SEARCH

SEARCH BY CITATION

REFERENCES

  • Adams W.W. III & Demmig-Adams B. (1995) The xanthophyll cycle and sustained thermal energy dissipation activity in Vicia minor and Euonymus kiautschovicus in winter. Plant, Cell and Environment 18, 117127.
  • Anten N.P. (1997) Modelling canopy photosynthesis using parameters determined from simple non-destructive measurements. Ecological Research 12, 7788.
  • Ball J.T., Woodrow I.E. & Berry J.A. (1987) A model predicting stomatal conductance and its contribution to the control of photosynthesis under different environmental conditions. Progress in Photosynthesis Research 4, 221224.
  • Ball M.C., Egerton J.G., Leuning R., Cunningham R.B. & Dunne P. (1997) Mircoclimate above grass adversely affects spring growth of seedling snow gum (Eucalyptus pauciflora). Plant, Cell and Environment 20, 155166.
  • Ball M.C., Hodges V.S. & Laughlin G.P. (1991) Cold-induced photoinhibition limits regeneration of snow gum at tree line. Functional Ecology 5, 663668.
  • Beyschlag W. & Ryel R.J. (1998) Leaf/canopy photosynthesis and crop productivity. In Photosynthesis a Comprehensive Treatise (ed. A.S. Raghavendra), pp. 215225. Cambridge University Press, Cambridge, New York, Melbourne.
  • Beyschlag W. & Ryel R.J. (1999) Canopy photosynthesis modelling. In Handbook of Functional Plant Ecology (eds F.I. Pugnaire & F. Valladares), pp. 771804. Marcel Dekker, Inc., New York, Basel.
  • Beyschlag W., Barnes P.W., Ryel R., Caldwell M.M. & Flint S.D. (1990) Plant competition for light analysed with a multispecies canopy model. II. Influence of photosynthetic characteristics on mixtures of wheat and wild oat. Oecologia 82, 374380.
  • Beyschlag W., Ryel R. & Dietsch C. (1994) Shedding of older needle age classes does not necessarily reduce photosynthetic primary production of Norway spruce. Analysis with 3-dimensional canopy photosynthesis model. Trees Structure and Function 9, 5159.
  • Bilger W., Schreiber U. & Bock M. (1995) Determination of the quantum efficiency of photosystem II and of non-photochemical quenching of chlorophyll fluorescence in the field. Oecologia 102, 425432.
  • Björkman O. & Demmig B. (1987) Photon yield of O2 evolution and chlorophyll fluorescence characteristics at 77 K among vascular plants of diverse origins. Planta 170, 489504.
  • Bolhár-Nordenkampf H.R., Hofer M. & Lerchner E.G. (1991) Analysis of light-induced reduction of the photochemical capacity in field-grown plants. Evidence for photoinhibition? Photosynthesis Research 27, 3139.
  • Caldwell M.M., Meister H.P., Tenhunen J.D. & Lange O.L. (1986) Canopy structure, light microclimate and leaf gas exchange of Quercus coccifera L. in a Portuguese macchia: measurements in different canopy layers and simulations with a canopy model. Trees Structure and Function 1, 2541.
  • Cannell M.G.R. & Thornley J.H.M. (1998) Temperature and CO2 responses of leaf and canopy photosynthesis: a clarification using the non-rectangular hyperbola model of photosynthesis. Annals of Botany 82, 883892.DOI: 10.1006/anbo.1998.0777
  • De Pury D.G.G. & Farquhar G.D. (1997) Simple scaling of photosynthesis from leaves to canopies without the errors of big-leaf models. Plant, Cell and Environment 20, 537557.
  • Demmig-Adams B. (1990) Carotenoids and photoprotection in plants: a role for the xanthophyll zeaxanthin. Biochimica et Biophysica Acta 1020, 124.
  • Demmig-Adams B. & Adams W.W. III (1992) Photoprotection and other responses of plants to high light stress. Annual Review of Plant Physiology and Plant Molecular Biology 43, 599626.
  • Demmig-Adams B., Adams W.W., Iiibarker D.H., Logan B.A., Bowling D.R. & Verhoeven A.S. (1996) Using chlorophyll fluorescence to assess the fraction of absorbed light allocated to thermal dissipation of excess excitation. Physiologia Plantarum 98, 253264.
  • Duncan W.G., Loomis R.S., Williams W.A. & Hanau R. (1967) A model for simulating photosynthesis in plant communities. Hilgardia 38, 181205.
  • Evans J.R., Jakobsen I. & Ögren E. (1993) Photosynthetic light-response curves. 2. Gradients of light absorption and photosynthetic capacity. Planta 189, 191200.
  • Farquhar G.D. & Von Caemmerer S. (1982) Modelling of photosynthetic response to environmental conditions. In Physiological Plant Ecology II. Water Relations and Carbon Assimilation (eds O.L. Lange, P.S. Nobel, C.B. Osmond & H. Ziegler), pp. 549587. Springer-Verlag, Berlin, Heidelberg, New York.
