic system of dorsiventral leaves as adapted to the irradiation from the adaxial side. In: Biological Control of Photosynthesis (Ed. by R.Marcelle, H.Clijsters & F.VanPoucke), pp. 219299. Martinus Nijhoff, Publications, Dordrecht .
  • Walker, D. A. (1973). Photosynthetic induction phenomena and the light activation of ribulose diphosphate carboxylase. New Phytologist 72, 209235.
  • Walker, D. A. (1979). Energy, Plants & Man, pp. 131. Packard Publishing Limited, Chichester .
  • Walker, D. A. (1981). Secondary fluorescence kinetics of spinach leaves in relation to the onset of photosynthetic carbon assimilation. Planta 153, 273278.
  • Walker, D. A. (1989). Automated measurement of leaf photosynthetic O2 evolution as a function of photon flux density. Philosophical Transactions of the Royal Society (B) 323, 313326.
  • Walker, D. A. (1990). The Use of the Oxygen Electrode and Fluorescence Probes in Simple Measurements of Photosynthesis, 2nd impression, pp. 1203.
  • Walker, D. A. & Sivak, M. N. (1985a). In vivo chlorophyll a fluorescence transients associated with changes in the CO2content of the gas phase. In: Regulation of Carbon Partitioning in Photosynthetic Tissues (Ed. by R. L.Heath & J.Preiss), pp. 93108. Washington , DC , American Society of Plant Physiologists.
  • Walker, D. A. & Sivak, M. N. (1985b). Can phosphate limit photosynthetic carbon assimilation in vivo. Physiologie Vegetate 23, 829841.
  • Walker, D. A. & Sivak, M. N. (1986). Photosynthesis and phosphate: a cellular affair. Trends in Biochemical Science 11, 176179.
  • Walker, D. A., Leegood, R. C. & Sivak, M. N. (1986). Ribulose bisphosphate carboxylase-oxygenase: its role in photosynthesis. Philosophical Transactions of the Royal Society (B) 313, 305324.
  • Warburg, O. (1952). Energetik der Photosynthese. Die Naturwissenschaften 15, 227341.
  • Warburg, O. (1958). Photosynthesis. Science 128, 6877.
  • Warburg, O. & Burk, D. (1950). The maximum efficiency of photosynthesis. Archives of Biochemistry 25, 410414.
  • Warburg, O., Geleick, H. & Briese, K. (1952). Uber die Messung der Photosynthese in Carbonat-Bicarbonat-Gemischen. Zeitschrift für Naturforschung 7b, 141144.
  • Warburg, O., Krippahl, G. & Lehman, A. (1969). Chlorophyll catalysis and Einstein's law of photochemical equivalence in photosynthesis. Americal Journal of Botany 56, 961971.
  • Warburg, O. & Negelein, E. (1923). Uber den Einfluss der Wellenlange auf den Energieumsalz bei der Kohlensaure-assimilation. Zeitschift für Physikalische Chemie 106, 191.
  • Weis, E., Ball, J. T. & Berry, J. (1987). Photosynthetic control of electron transport in leaves of Phaseolus vulgaris: evidence for regulation of photosystem II by the proton gradient. In: Progress in Photosynthesis Research, vol. II (Ed. by J.Biggins), pp. 553556. Martinus Nijhoff, Netherlands .
  • Weis, E. & Berry, J. A. (1987). Quantum efficiency of photosystem II in relation of energy dependent quenching of chlorophyll fluorescence. Biochimica et Biophysica Acta 894, 198208.
  • Weis, E., Lectenberg, D. & Krieger, A. (1989). Physiological control of primary photochemical energy conversion in higher plants. In: Current Research in Photosynthesis, vol. iv (Ed. by M.Baltscheffsky), pp. 307312. Kluwer Academic Publishers.
  • Whitehouse, D.G., Ludwig, L. J. & Walker, DA. (1971). Participation of the Mehler Reaction and catalase in the oxygen exchange of chloroplast preparations. Journal of Experimental Biology 22, 772791.
  • Witt, H. T. (1979). Energy conversion in the functional membrane of photosynthesis; analysis by light pulse and electric pulse method; the central role of the electrical field. Biochimica et Biophysica Acta 505, 355427.
  • Woodrow, I. E. & Berry, J. A. (1988). Enzymatic regulation of photosynthetic CO2 fixation in C3 plants. In: Annual Review of Plant Physiology and Plant Molecular Biology, vol. 39 (Ed. by W. R.Briggs, R. L.Jones & V.Walbot), pp. 533534. Annual Reviews Incorporated, Palo Alto .
  • Wu, J., Neimanis, S. & Heber, U. (1990). Photorespiration is more effective than the Mehler reaction to protect the photosynthetic apparatus against photoinhibition. Botanica Acta 104, 283291.
  • Yamamoto, H. Y. (1979). Biochemistry of the violaxanthin cycle in higher plants. Pure and Applied Chemistry 51, 639648.
  • Zelitch, I. (1971). Photosynthesis, Photorespiration and Plant Productivity. New York Academic Press.
  • Zelitch, I. (1985). Pathways of carbon fixation in green plants. Annual Review of Plant Physiology 44, 123145.