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Adams III WW, Winter K, Schreiber U, Schramel P (1990) Photosynthesis and chlorophyll fluorescence characteristics in relationship to changes in pigment and element composition of leaves of Platanus occidentalis L. during autumnal leaf senescence. Plant Physiol 93: 1184-1190.

Aerts R (1990) Nutrient use efficiency in evergreen and deciduous species from heathlands. Oecologia 84: 391-397.

Aerts R, Chapin FS III (2000) The mineral nutrition of wild plants revisited: a re-evaluation of processes and patterns. Advances in Ecological Research 30: 1-67

Aerts R, de Caluwe H (1995) Interspecific and intraspecific differences in shoot and leaf lifespan of four Carex species which differ in maximum dry matter production. Oecologia 102: 467-477.

Allen JF et al. (1981) Chloroplast protein photsphorylation couples plastoquinone redox state distribution of excitation energy between potosystems. Nature 291: 25-29.

Amthor JS (1994) Higher plant respiration and its relationships to photosynthesis. In eds by E-D Schulze and MM Caldwell Ecophysiology of photosynthesis. Springer, Berlin. pp. 71-101

Anderson JM (1986) Photoregulation of the composition, function, and structure of thylakoid membranes. Ann Rev Plant Physiol, 46, 161-172.

Anderson JM, Chow WS, Goodchild DJ (1988) Thylakoid membrane organisation in sun/shade acclimation. Aust J Plant Physiol, 15, 11-26.

Anten NPR, Schieving F, Werger MJA (1995a) Patterns of light and nitrogen distribution in relation to whole canopy carbon gain in C3 and C4 mono- and dicotyledonous species. Oecologia 101: 504-513.

Anten, N.P.R., Schieving, F., Medina, E., Werger, M.J.A. and Schuffelen, P. (1995b) Optimal leaf area indices in C3 and C4 mono- and dicotyledonous species at low and high nitrogen availability. Physiologia Plantarum 95: 541-550.

Anten NPR (1997) Modelling canopy photosynthesis using parameters determined from simple non-destructive measurements. Ecological Research 12: 77-88.

Armond PA, Schreiber US, Bjorkman O. 1978. Photosynthetic acclimation to temperature in the desert shrub, Larrea divaricata. II. Light-harvesting efficiency and electron transport. Plant Physiology 61: 411-415.

Arnon DI (1949) Copper enzymes in isolated chloroplasts. Polyphenoloxidases in Beta Vulgaris. Plant Physiol 24: 1-15.

Aro E-M, Virgin I, Andersson B (1993b) Photoinhibition of photosystem II. inactivation, protein damage and turnover. Biochimica et Biophysica Acta 1143: 113-134.

Arp WJ (1991) Effects of source-sink relations on photosynthetic acclimation to elevated CO2. Plant Cell Environ 14: 869-875.

Asada K (1999) The water-water cycle in chloroplasts: scavenging of active oxygens and dissipation of excess photons. Annual Review of Plant Physiology and Plant Molecular Biology. 50: 601-639.

浅田浩二(1999)葉の光環境変動に対する迅速適応(渡邊昭ら編)植物細胞工学シリーズ11 植物の環境応答 秀潤社 pp. 107-119.

Azcon-Bieto J, Lambers H, Day DA (1983) Effect of photosynthesis and carbohydrate status on respiratory rates and the involvement of the alternative pathway in leaf respiration. Plant Physiology 72: 598-603.

Azcon-Bieto J, Osmond CB (1983) Relationship between photosynthesis and respiration. Plant Physiology 71: 574-581

Badger MR, Bjorkman O, Armond PA. 1982. An analysis of photosynthetic response and adaptation to temperature in higher plants: temperature acclimation in the desert evergreen Nerium oleander L. Plant, Cell and Environment 5, 85-99.

Biley S, Walters RG, Jansson S, Horton P (2001) Acclimation of Arabidopsis thaliana to the light environment: the exstence of separate low light and high light responses. Planta 213: 794-801.

Ball JT, Woodrow IE, Berry JA (1987) A model predicting stomatal conductance and its contribution to the control of photosynthesis under different environmental conditions. pp. 221-224. In J Biggins (ed) Prog. Photosynthesis Res. Proc. Int. Congress 7th, Providence. 10-15 Aug 1986. Vol 4, Kluwer, Boston.

Barber J (1987) Composition, organization, and dynamics of the thylakoid membrane in relation to its function. In The biochemistry of plants. Vol. 10, Photosynthesis (eds Hatch M.D. & Boardman N.K.), pp. 76-130. Academic Press, Inc., London.

Bassi R, Rigoni F, Gaicome GM (1990) Chlorophyll binding proteins with antenna function in higher plants and green algae. Photochem Photobiol, 52, 1187-1206.

Bazzaz FA (1997) Allocation of respirces in plants: state of the science and critical questions. In; Bazzaz FA & Grace J (eds), Plant Resource Allocation. pp. 1-37. Academic Press, London.

Berendse F, Aerts R (1987) Nitrogen use efficiency: a biologically meaningful definition? Functional Ecology 1: 293-296.

Berry JA, Bjorkman O. 1980. Photosynthetic response and adaptation to temperature in higher plants. Annual Review of Plant Physiology 31: 491-543.

Besford RT (1986) Changes in some Calvin cycle enzymes of the tomato during acclimation to irradiance. J Exp Bot. 37: 200-210.

Besford RT, Ludwig LJ, Withers AC (1990) The greenhouse effect: acclimation of tomato plants growing in high CO2, photosynthesis and ribulose-1,5-bisphosphate carboxylase protein. Journal of Experimental Botany 41: 925-931.

Bjorkman O, Holmgren P (1963) Adaptability of the photosynthetic apparatus to light intensity in ecotypes from exposed and shaded habitats. Physiol Plant, 16, 889-914.

Bjorkman O (1968) Further studies on differentiation of photosynthetic properties in sun and shade ecotypes of Solidago virgaurea. Physiol Plant, 21, 84-99.

Bjorkman O (1981) Responses to different quantum flux densities. In Encyclopedia of plant physiology I, New series, Vol. 12A (eds Lange OL, Nobel PS, Osmond CO, Ziegler H), pp. 57-107, Springer-Verlag, Berlin.

Bjorkman O, Demmig B (1987) Photon yield of O2 evolution and chlorophyll fluorescence characteristics at 77 K among vascular plants of diverse origins. Planta 170: 489-504.

Boardman NK (1977) Comparative Photosynthesis of sun and shade plants. Ann Rev Plant Physiol, 28, 355-377.

Boysen-Jensen P (1932) Die Stoffproduktion der Pflanzen. G. Fischer, Jena.

Boote KJ, Loomis RS (1991) The prediction of canopy assimilation. In: Boote KJ, Loomis RS, eds. Modeling crop photosynthesis -from biochemistry to canopy. Madison: Crop Science Society of America, Inc. and American Society of Agronomy, Inc.: Madison, 17-39.

Brooks A, Farquhar GD (1985) Effect of temperature on the CO2/O2 specificity of ribulose-1,5-bisphosphate carboxylase/oxygenase and the rate of respiration in the light. Planta 165: 397-406.

Brouwer R (1962) Nutritive influences on the distribution of dry matter in the plant. Netherlands Journal of Agricultural Science 10: 399-408.

Brown RH (1978) A difference in N use efficiency in C3 and C4 plants and its implication in adaptation and evolution. Crop Science 18: 93-98.

Bruinsma J (1961) Biochimica et Biophysica Acta 52: 576-578.

Bryant JP, Chapin FS III, Klein DR. 1983. Carbon/nutrient balance of boreal plants in relation to vertebrate herbivory. Oikos 40: 357-368.

Bryant JP, Chapin FS III, Reichardt PB, Clausen TP. 1987a. Response of winter chemical defense in Alaska paper birch and green alder to manipulation of plant carbon/nutrient balance. Oecologia 72: 510-514.

Bryant JP, Clausen TP, Reichardt PB, McCarthy MC, Werner RA. 1987b. Effect of nitrogen fertilization upon the secondary chemistry and nutritional value of quaking aspen (Populus tremuloides Michx.) leaves for the large aspen tortrix (Choristoneura conflictana (Walker)). Oecologia 73: 513-517.

Bunce JA (2000) Acclimation of photosynthesis to temperature in eight cool and warm climate herbaceous C3 species: temperature dependence of parameters of a biochemical photosynthesis model. Photosynthesis Research 63: 59-67.

Byrd GT, Sage RF, Brown RH (1992) A comparison of dark respiration between C3 and C4 plants. Plant Physiology 100: 191-198.

Caemmerer, S. von & Farquhar, G.D. (1981) Some relationships between the biochemistry of photosynthesis and the gas exchange of leaves. Planta 153, 376-387.

Caemmerer, S. von & Evans, J.R. (1991) Determination of the average partial pressure of CO2 in chloroplasts from leaves of several C3 plants. Australian Journal of Plant Physiology 18, 287-305.