  • Farquhar G.D. & Wong S.C. (1984) An empirical model of stomatal conductance. Australian Journal of Plant Physiology 11, 191210.
  • Farquhar G.D., Von Caemmerer S. & Berry J.A. (1980) A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species. Planta 149, 7890.
  • 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.
  • Harley P.C. & Tenhunen J.D. (1991) Modelling the photosynthetic response of C3 leaves to environmental factors. In Modelling Crop Photosynthesis – from Biochemistry to Canopy (eds American Society of Agronomy & Crop Science Society of America), pp. 1738. CSSA Special Publishers, Madison, WI.
  • Harley P.C., Tenhunen J.D. & Lange O.L. (1986) Use of an analytical model to study limitations on net photosynthesis in Arbutus unedo under field conditions. Oecologia 70, 393401.
  • Harley P.C., Thomas R.B., Reynolds J.F. & Strain B.R. (1992) Modelling photosynthesis of cotton growth in elevated CO2. Plant, Cell and Environment 15, 271282.
  • Henley W.J., Levavasseur G., Franklin L.A., Osmond C.B. & Ramus J. (1991) Photoacclimation and photoinhibition in Ulva rotundata as influenced by nitrogen availability. Planta 184, 235243.
  • Johnson I.R., Parson A.J. & Ludlow M.M. (1989) Modelling photosynthesis in monocultures and mixtures. Australian Journal of Plant Physiology 16, 501516.
  • Kok B. (1956) On the inhibition of photosynthesis by intense light. Biochimica et Biophysica Acta 21, 234244.
  • Krause G.H. (1988) Photoinhibition of photosynthesis. An evaluation of damaging and protective mechanisms. Physiologia Plantarum 74, 566576.
  • Krause G.H. & Weis E. (1991) Chlorophyll fluorescence and photosynthesis: the basics. Annual Review of Plant Physiology and Plant Molecular Biology 42, 313349.
  • Leverenz J.W. (1994) Factors determining the nature of the light dosage response curve of leaves. In Photoinhibition of Photosynthesis – from Molecular Mechanisms to the Field (eds N.R. Baker & J.R. Bowyer), pp. 239254. Bios Scientific Publishing, Oxford, Amsterdam.
  • Leverenz J.W., Falk S., Pilström C.-M. & Samuelsson G. (1990) The effects of photoinhibition on the photosynthetic light-response curve of green plant cells (Chlamydomonas reinhardtii). Planta 182, 161168.
  • Long S.P., Humphries S. & Falkowski P.G. (1994) Photoinhibition of photosynthesis in nature. Annual Review of Plant Physiology and Plant Molecular Biology 45, 633662.
  • Meister H.P. (1987) Mikroklima, Photosynthese und Transpiration mediterraner Kermeseichen: Entwichklung und Anwendung eines Bestandessimulationsmodells auf der Grundlage ökologischer Messungen im portugiesischen Freiland. PhD Thesis. pp. 1162. University of Würzburg.
  • Meister H.P., Caldwell M.M., Tenhunen J.D. & Lange O.L. (1987) Ecological implications of sun/shade-leaf differentiation in sclerophyllous canopies: assessment by canopy modelling. In Plant Response to Stress. Functional Analysis in Mediterranean Ecosystems (eds J.D. Tenhunen, F.M. Catarino, O.L. Lange & W.C. Oechel), NATO ASI Series, pp. 402411. Springer-Verlag, Berlin, New York, Paris.
  • Monsi M. & Saeki T. (1953) Über den Lichtfaktor in den Pflanzengesellschaften und seine Bedeutung für die Stoffproduktion. Japanese Journal of Botany 14, 2252.
  • Norman J.M. & Campbell G.S. (1989) Canopy structure. In Plant Physiological Ecology – Field Methods and Instrumentation (eds R.W. Pearcy, J. Ehleringer, H.A. Mooney & P.W. Rundel), pp. 301325. Chapman & Hall, London New York.
  • Ögren E. (1993) Convexity of the photosynthetic light-response curve in relation of intensity and direction of light during growth. Plant Physiology 101, 10131019.
  • Ögren E. (1994) The significance of photoinhibition for photosynthetic productivity. In Photoinhibition of Photosynthesis – from Molecular Mechanisms to the Field (eds N.R. Baker & J.R. Bowyer), pp. 433447. Bios Scientific Publishing, Oxford.
  • Ögren E. & Evans J.R. (1992) Photoinhibition of photosynthesis in situ in six species of Eucalyptus. Australian Journal of Plant Physiology 19, 223232.
  • Ögren E. & Evans J.R. (1993) Photosynthetic light-response curves. I. The influence of CO2 partial pressure and leaf inversion. Planta 189, 182190.
  • Ögren E. & Sjöström M. (1990) Estimation of the effect of photoinhibition on the carbon gain in leaves of a willow canopy. Planta 181, 560567.
  • Ögren E., Öquist G. & Hällgren J.-E. (1984) Photoinhibition of photosynthesis in Lemna gibba as induced by interaction between light and Temperature. I. Photosynthesis in vivo. Physiologia Plantarum 62, 181186.
