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  • Aasamaa K., Sõber A., Hartung W. & Niinemets Ü. (2002) Rate of stomatal opening, shoot hydraulic conductance and photosynthesis characteristics in relation to leaf abscisic acid concentration in six temperate deciduous trees. Tree Physiology 0, 267276.
  • Aasamaa K., Sõber A., Hartung W. & Niinemets Ü. (2004) Drought acclimation of two deciduous tree species of different layers in a temperate forest canopy. Trees: Structure and Function 18, 93101.
  • Andersson B. & Aro E.-M. (1997) Proteolytic activities and proteases of plant chloroplasts. Physiologia Plantarum 100, 780793.
  • Baldocchi D.D. & Bowling D.R. (2003) Modelling the discrimination of 13CO2 above and within a temperate broad-leaved forest canopy on hourly to seasonal time scales. Plant, Cell and Environment 26, 231244.
  • Baldocchi D.D. & Harley P.C. (1995) Scaling carbon dioxide and water vapour exchange from leaf to canopy in a deciduous forest. II. Model testing and application. Plant, Cell and Environment 18, 11571173.
  • Baldocchi D.D., Wilson K.B. & Gu L. (2002) How the environment, canopy structure and canopy physiological functioning influence carbon, water and energy fluxes of a temperate broad-leaved deciduous forest – an assessment with the biophysical model CANOAK. Tree Physiology 22, 10651077.
  • 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. In Progress in Photosynthesis Research. Proceedings of the VII. International Photosynthesis Congress (ed. J.Biggens) Vol. IV, pp. 221224. Martinus-Nijhoff Publishers, Dordrecht, The Netherlands.
  • Barbour M.M. & Farquhar G.D. (2000) Relative humidity- and ABA-induced variation in carbon and oxygen isotope ratios of cotton leaves. Plant, Cell and Environment 23, 473485.
  • Berninger F., Sonninen E., Aalto T. & Lloyd J. (2000) Modeling 13C discrimination in tree rings. Global Biogeochemical Cycles 14, 213223.
  • Broadmeadow M.S.J. & Griffiths H. (1993) Carbon isotope discrimination and the coupling of CO2 fluxes within forest canopies. In Stable Isotopes and Plant Carbon–Water Relations (eds J.R.Ehleringer, A.E.Hall & G.D.Farquhar) Physiological Ecology, pp. 109129. Academic Press, Inc., San Diego.
  • Brooks J.R., Flanagan L.B., Buchmann N. & Ehleringer J.R. (1997a) Carbon isotope composition of boreal plants: functional grouping of life forms. Oecologia 110, 301311.
  • Brooks J.R., Flanagan L.B., Varney G.T. & Ehleringer J.R. (1997b) Vertical gradients in photosynthetic gas exchange characteristics and refixation of respired CO2 within boreal forest canopies. Tree Physiology 17, 112.
  • Brugnoli E., Hubick K.T., Von Caemmerer S., Wong S.C. & Farquhar G.D. (1988) Correlation between the carbon isotope discrimination in leaf starch and sugars of C3 plants and the ratio of intercellular and atmospheric partial pressures of carbon dioxide. Plant Physiology 88, 14181424.
  • Buchmann N., Kao W.-Y. & Ehleringer J. (1997) Influence of stand structure on carbon-13 of vegetation, soils, and canopy air within deciduous and evergreen forests in Utah, United States. Oecologia 110, 109119.
  • Chen Y.-K., Pell A.N., Chase L.E. & Schofield P. (1999) Rate and extent of digestion of the ethanol-soluble and neutral detergent-insoluble fractions of corn grain. Journal of Animal Science 77, 30773083.
  • Cornic G. (2000) Drought stress inhibits photosynthesis by decreasing stomatal aperture – not by affecting ATP synthesis. Trends in Plant Science 5, 187188.
  • Damesin C. & Lelarge C. (2003) Carbon isotope composition of current-year shoots from Fagus sylvatica in relation to growth respiration and use of reserves. Plant, Cell and Environment 26, 207219.
  • Damesin C., Rambal S. & Joffre R. (1997) Between-tree variations in leaf δ13C of Quercus pubescens and Quercus ilex among Mediterranean habitats with different water availability. Oecologia 111, 2635.
  • Dang Q.-L., Margolis H.A., Coyea M.R., Sy M. & Collatz G.J. (1997) Regulation of branch-level gas exchange of boreal trees: roles of shoot water potential and vapor pressure difference. Tree Physiology 17, 521535.