Camp PJ, Huber SC, Burke JJ, Moreland DE (1982) Biochemical changes that occur during senescence of wheat leaves. Plant Physiol, 70, 1641-1646.

Cardon ZG, Mott KA, Berry JA (1994) Dynamics of patchy stomatal movements, and their contribution to steady-state and oscillating stomatal conductance calculated using gas-exchange techniques. Plant Cell Environ 17: 995-1007

Casal JJ, Smith H (1989) The function, action and adaptive significance of phytochrome in light-grown plants. Plant, Cell & Environment 12: 855-862.

Chabot BF, Chabot JF (1977) Effects of light and temperature on leaf anatomy and photosynthesis in Fragaria vesca. 26: 363-377.

Chabot BF, Jurik TW, Chabot JF (1979) Influence of instantaneous and integrated light-flux density on leaf anatomy and photosynthesis. Amer J Bot 66: 940-945.

Chapin FS III (1980) The mineral nutrition of wild plants. Ann Rev Ecol Syst 11: 233-260

Chapin FS III (1989) The cost of tundra plant structures: evaluation of conceptst and currencies. American Naturalist 133: 1-19

Chazdon RL, Field CB (1987) Determinants of photosynthetic capacity in six rainforest Piper species. Oecologia 73: 222-230.

Chazdon RL (1992) Photosynthetic plasticity of two rain forest shrubs across natural gap transects. Oecologia 92: 586-595.

Chazdon RL, Kaufmann S (1993) Plasticity of leaf anatomy of two rain forest shrubs in relation to photosynthetic light acclimation. Functional Ecology 7: 385-394.

Cheeseman JM (1991) PATCHY: simulating and visualizing the effects of stomaral patchiness on photosynthetic CO2 exchange studies. Plant, Cell and Environment. 14: 593-599.

Chow WS, Melis A, Anderson JM (1990a) Adjustments of photosystem stoichiometry in chloroplasts improve the quantum efficiency of photosynthesis, Proceedings of the National Academy of Sciences, USA 87: 7502-7506.

Chow WS, Anderson JM, Melis A (1990b) The stoichiometry in thylakoids of some australian shade-adapted plant species. Aust J Plant Physiol 17: 665-674.

Chow WS, Goodchild DJ, Miller C, Anderson JM (1990c) The influence of high levels of brief or prolonged supplementary far-red illumination during growth on the photosynthetic characteristics, composition and morphology of Pisum sativum chloroplasts. Plant, Cell & Environment 13: 135-145.

Chow WS, Hope AB, Anderson JM (1991) Further studies on quantifying photosystem II in vivo by flush-induced oxygen yield from leaf discs. Aust J Plant Physiol 18: 397-410.

Chow WS (1994) Photoprotection and photoinhibitory damage. Adv Mol Cell Biol 10: 151-196

Coley PD, Bryant JP, Chapin III FS (1985) Resource availability and plant antiherbivore defense. Science 230: 895-899.

Coley PD (1988) Effects of plant growth rate and leaf lifetime on the amount and type of anti-herbivore defense. Oecologia 74: 531-536.

Cowan IR. 1977. Stomatal behaviour and environment. Advances in Botanical Research 4: 117-228.

Crafts-Brandner SJ, Salvucci ME, Egli DB (1990) Changes in ribulosebisphosphate carboxylase/oxygenase and ribulose 5-phosphate kinase abundances and photosynthetic capacity during leaf senescence. Photosyn Res 23, 223-230.

Crafts-Brandner SJ, Salvucci ME. 2000. Rubisco activase constrains the photosynthetic potential of leaves at high temperature and CO2. Proceedings of National Academy of Science, USA 97, 13430-43435.

Cunningham SC, Read J 2002 Comparison of temperate and tropical rainforest tree species: photosynthetic responses to rowth temperature Oecologia 133: 112-119.

Cyr H, Pace ML (1993) Magnitude and patterns of herbivory in aquatic and terrestrial ecosystems. Nature 361: 148-150.

Daley PF, Raschke K, Ball JT, Berry JA (1989) Topography of photosynthetic activity of leaves obtained from video images of chlorophyll fluorescence Plant Physiology 90: 1233-1238

Davidson RL (1969) Effects of root/leaf temperature differentials on root/shoot ratios in some pasture grasses and clover. Annals of Botany 33: 561-569.

Davis EC, Chow WS, Le Fay JM, Jordan BR (1986) Acclimation of tomato leaves to changes in light intensity: effects on the function of the thylakoid membrane. J Exp Bot 37: 211-220.

DeJong TM, Doyle JF (1985) Seasonal relationships between leaf nitrogen content (photosynthetic capacity) and leaf canopy light exposure in peach (Prunus persica). Plant Cell Environ 8: 701-706.

De la Torre WR, Burkey KO (1990a) Acclimation of barley to changes in light intensity: chlorophyll organization. Photosyn Res, 24, 117-125.

De la Torre WR, Burkey KO (1990b) Acclimation of barley to changes in light intensity: photosynthetic electron transport activity and components. Photosyn Res, 24, 127-136.

Demmig-Adams B, Adams III WW, Logan BA, Verhoven AS (1995) Xanthophyll cycle-dependent energy dissipation and flexible photosystem II efficency in plants acclimated to light stress. Australian Journal of Plant Physiology 22: 249-260

Demmig-Adams B, Adams III WW (1996) Xanthophyll cycle and light stress in nature: uniform response to excess direct sunlight among higher plant species. Planta 198: 460-470

Demmig-Adams B, Adams WW III, Baker DH, Logan BA, Bowling DR, Verhoeven AS (1996) Using chloroplast fluorescence to assess the fraction of absorbed light allocated to thermal dissipation of excess excitation. Physiologia Plantarum 98: 253-264.

Delfine S, Alvino A, Zacchini M, Loreto F (1998) Consequence of salt stress on conductance to CO2 diffusion, rubisco characteristics and anatomy of spinach leaves. Australian Journal of Plant Physiology 25: 395-402.

Delucia EH, Schlesinger WH (1991) Resource-use efficiency and drought tolerance in adjacent great basin and sierran plants. Ecology 72: 51-58.

Dormann CF. 2003. Consequences of manipulations in carbon and nitrogen supply for concentration of anti-herbivore defence compounds in Salix polaris. Ecoscience 10: 312-318.

Duncan, W. G., 1971. Leaf angles, leaf area, and canopy photosynthesis. Crop Science, 11: 482-485.

Eckstein RL, Karlsson PS (1997) Above-ground growth and nutrient use by plants in a subarctic environment: effects of habitat, life-form and species. Oikos 79: 311-324.

Eckstein J, Artsaenko O, Conrad U, Peisker M, Beyschlag W (1998) Absisic acid is not necessarily required for the induction of patchy stomatal closure. Journal of Experimental Borany 49: 611-616.

Egle K (1960) Menge und Verhaltnis der Pigmente. In Encyclopedia of Plant Physiology (ed Ruhland W.) 5, pp.452-496. Springer-Verlag, Berlin.

Ehleringer JR, Bjorkman O. 1977. Quantum yields for C3 and C4 plants. Dependence on temperature, CO2 and O2 concentration. Plant Physiology 59: 86-90.

Ehrlich PR, Raven PH (1964) Butterflies and plants: a study in coevolution. Evolution 18: 586-608.

Ellenberg HE (1979) Zeigerwerte der Gefasspflanze Mitteleuropas. Scripa Geobotanica 9.

Ellsworth DS, Reich PB (1992) Leaf mass per area, nitrogen content and photosynthetic carbon gain in Acer saccharum seedlings in contrasting forest light environments. Functional Ecology 6: 423-435.

Ellsworth DS, Reich PB (1993) Canopy structure and vertical patterns of photosynthesis and related leaf traits in a deciduous forest. Oecoogia 96: 169-178.

Ellsworth DS, Oren R, Huang C, Phillips N, Hendrey GR (1995) Leaf and canopy responses to elevated CO2 in a pine forest under free-air CO2 enrichment. Oecologia 104: 139-146.

ELLSWORTH D. S. & REICH P. B. (1996) Photosynthesis and leaf nitrogen in five amazonian tree species during early secondary succession. Ecology 77: 581-594.

Epron, D., Godard, D., Cornic, G. & Genty, B. (1995) Limitation of net CO2 assimilation rate by internal resistances to CO2 transfer in the leaves of two tree species Fagus sylvatica L. and Castanea sativa Mill.) Plant, Cell & Environment 18, 43-51.

Escudero A, del Arco JM, Sanz IC, Ayala J (1992) Effects of leaf longevity and retranslocation efficiency on the retention time of nutrients in the leaf biomass of different woody species. Oecologia 90: 80-87

Evans JR (1983) Nitrogen and photosynthesis in the flag leaf of wheat (Triticum aestivum L.). Plant Physiol, 72, 297-302.

Evans JR, Sharkey TD, Berry JA, Farquhar GD (1986) Carbon isotope discrimination measured concurrently with gas exchange to investigate CO2 diffusion in leaves of higher plants. Aust J Plant Physiol, 13, 281-293.

