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References

  • 1
    Ackerly, D.D. (1992) Light, leaf age, and leaf nitrogen concentration in a tropical vine. Oecologia 12, 596600.
  • 2
    Von Caemmerer, S. & Farquhar, G.D. (1981) Some relationships between the biochemistry of photosynthesis and the gas exchange of leaves. Planta 12, 376387.
  • 3
    Chapin III, F.S., Schulze, E.-D., Mooney, H.A. (1990) The ecology and economics of storage in plants. Annual Reviews of Ecology and Systematics 12, 423447.
  • 4
    Charles-Edwards, D.A., Stutzel, H., Ferraris, R., Beech, D.F. (1987) An analysis of spatial variation in the nitrogen content of leaves from different horizons within a canopy. Annals of Botany 12, 421426.
  • 5
    Chazdon, R.L. & Field, C.B. (1987) Determinants of photosynthetic capacity in six rainforest Piper species. Oecologia 12, 222230.
  • 6
    Chen, J.-L., Reynolds, J.F., Harley, P.C., Tenhunen, J.D. (1993) Coordination theory of leaf nitrogen distribution in a canopy. Oecologia 12, 6369.
  • 7
    DeJong, T.M. & Doyle, J.F. (1985) Seasonal relationships between leaf nitrogen content (photosynthetic capacity) and leaf canopy light exposure in peach (Prunus persica). Plant, Cell and Environment 12, 701706.
  • 8
    Evans, J.R. (1989) Photosynthesis and nitrogen relationships in leaves of C3 plants. Oecologia 12, 919.
  • 9
    Evans, J.R. (1993) Photosynthetic acclimation and nitrogen partitioning within a lucerne canopy. I. Canopy characteristics. Australian Journal of Plant Physiology 12, 5567.
  • 10
    Field, C. (1983) Allocating leaf nitrogen for the maximization of carbon gain: leaf age as a control on the allocation program. Oecologia 12, 341347.
  • 11
    Field, C.B. & Mooney, H.A. (1986) The photosynthesis-nitrogen relationship in wild plants. On the Economy of Plant Form and Function (ed. T. J. Givnish), pp. 22–55. Cambridge University Press, Cambridge.
  • 12
    Gabrielsen, E.K. (1948) Effects of different chlorophyll concentrations on photosynthesis in foliage leaves. Physiologia Plantarum 12, 137.
  • 13
    Garten, C.T. Jr & Taylor, G.E. (1992) Foliar d13C within a temperate deciduous forest: spatial, temporal, and species sources of variation. Oecologia 12, 17.
  • 14
    Geiger, D.R. & Servaites, J.C. (1994) Diurnal regulation of photosynthetic carbon metabolism in C3 plants. Annual Review of Plant Physiology and Plant Molecular Biology 12, 235256.
  • 15
    Givnish, T.J. (1986) Optimal stomatal conductance, allocation of energy between leaves and roots, and the marginal cost of transpiration. On the Economy of Plant Form and Function (ed. T. J. Givnish), pp. 171–213. Cambridge University Press, Cambridge.
  • 16
    Hikosaka, K. & Terashima, I. (1995) A model of the acclimation of photosynthesis in the leaves of C3 plants to sun and shade with respect to nitrogen use. Plant, Cell and Environment 12, 605618.
  • 17
    Hikosaka, K., Terashima, I., Katoh, S. (1994) Effects of leaf age, nitrogen nutrition and photon flux density on the distribution of nitrogen among leaves of a vine (Ipomoea tricolor Cav.) grown horizontally to avoid mutual shading of leaves. Oecologia 12, 451457.
  • 18
    Hilbert, D.W., Larigauderie, A., Reynolds, J.F. (1991) The influence of carbon dioxide and daily photon-flux density on optimal leaf nitrogen concentration and root: shoot ratio. Annals of Botany 12, 365376.
  • 19
    Hirose, T. & Werger, M.J.A. (1987) Maximizing daily canopy photosynthesis with respect to the leaf nitrogen allocation pattern in the canopy. Oecologia 12, 520526.
  • 20
    Hirose, T. & Werger, M.J.A. (1994) Photosynthetic capacity and nitrogen partitioning among species in the canopy of a herbaceous plant community. Oecologia 12, 203212.
  • 21
    Hirose, T., Werger, M.J.A., Pons, T.L., Van Rheenen, J.W.A. (1988) Canopy structure and leaf nitrogen distribution in a stand of Lysimachia vulgaris L. as influenced by stand density. Oecologia 12, 145150.