  • Ehleringer J. & Björkman O. (1977) Quantum yields for CO2 uptake in C3 and C4 plants. Dependence on temperature, CO2 and O2 concentration. Plant Physiology 59, 8690.
  • Esquível M.G., Ferreira R.B. & Teixeira A.R. (1998) Protein degradation in C3 and C4 plants with particular reference to ribulose bisphosphate carboxylase and glycolate oxidase. Journal of Experimental Botany 49, 807816.
  • Falge E., Graber W., Siegwolf R. & Tenhunen J.D. (1996) A model of the gas exchange response of Picea abies to habitat conditions. Trees: Structure and Function 10, 277287.
  • Farquhar G.D., Ehleringer J.R. & Hubick K.T. (1989) Carbon isotope discrimination and photosynthesis. Annual Review of Plant Physiology and Plant Molecular Biology 40, 503537.
  • Farquhar G.D., O'Leary M.H. & Berry J.A. (1982) On the relationship between carbon isotope discrimination and the intercellular carbon dioxide concentration in leaves. Australian Journal of Plant Physiology 9, 121137.
  • 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.
  • Flexas J. & Medrano H. (2002) Drought-inhibition of photosynthesis in C3 plants: stomatal and non-stomatal limitations revisited. Annals of Botany 89, 183189.
  • Francey R.J., Gifford R.M., Sharkey T.D. & Weir B. (1985) Physiological influences on carbon isotope discrimination in huon pine (Lagarostrobos franklinii). Oecologia 66, 211218.
  • Garten C.T. Jr & Taylor G.E. Jr (1992) Foliar δ13C within a temperate deciduous forest: spatial, temporal, and species sources of variation. Oecologia 90, 17.
  • Gates D.M. (1980) Biophysical Ecology. Springer-Verlag, New York, USA.
  • Goldstein G., Andrade J.L., Meinzer F.C., Holbrook N.M., Cavelier J., Jackson P. & Celis A. (1998) Stem water storage and diurnal patterns of water use in tropical forest canopy trees. Plant, Cell and Environment 21, 397406.
  • Griffiths G., Leverentz M., Silkowski H., Gill N. & Sánchez-Serrano J.J. (2000) Lipid hydroperoxide levels in plant tissues. Journal of Experimental Botany 51, 13631370.
  • Hanba Y.T., Mori S., Lei T.T., Koike T. & Wada E. (1997) Variations in leaf δ13C along a vertical profile of irradiance in a temperate Japanese forest. Oecologia 110, 253261.
  • Harley P.C., Thomas R.B., Reynolds J.F. & Strain B.R. (1992) Modelling photosynthesis of cotton grown in elevated CO2. Plant, Cell and Environment 15, 271282.
  • Hoch G., Richter A. & Körner Ch. (2003) Non-structural carbon compounds in temperate forest trees. Plant, Cell and Environment 26, 10671081.
  • Hogg E.H., Saugier B., Pontailler J.-Y., Black T.A., Chen W., Hurdle P.A. & Wu A. (2000) Responses of trembling aspen and hazelnut to vapor pressure deficit in a boreal deciduous forest. Tree Physiology 20, 725734.
  • Jarvis P.G. (1976) The interpretation of the variations in leaf water potential and stomatal conductance found in canopies in the field. Philosophical Transactions of the Royal Society of London. Series B – Biological Sciences 273, 593610.
  • Joyce B.J. & Steiner K.C. (1995) Systematic variation in xylem hydraulic capacity within the crown of white ash (Fraxinus americana). Tree Physiology 15, 649656.
  • Kubiske M.E. & Abrams M.D. (1993) Stomatal and nonstomatal limitations of photosynthesis in 19 temperate tree species on contrasting sites during wet and dry years. Plant, Cell and Environment 16, 11231129.
  • Lange O.L., Tenhunen J.D. & Beyschlag W. (1985) Effects of humidity during diurnal courses on the CO2- and light-saturated rate of net CO2 uptake: in the sclerophyllous leaves of Arbutus unedo. Oecologia 67, 301304.
  • Lauteri M., Scartazza A., Guido M.C. & Brugnoli E. (1997) Genetic variation in photosynthetic capacity, carbon isotope discrimination and mesophyll conductance in provenances of Castanea sativa adapted to different environments. Functional Ecology 11, 675683.