Evans JR (1987) The relationship between electrron transport components and photosynthetic capacity in pea leaves grown at different irradiance. Australian Journal of Plant Physiology 14: 157-170.

Evans JR, Anderson JM (1987) Absolute absorption and relative fluorescence excitation spectra of the five major chlorophyll-protein complexes from spinach thykakoid membranes. Biochimica et Biophysica Acta 892: 75-82.

Evans JR, Terashima I (1987) Effects of nitrogen nutrition on electron transport components and photosynthesis in spinach. Aust J Plant Physiol 14: 59-68.

Evans JR, Terashima I (1988) Photosynthetic characteristics of spinach leaves grown with different nitrogen treatments. Plant Cell Physiol, 29, 157-165.

Evans JR (1989a) Photosynthesis and nitrogen relationships in leaves of C3 plants. Oecologia 78: 9-19.

Evans JR (1989b) Photosynthesis - the dependence on nitrogen partitioning. In Causes and consequences of variation in growth rate and productivity of higher plants (eds Lambers H., Cambridge M.L., Konings H. & Pons T.L.), pp.159-170. SPB Academic, The Hague.

Evans JR (1989c) Partitioning of nitrogen between and within leaves grown under different irradiances. Australian Journal of Plant Physiology 16: 533-548.

Evans JR, Seemann JR (1989) The allocation of protein nitrogen in the photosynthetic apparatus: costs, consequences, and control. In: Brigs WR ed, Photosynthesis. Alan R. Liss, Inc., New York. 183-205.

Evans JR (1993a) Photosynthetic acclimation and nitrogen partitioning in lucerne canopy. I. Canopy characteristics. Aust J Plant Physiol, 20, 55-67.

Evans JR (1993b) Photosynthetic acclimation and nitrogen partitioning within a lucerne canopy. II Stability through time and comparison with a theoretical optimum. Aust J Plant Physiol, 20, 69-82.

Evans JR, Jakobsen I, OgrenE (1993) Photosynthetic light-response curves. 2. Gradients of light absorption and photosynthetic capacity. Planta 189: 191-200.

Evans JR (1994) Developmental constrains on photosynthesis: effects of light and nutrition. In: Baker NR ed, Photosynthesis and the environment. Kluwer Academic Press, Dordrecht. 281-304.

Evans JR, Caemmerer von S, Setchell BA, Hudson GS (1994) The relationship between CO2 transfer conductance and leaf anatomy in transgenic tobacco with a reduced content of Rubisco. Aust J Plant Physiol, 21, 475-495.

Farquhar GD, von Caemmerer S, Berry JA (1980) A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species. Planta 149: 78-90.

Farquhar GD, Caemmerer S von. 1982. Modelling of photosynthetic responses to environmental conditions. In: Lange OL, Nobel PS, Osmond CB, Ziegeler H eds, Physiological Plant Ecology. II. Encyclopedia of plant physiology, New Series, Vol 12B. Berlin: Spiringer-Verlag, 548-577.

Farquhar GD, Wong SC (1984) An empirical model of stomatal conductance. Aust J Plant Physiol 11: 191-210.

Farquhar GD, Ehleringer JR, Hubik KT (1989) Carbon isotope discrimination and photosynthesis. Annual Review of Plant Physiology and Plant Molecular Biology 40: 503-537.

Feng Y, McCarty RE (1990) Purification and reconstitution of active chloroplast F0. J Biol Chem, 265, 5104-5109.

Fenny P (1976) Plant apparency and chemical defense. In Biochemical interactions between plants and insects (esd Wallace JW, Mansell RL) pp. 1-40. Plenum Press, NY.

Ferrar PJ, Osmond CB (1986) Nitrogen supply as a factor influencing photoinhibition and photosynthetic acclimation after transfer of shade-grown Solanum dulcamara to bright light. Planta 168: 563-567.

Ferrar PJ, Slatyer RO, Vranjic JA (1989) Photosynthetic temperature acclimation in Eucalyptus species from diverse habitats, and a comparison with Nerium oleander. Aust J Plant Physiol 16: 199-217.

Field C (1983) Allocating leaf nitrogen for the maximisation of carbon gain: leaf age as a control on the allocation program. Oecologia, 56, 341-347.

Field C, Merino J, Mooney HA (1983) Compromises between water-use efficiency and nitrogen-use efficiency in five species of California evergreens. Oecologia 60: 384-389.

Field C, Mooney H. (1986) The photosynthesis-nitrogen relationship in wild plants. In: Givnish TJ ed, On the economy of form and function. Cambridge University Press, Cambridge. 25-55.

Field CB (1988) On the role of photosynthetic responses in constraining thte habitat distribution of rainforest plants. Australian Journal of Plant Physiology 15: 343-358.

Fredeen AL, Field CB (1991) Leaf respiration in Piper species native to a Mexican rainforest. Physiologia Plantarum 82: 85-92.

Friedrich JW, Huffaker RC (1980) Photosynthesis, leaf resistances, and ribulose-1,5-bisphosphate carboxylase degradation in senescing barley leaves. Plant Physiol, 65, 1103-1107.

FRIEND A. D., WOODWARD F. I., SWITSUER V. R. (1989) Field measurements of photosynthesis, stomatal conductance, leaf nitrogen and d13C along altitudinal gradients in Scotland. Functional Ecology 3: 117-122

Funayama S, Hikosaka K, Yahara T (1997) Effects of virus infection and growth irradiance on fitness components and photosynthetic properties of Eupatorium makinoi (Compositae). American Journal of Botany, 84: 823-829.

Gaastra, P. (1959) Photosynthesis of crop plants as influenced by light, carbon dioxide, temperature and stomatal diffusion resistance. Meded. Landbouwhogesch. Wageningen 59, 1-68.

Gabrielsen EK (1948) Effects of different chlorophyll concentrations on photosynthesis in foliage leaves. Physiol Plant 1: 5-37.

Garnier E, Gobin O, Poorter H (1995) Nitrogen productivity depends on photosynthetic nitrogen use efficiency and on nitrogen allocation within the plant. Annals of Botany 76: 667-672.

Garnier E, Aronson J (1998) Nitrogen-use efficiency from leaf to stand level: clarificating the concept. In: Lambers H, Poorter H, Van Vuuren MMU (eds) Inherent variation in plant growth. Physiological mechanisms and ecological consequences. Backhuys Publishers, Leiden, The Netherlands, pp. 515-538.

Gebauer RLE, Strain BR, Reynolds JF. 1998. The effect of elevated CO2 and N availability on tissue concentrations and whole plant pools of carbon-based secondary compounds in loblolly pine (Pinus taeda). Oecologia 113: 29-36

Genty B, Braiants JM, Baker NR (1989) The relationship between the quantum yield of photosynthetic electron transport and quenching of chlorophyll fluorescence. Biochimica et Biophysica Acta 990: 87-92.

Genty et al.(1998) CO2 diffusion inside leaf mesophyll of ligneous plants. In G. Grab ed. Photosynthesis: Mechanisms and effects. Vol. V, 3961-3966. Kluwer Academic Publisher, Dordrecht.

Gilmore AM (1997) Mechanistic aspects of xanthophyll cycle-dependent phtoprotection in higher plant chloroplasts and leaves. Physiologia Plantarum 99: 197-209.

Givnish TJ (1982) On the adaptive significance of leaf height in forest herbs. American Naturalist 120: 353-381.

Golbeck JH (1992) Structure and function of photosystem I. Annual Review of Plant Physiology and Plant Molecular Biology. 43: 293-324.

Graan T, Ort DR (1984) Quantitation of the rapid electron donors to P700, the functional plastoquinone pool, and the ratio of the photosystems in spinach chloroplasts. Journal of Biological Chemistry 259: 14003-14010.

Green DS, Kruger EL (2001) Light-mediated constraints on leaf function correlate with leaf structure among deciduous and evergreen tree species. Tree Physiol 21:1341-1346

Griffin KL (1994) Calometric estimates of contruction costs and their use in ecological studies. Functional Ecology 8: 551-562

Grime JP (1997) Climate change and Vegetation. In; Crawley MJ (ed), Plant Ecology 2nd edition. pp. 582-594. Blackwell Science, London.

Gunderson CA, Norby RJ, Wullschleger SD (1993) Foliar gas exchange responses of two decicuous hardwoods during 3 years of growth in elevated CO2: no loss of photosynthetic enhancement. PLant Cell Environ 16: 797-807.

Gulmon SL, Chu CC (1981) The effects of light and nitrogen on photosynthesis, leaf characteristics, and dry matter allocation in the chaparral shrub, Diplacus aurantiacus. Oecologia 49: 207-212.

Gutschick VP, Wiegel FW (1988) Optimizing the canopy photosynthetic rate by patterns of investment in specific leaf mass. American Naturalist 132: 67-86.