  • Osmond C.B. & Chow W.S. (1988) Ecology of photosynthesis in the sun and shade: summary and prognostications. Australian Journal of Plant Physiology 15, 19.
  • Osmond C.B. & Grace S.C. (1995) Perspective on photoinhibition and photorespiration in the field: quintessential inefficiencies of light and dark reactions of photosynthesis? Journal of Experimental Botany 46, 13511362.
  • Powles S.B. (1984) Photoinhibition of photosynthesis induced by visible light. Annual Review Plant Physiology 35, 1544.
  • Powles S.B. & Critchley C. (1980) Effect of light intensity during growth on photoinhibition of intact attached bean leaflets. Plant Physiology 65, 11811187.
  • Powles S.B., Berry J.A. & Björkman O. (1983) Interactions between light and chilling temperature on the inhibition of photosynthesis in chilling-sensitive plants. Plant, Cell and Environment 6, 117123.
  • Prioul J.L. & Chartier P. (1977) Partitioning of transfer and carboxylation components of intracellular resistance to photosynthetic CO2 fixation: a critical analysis of the methods used. Annals of Botany 41, 789800.
  • Rambal S. (1993) The differential role of mechanisms for drought resistance in a Mediterranean evergreen shrub: a simulation approach. Plant, Cell and Environment 16, 3544.
  • Raven J.A. (1994) The cost of photoinhibition to plant communities. In Photoinhibition of Photosynthesis – from Molecular Mechanisms to the Fields (eds N.R. Baker & J.R. Bowyer), pp. 449464. Bios Scientific Publishing, Oxford.
  • Ryel R.J. & Beyschlag W. (1995) Benefits associated with steep foliage orientation in two tussock grasses of the American Intermountain West. A look at water-use-efficiency and photoinhibition. Flora 190, 251260.
  • Ryel R.J., Barnes P.W., Beyschlag W., Caldwell M.M. & Flint S.D. (1990) Plant competition for light analysed with a multispecies canopy model. I. Model development and influence of enhanced UV-B conditions on photosynthesis in mixed wheat and wild oat canopies. Oecologia 82, 304310.
  • Ryel R.J., Beyschlag W. & Caldwell M.M. (1993) Foliage orientation and carbon gain in two tussock grasses as assessed with a new whole-plant gas-exchange model. Functional Ecology 7, 115124.
  • Schreiber U., Bilger W. & Neubauer C. (1994) Chlorophyll fluorescence as a nonintrusive indicator for rapid assessment of in vivo photosynthesis. In Ecophysiology of Photosynthesis (eds E.-D. Schulze & M.M. Caldwell), pp. 4970. Springer-Verlag, Berlin, Heidelberg, New York.
  • Tenhunen J.D., Harley P.C., Beyschlag W. & Lange O.L. (1987) A model of net photosynthesis for leaves of the sclerophyll Quercus coccifera. In Plant Response to Stress (eds J.D. Tenhunen, F. Catarino, O.L. Lange & W.E. Oechel), pp. 339354. Springer-Verlag, Berlin.
  • Tenhunen J.D., Lange O.L., Harley P.C., Beyschlag W. & Meyer A. (1985) Limitations due to water stress on leaf net photosyn-thesis of Quercus coccifera in the Portuguese evergreen shrub. Oecologia 67, 2330.
  • Tenhunen J.D., Meister H.P., Caldwell M.M. & Lange O.L. (1984) Environmental constraints on productivity of the Mediterranean sclerophyll shrub Quercus coccifera. Options Méditerranéennes 1, 3353.
  • Tenhunen J.D., Sala Serra A., Harley P.C., Dougherty R.L. & Reynolds F.J. (1990) Factors influencing carbon fixation and water use by Mediterranean sclerophyll shrubs during summer drought. Oecologia 82, 381393.
  • Valladares F. & Pearcy R.W. (1997) Interactions between water stress, sun-shade acclimation, heat tolerance and photoinhibition in the sclerophyll Heteromeles arbutifolia. Plant, Cell and Environment 20, 2536.
  • Valladares F. & Pearcy R.W. (1999) The geometry of light interception by shoots of Heteromeles arbutifolia: morphological and physiological consequences for individual leaves. Oecologia 121, 171182.DOI: 10.1007/s004420050919
  • Warren Wilson J. (1960) Inclined point quadrats. New Phytologist 58, 18.
  • Werner C. & Correia O. (1996) Photoinhibition in cork-oak leaves under stress: influence of the bark-stripping on the chlorophyll fluorescence emission in Quercus suber L. Trees 10, 288292.DOI: 10.1007/s004680050035
  • Werner C., Correia O. & Beyschlag W. (1999) Two different strategies of Mediterranean macchia plants to avoid photoinhibitory damage by excessive radiation levels during summer drought. Acta Oecologica 20, 1523.
  • Werner C., Correia O.A., Ryel R.J. & Beyschlag W. (1998) Modelling whole-plant primary production of macchia species: assessing the effects of photoinhibition and foliage orientation. Revista de Biologia 16, 247257.