  • Le Roux X., Bariac T., Sinoquet H., Genty B., Piel C., Mariotti A., Girardin C. & Richard P. (2001) Spatial distribution of leaf water-use efficiency and carbon isotope discrimination within an isolated tree crown. Plant, Cell and Environment 24, 10211032.
  • Le Roux X., Grand S., Dreyer E. & Daudet F.-A. (1999) Parameterization and testing of a biochemically based photosynthesis model for walnut (Juglans regia) trees and seedlings. Tree Physiology 19, 481492.
  • Lipavská H., Svobodová H. & Albrechtová J. (2000) Annual dynamics of the content of non-structural saccharides in the context of structural development of vegetative buds of Norway spruce. Journal of Plant Physiology 157, 365373.
  • Mencuccini M., Mambelli S. & Comstock J. (2000) Stomatal responsiveness to leaf water status in common bean (Phaseolus vulgaris L.) is a function of time of day. Plant, Cell and Environment 23, 11091118.
  • Morecroft M.D. & Roberts J.M. (1999) Photosynthesis and stomatal conductance of mature canopy oak (Quercus robur) and sycamore (Acer pseudoplatanus) trees throughout the growing season. Functional Ecology 13, 332342.
  • Moriana A., Villalobos F.J. & Fereres E. (2002) Stomatal and photosynthetic responses of olive (Olea europea L.) leaves to water deficits. Plant, Cell and Environment 25, 395405.
  • Muraoka H., Tang Y., Terashima I., Koizumi H. & Washitani I. (2000) Contributions of diffusional limitation, photoinhibition and photorespiration to midday depression of photosynthesis in Arisaema heterophyllum in natural high light. Plant, Cell and Environment 23, 235250.
  • Niinemets Ü. (1995) Distribution of foliar carbon and nitrogen across the canopy of Fagus sylvatica: adaptation to a vertical light gradient. Acta Oecologica 16, 525541.
  • Niinemets Ü. & Kull O. (2001) Sensitivity to photoinhibition of photosynthetic electron transport in a temperate deciduous forest canopy: Photosystem II centre openness, non-radiative energy dissipation and excess irradiance under field conditions. Tree Physiology 21, 899914.
  • Niinemets Ü. & Tenhunen J.D. (1997) A model separating leaf structural and physiological effects on carbon gain along light gradients for the shade-tolerant species Acer saccharum. Plant, Cell and Environment 20, 845866.
  • Niinemets Ü., Bilger W., Kull O. & Tenhunen J.D. (1998) Acclimation to high irradiance in temperate deciduous trees in the field: changes in xanthophyll cycle pool size and in photosynthetic capacity along a canopy light gradient. Plant, Cell and Environment 21, 12051218.
  • Niinemets Ü., Bilger W., Kull O. & Tenhunen J.D. (1999a) Responses of foliar photosynthetic electron transport, pigment stoichiometry, and stomatal conductance to interacting environmental factors in a mixed species forest canopy. Tree Physiology 19, 839852.
  • Niinemets Ü., Sõber A., Kull O., Hartung W. & Tenhunen J.D. (1999b) Apparent controls on leaf conductance by soil water availability and via light-acclimation of foliage structural and physiological properties in a mixed deciduous, temperate forest. International Journal of Plant Sciences 160, 707721.
  • Niinemets Ü., Kull O. & Tenhunen J.D. (1999) Variability in leaf morphology and chemical composition as a function of canopy light environment in co-existing trees. International Journal of Plant Sciences 160, 837848.
  • Niinemets Ü., Kull O. & Tenhunen J.D. (2004) Within canopy variation in the rate of development of photosynthetic capacity is proportional to integrated quantum flux density in temperate deciduous trees. Plant, Cell and Environment 27, in press.
  • Niinemets Ü., Oja V. & Kull O. (1999) Shape of leaf photosynthetic electron transport versus temperature response curve is not constant along canopy light gradients in temperate deciduous trees. Plant, Cell and Environment 22, 14971514.
  • Nobel P.S. (1991) Physicochemical and Environmental Plant Physiology, 4th edn. Academic Press, Inc, San Diego, CA, USA.
  • O'Leary M.H., Madhavan S. & Paneth P. (1992) Physical and chemical basis of carbon isotope fractionation in plants. Plant, Cell and Environment 15, 10991104.
  • Ögren E. & Sjöström M. (1990) Estimation of the effect of photoinhibition on the carbon gain in leaves of a willow canopy. Planta 181, 560567.