Hakala M, Tuominen I, Keranen M, Tyystjarvi T, Tyystjarvi E (2005) Evidence for the role of the oxygen-evolving manganese complex in photoinhibition of photosystem II. Biochimica et Biophysica Acta 1706: 68-80

Haldrup A, Jensen PE, Lunde C, Scheller HV (2001) Balance of power: a view of the mechanism of photosynthetic state transitions. Trends in Plant Science 6: 301-305.

Hamilton JG, Zangel AR, DeLucia EH, Berenbaum MR. 2001. The carbon-nutrient balance hypothesis: its rise and fall. Ecology Letters 4: 86-95

Hanba YT, Mori S, Lei TT, Koike T, Wada E (1997) Variations in leaf d13C along a vertical profile of irradiance in a temperate Japanes Forest. Oecologia 110: 253-261.

Haraux F, De Kouchkovsky Y (1998) Energy coupling and ATP synthase. Photosynthesis Research 57: 231-251.

Harley PC, Tenhunen JD. 1991. Modeling the photosynthetic response of C leaves to environmental factors. In: Boote KJ, Loomis RS, eds. Modeling crop photosynthesis -from biochemistry to canopy. Madison: Crop Science Society of America, Inc. and American Society of Agronomy, Inc.: Madison, 17-39.

Harley, P.C., Loreto, F., Di Marco, G. & Sharkey, T.D. (1992) Theoretical considerations when estimating the mesophyll conductance to CO2 flux by analysis of the response of photosynthesis to CO2. Plant Physiology 98, 1429-1436.

Hartley SE, Jones CG (1995) Plant chemistry and herbivory, or why the world is green. In Plant Ecology (ed by MJ Crawley) pp. 284-324. Blackwell Science.

Hashimoto H, Kura-Hotta M, Katoh S (1989) Changes in protein contentn and in the structure and number of chloroplasts during leaf senescence in rice seedlings. Plant and Cell Physiology 30: 707-715

Hauvex M, Strasser RJ, Greppin H (1991) A theoretcal and experimental analysis of the qP and qN coefficients of chlorophyll fluorescence quenching and their relation to photochemical and nonphotochemical events. Photosynthe Res 27: 41-55

Heldt HW (1999) Pflanzenbuichemie. Springer. 「植物生化学」金井龍二訳 シュプリンガーフェアラーク東京

Hemming JDC, Londroth RL. 1999. Effects of light and nutrient availability on aspen: Growth, phytochemistry and insect performance. Journal of Chemical Ecology 25: 1687-1714.

Herms DA, Mattson WJ (1992) The dilemma of plants: to grow or defend. Q Rev Biol 67: 283-335.

Hidema J, Makino A, Mae T, Ojima K (1991) Photosynthetic characteristics of rice leaves aged under different irradiances from full expansion through senescence. Plant Physiol 97: 1287-1293.

Hikosaka K, Okada K, Terashima I, Katoh S (1993) Acclimation and senescence of leaves: their roles in canopy photosynthesis. In Photosynthetic responses to the environment (eds Yamamoto HY, Smith CM), pp.1-13, American Society of Plant Physiologists, Lancaster.

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 97: 451-457.

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 Environ 18: 605-618.

Hikosaka K (1996) Effects of leaf age, nitrogen nutrition and photon flux density on the organization of the photosynthetic apparatus in leaves of a vine (Ipomoea tricolor Cav.) grown horizontally to avoid mutual shading of leaves. Planta, 198: 144-150.

Hikosaka K, Terashima I (1996) Nitrogen partitioning among photosynthetic components and its consequence in sun and shade plants. Functional Ecology 10: 335-343.

Hikosaka K, Hirose T (1997) Leaf angle as a strategy for light competition: Optimal and evolutionarily stable light-extinction coefficient within a canopy. Ecoscience, 4: 501-507.

Hikosaka K (1997) Modelling optimal temperature acclimation of the photosynthetic apparatus in C3 plants with respect to nitrogenuse. Ann Bot 80: 721-730.

Hikosaka K, Hirose T (1998) Leaf and canopy photosynthesis of C3 plants at elevated CO2 in relation to optimal partitioning of nitrogen among photosynthetic components: theoretical prediction. Ecological Modelling, 106: 247-259.

Hikosaka K, Hanba YT, Hirose T, Terashima I (1998a) Photosynthetic nitrogen use efficiency in woody and herbaceous plants. Functional Ecology, 12: 896-905.

Hikosaka K, Sudoh S, Hirose T (1999a) Light acquisition and use by individuals competing in a dense stand of an annual herb, Xanthium canadense. Oecologia, in press.

Hikosaka K, Murakami A, Hirose T (1999b) Balancing carboxylation and regeneration of ribulose bisphosphate in leaf photosynthesis: Temperature acclimation in an evergreen tree, Quercus myrsinaefolia. Plant, Cell & Environment, 22: 841-849.

Hikosaka K, Hirose T (2000) Photosynthetic nitrogen use efficiency in species coexisting in a warm-temperate evergreen forest. Tree Physiology, 20: 1249-1254.

Hikosaka K, Hirose T (2001) Nitrogen uptake and use of competing individuals in a Xanthium canadense stand. Oecologia, 126: 174-181.

Hikosaka K, Hirose T (2001b) Temperature acclimation of the photosynthetic apparatus in an evergreen shrub, Nerium oleander. PS2001 Proceedings: 12th International Congress on Photosynthesis. S35-007, CSIRO Publishing, Melbourne.

Hikosaka K. 2004. Interspecific difference in the photosynthesis-nitrogen relationship: patterns, physiological causes, and ecological importance. Journal of Plant Research 117, 481-494.

Hikosaka K. 2005. Nitrogen partitioning in the photosynthetic apparatus of Plantago asiatica leaves grown at different temperature and light conditions: similarities and differences between temperature and light acclimation. Plant and Cell Physiology 46, 1283-1290.

Hikosaka K, Ishikawa K, Borjigidai A, Muller O, Onoda Y (2006) Temperature acclimation of photosynthesis: mechanisms involved in the changes in temperature dependence of photosynthetic rate. Journal of Experimental Botany, 57: 291-302.

彦坂幸毅(1997)生育環境の変化に対する個葉光合成系の順化 日本生態学会誌47: 295-300

彦坂幸毅(1998)葉はなぜ枯れるのか−葉の老化と順化 科学 68: 88-93.

彦坂幸毅(1999)植物の窒素利用 (渡邊昭ら編)植物細胞工学シリーズ11 植物の環境応答 秀潤社 pp. 160-170

Hirose T (1971) Nitrogen turnover and dry matter production of a Solidago altissima population. Jap J Ecol 21: 18-32

Hirose T (1975) Relations between turnover rate, resource utility and structure of some plant populations: a study in the matter budgets. Journal of the Faculty of Science, The University of Tokyo 11: 335-407

Hirose T (1984) Nitrogen use efficiency in growth of Polygonum cuspidatum Sieb. et Zucc. Ann Bot 54: 695-704.

Hirose T (1986) Nitrogen uptake and plant growth II. An empirical model of vegetative growth and partitioning. Annals of Botany 58: 487-496.

Hirose T, Werger MJA (1987a) Nitrogen use efficiency in instantaneous and daily photosynthesis of leaves in the canopy of Solidago altissima stand. Physiol Plant 70: 215-222.

Hirose T, Werger MJA (1987b) Maximizing daily canopy photosynthesis with respect to the leaf nitrogen allocation pattern in the canopy. Oecologia 72: 520-526.

Hirose T (1988a) Nitrogen availability, optimal shoot/root ratios and plant growth. In (Werger MJA, van der Aart PJM, During HJ, Verhoven JTA) Plant form and vegetative structure. pp. 135-145. SPB Academic Publishing, The Hague.

Hirose T (1988b) Physiologia Plantarum

Hirose T, Acekrly DD, Traw MB, Ramseier D, Bazzaz FA (1997) CO2 elevation, canopy photosynthesis, and optimal leaf area index. Ecology 78: 2339-2350.

Hilbert DW (1989) Orimization of plant root:shoot ratios and internal nitrogen concentration. Annals of Botany 66: 91-99.

Hilbert DW and Reynolds JF (1991) A model allocating growth amonf leaf proteins, shoot structure, and root biomass to produce balanced activity. Annals of Botany 68 417-425.

Hogan, K.P., Smith, A.P. and Ziska, L.H., 1991. Potential effects of elevated CO2 and changes in temperature on tropical plants. Plant Cell Environ., 14: 763-778.

Holmes MG, Smith H (1977a) The function of phytochrome in the natural environment. I. Characterization of daylight for studies in photomorphogenesis and photoperiodism. Photochemistry and Photobiology 25: 533-538.

Holmes MG, Smith H (1977b) The function of phytochtome in the natural environment. II. The influence of vegetation canopies on the spectral energy distribution of natural daylight. Photochemistry and Photobiology 25: 539-545.

Holaday AS, Martindale W, Alred R, Brooks AL, Leedood RC (1992) Changes in activities of enzymes of carbon metabolism in leaves during exposure of plants to low temperature. Plant Physiology 98: 1105-1114.Holloway PJ, Maclean DJ, Scott KJ (1983) Rate-limiting steps of electron transport in chloroplasts during ontogeny and senescence of barley. Plant Physiol, 72, 795-801.