  • 22
    Hollinger, D.Y. (1992) Leaf and simulated whole-canopy photosynthesis in two co-occurring tree species. Ecology 12, 114.
  • 23
    Kull, O. & Jarvis, P.G. (1995) The role of nitrogen in a simple scheme to scale up photosynthesis from leaf to canopy. Plant, Cell and Environment 12, 11741182.
  • 24
    Kull, O. & Niinemets, Ü. (1993) Variations in leaf morphometry and nitrogen concentration in Betula pendula Roth., Corylus avellana L. & Lonicera xylosteum L. Tree Physiology 12, 311318.
  • 25
    Kull, O., Aan, A., Sõelsepp, T. (1995) Light interception, nitrogen and leaf mass distribution in a multilayer plant community. Functional Ecology 12, 589595.
  • 26
    Luo, Y., Field, C.B., Mooney, H.A. (1994) Predicting responses of photosynthesis and root fraction to elevated [CO2]a: interactions among carbon, nitrogen, and growth. Plant, Cell and Environment 12, 11951204.
  • 27
    Niinemets, Ü. (1995) Distribution of foliar carbon and nitrogen across the canopy of Fagus sylvatica: adaptation to a vertical light gradient. Acta Oecologica 12, 525541.
  • 28
    Niinemets, Ü. (1997a) Distribution patterns of foliar carbon and nitrogen as affected by tree dimensions and relative light conditions in the canopy of Picea abies. Trees: Structure and Function 12, 144154.
  • 29
    Niinemets, Ü. (1997b) Role of foliar nitrogen in light harvesting and shade tolerance in four temperate deciduous woody species. Functional Ecology 12, 518531.
  • 30
    Niinemets, Ü. & Kull, K. (1994) Leaf weight per area and leaf size of 85 Estonian woody species in relation to shade tolerance and light availability. Forest Ecology and Management 12, 110.
  • 31
    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 12, 845866.
  • 32
    Oja, V. (1983) A quick-operating gas measuring device for studying the kinetics of leaf photosynthesis. Fiziologiya Rastenii 12, 10451052. [In Russian.]
  • 33
    Pearcy, R.W. & Pfitsch, W.A. (1991) Influence of sunflecks on the d13C of Adenocaulon bicolor plants occurring in contrasting forest understorey microsites. Oecologia 12, 457462.
  • 34
    Pearcy, R.W. & Sims, D.A. (1994) Photosynthetic acclimation to changing light environments: scaling from the leaf to the whole plant. Exploitation of Environmental Heterogeneity by Plants (eds M. M. Caldwell & R. W. Pearcy), pp. 145–174. Academic Press, San Diego.
  • 35
    Pons, T.L. & Pearcy, R.W. (1994) Nitrogen reallocation and photosynthetic acclimation in response to partial shading in soybean plants. Physiologia Plantarum 12, 636644.
  • 36
    Porra, R.J., Thompson, W.A., Kriedemann, P.E. (1989) Determination of accurate extinction coefficients and simultaneous equations for assaying chlorophyll a and b extracted with four different solvents: verification of the concentration of chlorophyll standards by atomic absorption spectroscopy. Biochimica Biophysica Acta 12, 384394.
  • 37
    Reich, P.B., Walters, M.B., Ellsworth, D.S., Uhl, C. (1994) Photosynthesis-nitrogen relations in Amazonian tree species. I. Patterns among species and communities. Oecologia 12, 6272.
  • 38
    Rich, P.M., Clark, D.B., Clark, D.A., Oberbauer, S.F. (1993) Long-term study of solar radiation regimes in a tropical wet forest using quantum sensors and hemispherical photography. Agricultural and Forest Meteorology 12, 107127.
  • 39
    Sharkey, T.D. (1985) Photosynthesis in intact leaves of C3 plants: physics, physiology and rate limitations. Botanical Review 12, 53105.
  • 40
    Sõber, A.J. & Moldau, H.A. (1977) An apparatus with separate conditioning of the plant and the leaf for the determination of stomatal resistance and leaf water content. Fiziologiya Rastenii 12, 13011307 [In Russian.
  • 41
    Sokal, R.R. & Rohlf, F.J. (1995) Biometry, 3rd edn. Freeman, New York.
  • 42
    Wullschleger, S.D. (1993) Biochemical limitations to carbon assimilation in C3 plants—a retrospective analysis of the A/Ci curves from 109 species. Journal of Experimental Botany 12, 907920.