  • Ohlrogge J.B. & Jaworski J.G. (1997) Regulation of fatty acid synthesis. Annual Review of Plant Physiology and Plant Molecular Biology 48, 109136.
  • Pearcy R.W. (1999) Responses of plants to heterogeneous light environments. In Handbook of Functional Plant Ecology (eds F. I.Pugnaire & F.Valladares), pp. 269314. Marcel Dekker, New York, USA.
  • Pearcy R.W. & Pfitsch W.A. (1991) Influence of sunflecks on the δ13C of Adenocaulon bicolor plants occuring in contrasting forest understory microsites. Oecologia 86, 457462.
  • Poorter H. (1994) Construction costs and payback time of biomass: a whole plant perspective. In A Whole Plant Perspective on Carbon–Nitrogen Interactions (eds J.Roy & E.Garnier), pp. 111127. SPB Academic Publishing bv, The Hague, The Netherlands.
  • Roeloffzen J.C., Mook W.G. & Keeling C.D. (1991) Trends and variations in stable carbon isotopes of atmospheric carbon dioxide. In Proceedings of the IAEA Conference on Stable Isotopes in Plant Nutrition, Soil Fertility and Environmental Studies pp. 601618. International Atomic Energy Agency, Vienna, Austria.
  • Salleo S., Nardini A. & Lo Gullo M.A. (2000) Xylem cavitation and hydraulic control on stomatal conductance in laurel (Laurus nobilis L.). Plant, Cell and Environment 23, 7179.
  • Schleser G.H. (1990) Investigations of the δ13C pattern in leaves of Fagus sylvatica L. Journal of Experimental Botany 41, 565572.
  • Sinoquet H., Le Roux X., Adam B., Ameglio T. & Daudet F.A. (2001) RATP: a model for simulating the spatial distribution of radiation absorption, transpiration and photosynthesis within canopies: application to an isolated tree crown. Plant, Cell and Environment 24, 395406.
  • Sperry J.S., Adler F.R., Campbell G.S. & Comstock J.P. (1998) Limitation of plant water use by rhizosphere and xylem conductance: results from a model. Plant, Cell and Environment 21, 347359.
  • Tardieu F. & Simonneau T. (1998) Variability among species of stomatal control under fluctuating soil water status and evaporative demand: modelling isohydric and anisohydric behaviours. Journal of Experimental Botany 49, 419432.
  • Terwilliger V.J. (1997) Changes in the δ13C values of trees during a tropical rainy season: some effects in addition to diffusion and carboxylation by Rubisco? American Journal of Botany 84, 16931700.
  • Tinoco-Ojanguren C. & Pearcy R.W. (1993) Stomatal dynamics and its importance to carbon gain in two rainforest Piper species. II. Stomatal versus biochemical limitations during photosynthetic induction. Oecologia 94, 395402.
  • Werner C., Ryel R.J., Correia O. & Beyschlag W. (2001) Effects of photoinhibition on whole-plant carbon gain assessed with a photosynthesis model. Plant, Cell and Environment 24, 2740.
  • Wilson K.B., Baldocchi D.D. & Hanson P.J. (2000) Quantifying stomatal and non-stomatal limitations to carbon assimilation resulting from leaf aging and drought in mature deciduous tree species. Tree Physiology 20, 787797.
  • Wong S.-C., Cowan I.R. & Farquhar G.D. (1985) Leaf conductance in relation to rate of CO2 assimilation. I. Influence of nitrogen nutrition, phosphorus nutrition, photon flux density, and ambient partial pressure of CO2 during ontogeny. Plant Physiology 78, 821825.
  • Yemm E.W. & Willis A.J. (1954) The estimation of carbohydrates in plant extracts by anthrone. Biochemical Journal 57, 508514.
  • Yoshie F. (1986) Intercellular CO2 concentration and water-use efficiency of temperate plants with different life-forms and from different microhabitats. Oecologia 68, 370374.
  • Yu Q., Goudriaan J. & Wang T.-D. (2001) Modelling diurnal courses of photosynthesis and transpiration of leaves on the basis of stomatal and non-stomatal responses, including photoinhibition. Photosynthetica 39, 4351.
  • Zhang S.R., Li Q.K., Ma K.P. & Chen L.Z. (2001) Temperature-dependent gas exchange and stomatal/non-stomatal limitation to CO2 assimilation of Quercus liaotungensis under midday high irradiance. Photosynthetica 39, 383388.