Horn, H S., 1971. The Adaptive Geometry of Trees. Princeton University Press, Princeton, New Jersey.

Huner NPA, Oquist G, Sarhan F (1998) Energy balance and acclimation to light and cold. Trends in Plant Science. 3: 224-230

Hunt R, Nicholls AO (1986) Stress and the coarse control of growth and root-shoot partitioning in herbaceous plants. Oikos 47: 149-158.

Hurry VM, Keerberg O, Parnik T, Gardestrom P, Oquist G (1995) Cold-hardening results in increased activity of enzymes involved in carbon metabolism in leaves of winter rye (Secale cereale L.). Planta 195: 554-562.

Inada N, Sakai A, Kuroiwa H, Kuroiwa T (1998a) Three-dimensional analysis of the senescence program in rice (Oryza sativa L.) coleoptiles: investigations of tissues and cells by fluorescence microscopy. Planta 205: 153-164.

Inada N, Sakai A, Kuroiwa H, Kuroiwa T (1998b) Three-dimensional analysis of the senescence program in rice (Oryza sativa L.) coleoptiles: investigations by fluorescence microscopy and electron microscopy. Planta 206: 585-597.

Inada N, Sakai A, Kuroiwa H, Kuroiwa T (1998b) Senescence program in rice (Oryza sativa L.) leaves: analysis of the blade of the second leaf at the tissue and cellular levels. Protoplasma 207: 222-232.

Inskeep WP, Bloom PR (1985) Plant Physiol 77: 483-485.

Ikeuchi M (1992a) Subunit proteins of photosystem II. Bot Mag Tokyo, 105, 327-373.

Ikeuchi M (1992b) Subunit proteins of photosystem I. Plant Cell Physiol, 33, 669-676.

Ingestad T (1979) Nitroge stress in birch seedlings. II. N, K, P, Ca, and Mg nutrition. Physiologia Plantarum 45: 149-157.

Ishida A, Toma T, Matsumoto Y, Yap SK, Matuyama Y (1996) Diurnal changes in leaf gas exchange characteristics in the uppermost canopy of a rain forest tree, Dryobalanops aromatica Gaertn. f. Tree Physiology 16: 779-785.

Iwasa Y, Roughgarden J (1984) Shoot/root balance of plants: optimal growth of a system with many vegetative organs. Theoretical Population Biology 25: 78-104.

Jacob J, Greitner C, Drake BG (1995) Acclimation of photosynthesis in relation to rubisco and non-structural carbohydrate contents and in situ carboxylase activity in Scirpus olneyi grown at elevated CO2 in the field. Plant Cell Environ 18: 875-884.

Jansson S (1994) The light-harvesting chlorophyll a/b-binding proteins. Biochim Biophys Acta, 1184, 1-19.

Jeffrey SW, Humphrey GF (1975) New spectrophotometric equations for determining chlorophylls a, b, c, and c2 in higher plants, algae and natural phytoplankton. Biochiemie und Physiologie der Pflanzen 167: 191-194.

Jenkins GI, Woolhouse W (1981a) Photosynthetic electron transport during senescence of the primary leaves of Phaseolus vulgaris L. I. non-cyclic electron transport. J Exp Bot, 32, 467-478.

Jenkins GI, Baker NR, Woolhouse HW (1981b) Changes in chlorophyll content and organization during senescence of the primary leaves of Phaseolus vulgaris L. in relation to photosynthetic electron transport. J Exp Bot, 32, 1009-1020.

Jermy T (1976) Insect host plant relationships -coevolution or sequential evolution? Symposia Biologica Hungarica 16: 109-113.

Johnson IR, Thornley JMC (1984) A model of instantaneous and daily canopy photosynthesis. J theor Biol 107: 531-545.

Johnson IR, Thornley JHM (1987) A model of shoot:root partitioning with optimal growth. Annals of Botany 60: 133-142.

Joliot A, Joliot A (1964) Estudes cinetiques de la reaction photochimique liberant l'oxygene au cours de la photosynthese. CR Acad Sci Paris 258: 4622-4625

Joliot P, Joliot A (2003) Excitation transfer between photosynthetic units: the 1964 experiment. Photosynthesis Research 76: 241-245

Jones CG, Firn RD (1991) On the evolution of plant secondary chemical diversity. Philosophical Transactions of the Royal Society of London Series B 333: 273-280.

Jordan DB, Ogren WL. 1984. The CO2/O2 specificity of ribulose 1,5-bisphosphate carboxylase/oxygenase. Dependence on ribulose bisphosphate concentration, pH and temperature. Planta 161: 308-313.

Jurik TW, Chabot JF, Chabot BF (1979) Ontogeny of photosynthetic performance in Fragaria virginiana under changing light regimes. Plant Physiol 63: 542-547.

Kachi N, Rorison IH (1989) Optimal partitioning between root and shoot in plants with contrasted growth rates in response to nitrogen availability and temperature. Functional Ecology 3: 549-559.

Kasahara M, Kagawa T, Oikawa K, Suetsugu N, Miyao M, Wada M (2002) Chloroplast avoidance movement reduces photodamage in plants. Nature 420: 829-832.

Kato MC, Hikosaka K, Hirotsu N, Makino A, Hirose T (2003) The excess light energu that is neither utilized in photosynthesis nor dissipated by photoprotective mechanisms determines the rate of photoinactivation in photosystem II. Plant and Cell Physiology. accepted.

Kikuzawa K (1983) leaf survival of woody species in deciduous broad-leaved forests. 1. Tall trees. Can J Bot 61: 2133-2139.

Kikuzawa K (1984) leaf survival of woody species in deciduous broad-leaved forests. 2. Small trees ad shrubs. Can J Bot 62: 2551-2556.

Kikuzawa K (1989) Ecology and evolution of phenological pattern, leaf longevity and leaf habit. Evol Trends Plants 3: 105-110

Kikuzawa K (1991) A cost-benefit analyziz of leaf habit and leaf longevity of trees and their geographical pattern. American Naturalist 138: 1250-1263.

Kikuzawa K, Kudo G (1995) Effects of the length of the snow-free period on leaf longevity in alpine shrubs: a cost-benefit model. OIKOS 73: 214-220.

Kikuzawa (1996) Geographical distribution of leaf life span and species diversity of trees simulated by a leaf-longevity model. Vegetatio 122: 61-67.

Kikuzawa K, Ackerly DD (1999) Significance of leaf longevity in plants. Plant Species Biology 14: 39-45.

Kimura M, Yokoi Y, Hogetsu K (1978) Quantitative relationships between growth and respiration II. Evaluation of constructive and maintenance respiration in growing Helianthus tuberosus leaves. Bot Mag Tokyo 91: 43-56.

Kirschbaum MUF, Farquhar GD. 1984. Temperature dependence of whole-leaf photosynthesis in Eucalyptus pauciflora Sieb. ex Spreng. Australian Journal of Plant Physiology 11: 519-538.

Kirschbaum MUF, Pearcy RW (1988a) Concurrent measurements of O2 and CO2 exchange during lightflecks in Alocasia macrorrhiza (L.) G. Don. Planta 174: 527-533.

Kirschbaum MUF, Pearcy RW (1988b) Gas exchange analysis of the fast phase of photosynthetic induction in Alocasia macrorrhiza. Plant Physiology 87: 818-821

Koike T, Lei TT, Maximov TC, Tabuchi R, Takahashi K, Ivanov BI (1996) Comparison of the photosynthetic capacity of Siberian and Japanese birch seedlings grown in elevated CO2 and temperature. Tree Physiol 16: 381-385.

Kok B (1948) A critical consideration of the quantum yield of Chlorella-photosynthesis. Enzymologia 13: 1-16.

Koricheva J. 2002. The carbon-nutrient balance hypothesis is dead; long live the carbon-nutrient balance hypothesis? Oikos 98: 537-539.

Korner Ch. & Diemer M. (1987) In situ photosynthetic responses to light, temperature and carbon dioxide in herbaceous plants from low and high altitude. Functional Ecology 1:179-194

Kozaki A, Takeba G (1996) Nature 384: 557-560

Krap A, Quick WP, Stitt M (1991) Ribulose-1,5-bisphosphate carboxylase-oxygenase, other Calvin-cycles enzymes, and chlorophyll decrease when glucose is supplied to mature spinach leaves via the transpiration stream. Planta 186: 58-69.

Krause GH, Weis E (1991) Chlorophyll fluorescence and photosynthesis: the basics. Annual Review of Plant Physiology 42: 313-349.

Kudo G (1992) Effect of snow-free duration on leaf life-span of four alpine plant species. Canadian Journal of Botany 70: 1684-1688.

工藤岳(2000)大雪山のお花畑が語ること 京都大学学術出版会

Kuhlbrandt W, Wang DN (1991) Three-dimensional structure of plant light-harvesting comlex determined by electron crystallography. Nature 350: 130-134.

Kuhlbrandt W, Wand DN, Fujiyoshi Y (1994) Atomic model of plant light-harvesting complex by electron crystallography. Nature 367: 614-621.

Kume A, Ino Y (1993) Comparison of ecolphysiological responses to heavy snow in two varieties of Acuba japonica with different areas of distribution. Ecological Reserch 8: 111-121.

Kura-Hotta M, Hashimoto M, Satoh K, Katoh S (1990) Quantitative determination of changes in the number and size of chloroplasts in naturally senescing leaves of rice seedlings. Plant Cell Physiol 31: 33-38.

Kuroiwa, S., 1970. Total photosynthesis of a foliage in relation to inclination of leaves. Pages 78-89 in E. Sest談 (ed.). Prediction and Measurement of Photosynthetic Productivity. Pudoc, Wageningen.

Labate CA, Leegood RC (1988) Limitation of photosynthesis by changes in temperature. Planta 173: 519-527.

Laemmli UK (1970) Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature, 227, 690-685.

Laisk A (1983) Calculation of photosynthetic parameters considering the statistical distribution of stomatal apertures. Journal of Experimental Botany. 34: 1627-1635.

Lambers H, Chapin FS III, Pons TL (1998) Plant Physiological Ecology. Springer, Berlin

Lange OL, Schulze E-D, Evenari M, Lappen L, Buschbom U (1975) The temperature-related photosynthetic capacirt of plants under desert conditions II. Possible controlling mechanisms for the seasonal changes of the photosynthetic response to temperature. Oecologia 18: 45-53.

Larcher W (1994) Physiological Plant Ecology. 5th ed. Springer, Berlin. (邦訳「植物生態生理学」佐伯敏郎監訳、シュプリンガー・フェアラーク東京)

Lee H-Y, Hong Y-N, Chow WS (2001) Photoinactivation of photosystem II complexes and photoprotection by non-functional neighbours n Capsicum annuum L. leaves. Planta 212: 332-342.

Leopold AC (1961) Senescence in plant development. Science 134: 1727-1732.

Lerdau M, Coley PD (2002) Benefits of the carbon-nutrient balance hypothesis. Oikos 98: 534-536

Leuning R. 1995. A critical appraisal of a combined stomatal-photosynthesis model for C3 plants. Plant, Cell and Environment 18: 339-355.

Leverenz JW (1987) Chlorophyll content and the light response curve of shade-adapted conifer needles. Physiologia Plantarum 71: 20-29.

Lichtenthaler HK, Wellburn AR (1983) Determinations of total carotenoids and chlorophylls a and b of leaf extracts in different solvents. Biochemical Society Transactions 11: 591-592

Lichitenthaler HK (1987) Methods Enzymol 148: 350-382.

Lloyd J, Syverstsen JP, Kriedemann PE, Farquhar GD (1992) Low conductances for CO2 diffusion from stomata to the sites of carboxylation in leaves of woody species. Plant Cell Environ, 15, 873-899.

Lloyd J, Taylor JA. 1994. On the temperature dependence of soil respiration. Functional Ecology 8: 315-323.

Loach K (1967) Shade rolerance in tree seedlings. I. Leaf photosynthesis and respiration in plants raised under artificial shade. New Phytol 66: 607-621.

Loreto F, Harley PC, Di Marco G, Sharkey TD (1992) Estimation of mesophyll conductance to CO2 flux by three different methods. Plant Physiol, 98, 1437-1443.

Loreto F, Di Marco G, Tricoli D, Sharkey TD (1994) Measurements of mesophyll conductance, photosynthetic electron transport and alternative electron sinks of field grown wheat leaves. Photosynthesis Research 41: 397-403.

Mackinney (1941) Journal of Biological Chemistry 140: 315-322

Mae T, Ohira K (1981) The remobilization of nitrogen related to leaf growth and senescence in rice plants (Oryza sativa L.). Plant & Cell Physiology 22: 1067-1074.

Mae T, Thomas H, Gay AP, Makino A, Hidema J (1993) Leaf development in Lolium temulentum: Photosynthesis and photosynthetic proteins in leaves senescing under different irradiances. Plant Cell Physiol 34: 391-399.

Makino A, Mae T, Ohira K (1983) Photosynthesis and ribulose 1,5-bisphosphate carboxylase in rice leaves. Plant Physiol, 73, 1002-1007.

Makino A, Mae T, Ohira K (1986) Colormetric measurement of protein stained with Coomassie Brilliant Blue R on sodium dodecyl sulfate polyacrylamide gel electrophoresis by eluting with formamide. Agri Biol Chem, 50, 1911-1912.

Makino A, Mae T, Ohira K (1988) Differences between wheat and rice in the enzymic properties of ribulose 1,5-bisphosphate carboxylase/oxygenase and the relationship to photosynthetic gas exchange. Planta, 174, 30-38.

Makino A, Osmond B (1991a) Effects of nitrogen nutrition on nitrogen partitioning between chloroplasts and mitochondria in pea and wheat. Plant Physiol 96: 355-362.

Makino A, Sakashita H, Hidema J, Mae T, Ojima K, Osmond B (1992) Distinctive responses of ribulose-1,5-bisphosphate carboxylase and carbonic anhydrase in wheat leaves to nitrogen nutrition and their possible relationships to CO2-transfer resistance. Plant Physiol, 100, 1737-1743.

Makino A, Nakano H, Mae T (1994a) Responses of ribulose-1,5-bisphosphate carboxylase, cytochrome f, and sucrose synthesis enzymes in rice leaves to leaf nitrogen and their relationships to photosynthesis. Plant Physiol, 105, 173-179.

Makino A., Nakano H. & Mae T. (1994b) Effects of growth temperature on the responses of ribulose-1,5-bisphosphate carboxylase, electron transport components, and sucrose synthesis enzymes to leaf nitrogen in rice, and their relationships to photosynthesis. Plant Physiology 105, 1231-1238.

Makino A, Sato T, Nakano H, Mae T (1997a) Leaf photosynthesis, plant growth and nitrogen allocation in rice under different irradiances. Plant 203: 390-398.

Makino, A., Shimada, T., Takumi, S., Kaneko, K., Matsuoka, M., Shimamoto, K., Nakano, H., Miyao-Tokutomi, M., Mae, T. and Yamamoto, N., 1997b. Does decrease in ribulose-1,5-bisphosphate carboxylase by ヤantisenseユ rbcS lead to a higher nitrogen-use efficiency of photosynthesis under conditions of saturating CO2 and light in rice plants? Plant Physiol., 114: 483-491.

Mariko S (1988) Maintenance and constructive respiration in various organs of Helianthus annuus L. and Zinnia elegans L. Bot Mag Tokyo 101: 73-77

Martindale W, Leegood RC (1997) Acclimation of photosynthesis to low temperature in Spinacia oleracea L. I. Effects of acclimation on CO2 assimilation and carbon partitioning. Journal of Experimental Botany. 48: 1865-1872.

Maynard Simth J (1982) の邦訳 進化とゲーム理論(寺本英・梯正之訳)産業図書(1985)

McConnaughay KDM, Berntson GM, Bazzaz FA (1993) Limitations to CO2-induced growth enhancement in pot studies. Oecologia 94: 550-557.

McCree KJ (1970) An equation for the rate of respiration of white clover plants grown under controlled conditions. In: Setlik I (ed) Prediction and measurements of photosynthetic productivity Proc IBP/PP Tech Meet, Trebon, 1969, pp. 221-230

McDermitt DK and Loomis RS (1981) Elemental composisiton of biomass and its relation to energy content, growth efficiency, and growth yield. Annals of Botany 48: 275-290

Medina E (1971) Nitrogen content, leaf structure and photosynthesis in higher plants: a report to the UNEP study group on photosynthesis and bioproductivity. IVIC, Caracas, Venezuela.

Medlyn, B.E., 1996. The optimal allocation of nitrogen within the C3 photosynthetic system at elevated CO2. Aust. J. Plant Physiol., 23: 593-603.

Medlyn BE, Loustau D, Delzon S (2002) Temperature respinse of parameters of a biochemically based model of photosynthesis. I. Seasonal changes in mature martime pine (Pinus pinaster Ait.). Plant, Cell and Environment 25: 1155-1165

MEINZER F. C., RUNDEL P. W., GOLDSTEIN G. & SHARIFI M. R. (1992) Carbon isotope composition in relation to leaf gas exchange and environmental conditions in Hawaiian Metrosideros polymorpha populations. Oecologia 91: 305-311

Melis A, Harvey GW (1981) Regulation of photosystem stoichiometry, chlorophyll a and chlorophyll b content and relation to chloroplast ultrastructure. Biochimica et Biophysica Acta 637: 138-145.

Miller A, Tsai CH, Hemphill D, Endres M, Rodermel S, Spalding M (1997) Elevated CO2 effects during leaf ontogeny. Plant Physiol 115: 1195-1200.

Mitchell RAC, Barber J. 1986. Adaptation of photosynthetic electron-transport rate to growth temperature in pea. Planta 169: 429-436.

Miyake C, Yokota A (2000) Determination of the rate of photoreduction of O2 in the water-water cycle in watermelon leaves and enhancement of the rate by limitation of photosynthesis. Plant and Cell Physiology 41: 335-343.

Monsi M, Saeki T (1953) Uber den Lichtfaktor in den Pflanzengesellschaften und seine Bedeutung fur die Stoffproduktion. Jap J Bot 14: 22-52.

Monsi, M., 1968. Mathematical models of plant communities. Pages 131-149 in F. Eckardt (ed.). Functioning of Terrestrial Ecosystems at the Primary Production Level. UNESCO, Paris.

Monsi M, Z. Uchijima & T. Oikawa, 1973. Structure of foliage canopies and photosynthesis. Annual Review of Ecology and Systematics, 4: 301-327.

Mooney HA, Bjorkman O, Collatz GJ (1978) Photosynthetic acclimation to temperature in the desert shrub, Larrea divaricata. Plant Physiology 61: 406-410.

Mooney HA, Ferrar PS, Slatyer RO (1978) Photosynthetic capacity and carbon allocation patterns in diverse growth forms of Eucalyptus. Oecologia 31: 103-111.

Mooney HA, Gulmon GL (1979) Environmental and evolutionary constraints on the photosynthetic characteristics of higher plants. In Topics in plant population biology (eds Solbrig O.T., Jain S., Johnson G.B. & Raven P.H.), pp. 316-337. Columbia University Press, New York.

Mooney HA, Field C, Gulmon SL, Bazzaz FA (1981) Photosynthetic capacity in relation to leaf posistion in desert versus old-field annuals. Oecologia 50: 109-112.

Moran (1982) Plant Physiol 69: 1376-1381.

Mott KA (1995) Effects of patchy stomatal closure on gas exchange measurements following abscisic acid treatment. Plant, Cell and Environment 18: 1291-1300.

Mott KA, Buckley TN (2000) Patchy stomatal conductance: emergent collective behaviour of stomata. Trends in Plant Science 5: 258-262.

Muller O, Hikosaka K, Hirose T. 2005a. Seasonal changes in light and temperature affect the balance between light harvesting and light utilisation components of photosynthesis in an evergreen understorey. Oecologia 143, 501-508.

Nakano H, Makino A, Mae T (1997) The effect of elevated partial pressures of CO2 on the relationchip between photosynthetic capacity and N content in rice leaves. Plant Physiology 115: 191-198.

Nie GY, Long SP, Garcia RL, Kimball BA, Lamorte RL, Pinter Jr PJ, Wall GW, Webber AN (1995) Effects of free-air CO2 enrichment on the development of the photosynthetic apparatus in wheat, as indicated by changes in leaf proteins. Plant, Cell & Environment 18: 855-864.

Niinemets U, Valladares F (2004) Photosynthetic acclimation to simultaneous and interacting environmental stresses along natural light gradients: optimality and constraints. Plant Biology 6: 254-268.

Niinemets U (2007) Photosynthesis and resource distribution through plant canopies. Plant, Cell and Environment 30: 1052-1071

Nishiyama, Y., Yamamoto, H., Allakhverdiev, S.I., Inaba, M., Yokota, A. and Murata, N. (2001) Oxidative stress inhibits the repair of photodamage to the photosynthetic machinery. EMBO J., 20: 5587-5594.

Nitao JK, Zangerl AR, Berenbaum MR. 2002. CNB: requescat in pace? Oikos 98: 540-546.

Niyogi KK, Grossman AR, Bjorkman O (1997) The roles of specific xanthophylls in photoprotection. Pro. Natl. Acad. Sci. USA. 94: 14162-14167.

Niyogi KK, Grossman AR, Bjorkman O (1998) Arabidopsis mutants define a central role for the xanthophyll cycle in the regulation of photosynthetic energy conversion. Plant Cell 10: 1121-1134.

Noguchi K, Sonoike K, Terashima I (1996) Acclimation of respiratory properties of leaves of Spinacia oleracea L., a sun species, and of Alocasia macrorrhiza (L.) G. Don., a shade species, to changes in growth irradiance. Plant Cell Physiol 37: 377-384.

野口航(1999)夜の葉の呼吸に関する生理学と経済学 (渡邊昭ら編)植物細胞工学シリーズ11 植物の環境応答 秀潤社 pp. 125-128

Ogren E, Evans JR (1993) Photosynthetic light-response curves. Planta 189: 182-190.

Ogren E (1993) Convexity of the photosynthetic light-response curve in relation to intensity and direction of light during growth. Plant Physiology 101: 1013-1019.

Oguchi R, Hikosaka K, Hirose T (2003) Does the photosynthetic light-acclimation need change in leaf anatomy? Plant, Cell and Environment, 26: 505-512.

Oguchi R, Hikosaka K, Hirose T (2005) Leaf anatomy as a contraint for photosynthetic acclimation: differential responses in leaf anatomy to increasing growth irradiance among three deciduous trees. Plant, Cell and Environment, 28: 916-927.

Oguchi R, Hikosaka K, Hiura T, Hirose T (2006) Leaf anatomy and light acclimation in woody seedlings after gap formation in a cool-temperate deciduous forest. Oecologia, in press.

Okada K, Inoue Y, Satoh K, Katoh S (1992) Effects of light on degradation of chlorophyll and proteins during senescence of detached rice leaves. Plant Cell Physiol, 33, 1183-1191.

O'Leary Hm Nadgavan S, Paneth P (1992) Physical and chemical basis of carbon isotope fractionation in plants. Plant, Cell & Environment 15: 1099-1104.

Olesinski AA, Wolf S, Rudich J, Marani A (1989) Effect of leaf age and shading on photosynthesis in potatos (Solanum tuberosum). Ann Bot 64: 643-650.

Ono K, Hashimoto H, Katoh S (1995) Changes in the number and size of chloroplasts during senescence of primary leaves of wheat grown under different conditions. Plant Cell Physiol 36: 9-17.

Ono K, Terashima I, Watanabe A (1996) Interaction between nitrogen deficit of a plant and nitrogen content in the old leaves. Plant & Cell Physiology 37: 1083-1089.

Onoda Y, Hikosaka K, Hirose T (2004) Allocation of nitrogen to cell walls decreases photosynthetic nitrogen-use efficiency. Functional Ecology, 18: 419-425.

Onoda Y, Hikosaka K, Hirose T. 2005a. Seasonal change in the balance between capacities of RuBP carboxylation and RuBP regeneration affects CO2 response of photosynthesis in Polygonum cuspidatum. Journal of Experimental Botany 56, 755-763.

Onoda Y, Hikosaka K, Hirose T. 2005b. The balance between RuBP carboxylation and RuBP regeneration: a mechanism underlying the interspecific variation in acclimation of photosynthesis to seasonal change in temperature. Functional Plant Biology, 32: 903-910.

Oquist G, Anderson JM, McCaffery S, Chow WS (1992) Mechanistic differences in photoinhibition of sun and shade plants. Planta 188: 422-431

Oquist G, Chow WS, Anderson JM (1992) Photoinhibition of photosynthesis represents a mechanism for the long-term regulation of photosystem II. Planta 186: 450-460.

Ort DR, Oxborough K (1992) In situ regulation of chloroplast coupling factor activity. Ann Rev Plant Physiol Plant Mol Biol, 43, 269-291.

Osman AM, Milthorpe FL (1971) Photosynthesis of wheat leaves in relation to age, illuminance and nutrient supply. II. Results. Photosynthetica 5: 61-70.

Osmond CB (1983) Interaction between irradiance, nitrogen nutrition, and water stress in the sun-shade responses of Solanum dulcamara. Oecologia 57: 316-321.

Osmond CB (1994) What is photoinhibition? Some insights from comparisons of shade and sun plants. In Baker NR and Bowter JR (eds) Photoinhibition of photosynthesis: From molecular mechanisms to the field. pp. 1-24. Bios Scientific Pub. Oxford.

Park Y-I, Chow WS, Osmond CB, Anderson JA (1996) Electron transport to oxygen mitigates against the photoinactivation of photosystem II in vivo. Photosynthesis Research 50: 23 -32.

Parkhurst DF (1994) Diffusion of CO2 and other gases inside leaves. New Phytologist 126: 449-479.

Patterson DT, Duke SO, Hoagland RE (1978) Effects of irradiance during growth on adaptive photosynthetic characteristics of velvetleaf and cotton. Plant Physiol 61: 402-405.

Pearcy RW (1977) Effects of growth temperature on the thermal stability of the photosynthetic apparatus of Atriplex lentiformis (Torr.) Wats. Plant Physiology 59: 873-878.

Pearcy RW (1983) The light environment and growth of C3 and C4 tree species in the understory of a Hawaiian forest. Oecologia 58: 19-25.

Pearcy RW (1983) Carbon dioxide exchange of C3 and C4 tree species in the understory of a Hawaiian forest. Oecologia 58: 26-32.

Pearcy RW (1988) Photosynthetic utlisation of lightflecks by understory plants. Australian Journal of Plant Physiology. 15: 223-238

Pearcy RW, Ehleringer J, Mooney HA, Rundel PW. (1989) Plant Physiological Ecology. Chapman & Hall, London.

Pearcy RW, Roden JS, Gamon JA (1990) Sunfleck dynamics in relation to canopy structure in a soybean (Glycine max (L.) Merr.) canopy. Agricultural and Forest Meteorology 52: 359-372.

Pearcy RW (1990) Sunflecks and photosynthesis in plant canopies. Annual Review of Plant Physiology and Plant Molecular Biology. 41: 421-453

Peterson LW, Huffaker RC (1975) Plant Physiol 55: 1009-1015.

Penning de Vries FWT (1975) The cost of maintenance processes in plant cells. Annals of Botany 39: 77-92.

Pianka ER (1983) Evolutionary Ecology, 3rd ed. Harper & Row, New York.

Pons TL, Schieving F, Hirose T, Werger MJA (1989) Optimization of leaf nitrogen allocation for canopy photosynthesis in Lysimachia vulgaris. In (eds. Lambers H et al.) Causes and consequence fo variation in growth rate and productivity of higher plants. pp. 175-186.SPB Academic Publishing, The Hague.

Pons TL, Bergkotte M (1996) Nitrogen allocation in response to partial shading of a plant: possible mechanisms. Physiol Plant 98: 571-577.

Pons TL & Jordi W (1998) Induction of leaf senescence and shade acclimation in leaf canopies - variation with leaf longevity. In Inherent variation in plant growth. Physiological mechanisms and ecological consequences. eds Lambers H, Poorter H, van Vuuren MMI. pp. 121-137. Backhuys Publishers, Leiden.

Pons TL, Welschen RAM (2002) Overestimation of respiration rates in commercially available clamp-on leaf chambers. Complications with measurement of net photosynthesis. Plant, Cell and Environment 25: 1367-1372.

Poorter H, Remkes C (1990) Leaf area ratio and net assimilation rate of 24 wild species differing in relative growth rate. Oecologia 83: 553-559.

POORTER H., REMKE C. & LAMBERS H. (1990) Carbon and nitrogen economy of 24 wild species differing in relative growth rate. Plant Physiology 94: 621-627.

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 and E Garnier. pp. 111-127. SPB Academic Publication, The Hague.

Poorter, H. & Farquhar, G.D. (1994) Transpiration, intercellular carbon dioxide concentration and carbon-isotope discrimination of 24 wild species differing in relative growth rate. Australian Journal of Plant Physiology 21, 507-516.

Poorter H, Villar R (1997) The fate of acquired carbon in plants: chemical composition and construction costs. In Plant resource allocation. Eds. FA Bazzaz and J Grace. pp. 39-72. Academic Press, NW.

Poorter H, Evans JR (1998) Photosynthetic nitrogen-use efficiency of species that differ inherently in specific leaf area. Oecologia 116: 26-37

Poorter H, Pepin S, Rijkers T, de Jong Y, Evans JR, Korner C (2006) Construction costs, chemical composition and payback time of high- and low-irradiance leaves. Journal of Experimental Botany 57: 355-371.

Porra RJ, Thompson WA, Kriedemann PE (1989) Determination of accurate extinction coefficients and simulataneous equations for assaying chlorophyll a and b extracted with four different solvents: Verification of the concentration of chlorophyll standards by atomic absorption spectroscopy. Biochimica et Biophysica Acta 975: 384-394.

Powles SB (1984) Photoinhibition of photosynthesis induced by visible light. Annual Review of Plant Physiology. 35: 15-44.

Price PW, Waring GL, Julkunen-Tiitto R, Tahvanainen J, Mooney HA, Craig TP. 1989. Carbon-nutrient balance hypothesis in within-species phytochemical variation of Salix lasiolepis. Journal of Chemical Ecology 15: 1117-1131.

Rabinowitch EI (1951) Photosynthesis and related processes. Wiley-Interscience. New York.

REICH P. B., WALTERS M. B. & ELLSWORTH D. S. (1991) Leaf lifespan as a determination of leaf structure and function among 23 Amazonian tree species. Oecologia 86: 16-24.

REICH P. B., WALTERS M. B. & ELLSWORTH D. S. (1997) From tropics to tundra: global convergence in plant functioning. Proceedings of the National Academy of Sciences 94: 13730-13734.

REICH P. B., KLOEPPEL B. D., ELLSWORTH D. S. & WALTERS M. B. (1995) Different photosynthesis-nitrogen relations in deciduous hardwood and evergreen coniferous tree species. Oecologia 104: 24-30.

REICH P. B., WALTERS M. B., ELLSWORTH D. S. & UHL C. (1994) Photosynthesis-nitrogen relations in Amazonian tree speceis. I. Patterns among species and communities. Oecologia 97: 62-72.

REICH P. B. & WALTERS M. B., (1994) Photosynthesis-nitrogen relations in Amazonian tree species. II. Variation in nitrogen vis-a-vis specific leaf area influences mass- and area-based expressions. Oecologia 97: 73-81.Ross J (1981) The radiation regime and architecture of plant stands. Dr. W. Junk Publishing. The Hague.

Reich PB, Ellsworth DS, Walters MB (1998) Leaf structure (specific leaf area) modulates photosynthesis-nitrogen relations: evidence from within and across species and functional groups. Functional Ecology 12: 948-958.

Reich PB, Ellsworth DS, Walters MB, Vose JM, Gresham C, Volin JC, Bowman WD (1998) Relationships of leaf dark respiration to leaf nitrogen, specific leaf area and leaf life-span: a test across biomes and functional groups. Oecologia 114: 471-482.

Reich PB, Ellsworth DS, Walters MB, Vose JM, Gresham C, Volin JC, Bowman WD (1999) Generality of leaf trait relationships: a test across siz biomes. Ecology 80: 1955-1969.

Rhoades DF, Cates RG (1976) Toward a general theory of plant anti-herbivore chemistry. In Biochemical interaction between plants and insects (Eds Wallace JW, Mansell RL) pp. 168-213. Plenum Press, NY.

Rintamaki E et al. (1997) Phosphorylation of light-harvesting complex II and photosystem II core proteins shows different irradiance-dependent regulation in vivo. J. Biol. Chem. 272: 30476-30482.

Rowland-Bamford AJ, Baker JT, Allen LH Jr, Bowes G (1991) Acclimation of rice to changing atmospheric carbon dioxide concentration. Plant Cell Environ 14: 577-583.

ポーラ・ルダル(1997)植物解剖学入門 鈴木三男・田川裕美訳 八坂書房(Rudall P, 1992, Anatomy of flowering plants. Cambridge University Pressの和訳)

Saeki T (1959) Variation of photosynthetic activity with ageing of leaves and total photosynthesis in a plant community. Bot Mag 72: 404-408

Saeki T (1960) Interrelationships between leaf amount, light distribution and total photosynthesis in a plant community. Bot Mag 73: 55-63.

Sage RF, Pearcy RW (1987) The nitrogen use efficiency of C3 and C4 plants. II. leaf nitrogen effects on the gas exchange characteristics of Chenopodium album (L.) and Amaranthus retroflexus (L.). Plant Physiology 84: 959-963.

Sage RF (1990) A model describing the regulation of ribulose-1,5-bisphosphate carboxylase, electron transport, and triose phosphate use in response to light intensity and CO2 in C3 plants. Plant Physiol 94: 1728-1734.

Sage RF. 1994. Acclimation of photosynthesis to increasing atmospheric CO2: The gas exchange perspective. Photosynthesis Research 39: 351-368.

Sage RF, Santrucek J, Grise DJ. 1995. Temperature effects on the photosynthetic response of C3 plants to long-term CO2 enrichment. Vegetatio 121: 67-77.

酒井聡樹(1992)木はなぜ高いのか 遺伝別冊4号 48-55.

Sassenrath GF, Ort DR, Portis AR Jr. (1990) Impaired reductive activation of stromal bisphosphatases in tomato leaves following low-temperature exposure at high light. Archives of Biochemistry and Biophysics 282: 302-308.

Sassenrath-Cole GF, Pearcy RW (1992) The role of ribulose-1,5-bisphosphate regeneration in the induction requirement of photosynthetic CO2 exchange under transition light conditions. Plant Physiology 99: 227-234

Sassenrath-Cole GF, Pearcy RW (1994) Regulation of photosynthetic induction state by the magnitude and duration of low light exposure. Plant Physiology 105: 1115-1123

Satoh Ki (1970) Mechanisms of photoinactivation in photosynthetic systems. I. The dark reaction in photoinactivation. Plant Cell Physiology 11: 15-27.

Savitch LV, Massacci A, Gray GR, Huner NPA (2000) Acclimation to low temperature or high light mitigates sensitivity to photoinhibition: roles of the Calvin cycle and the Mehler reaction. Australian Journal of Plant Physiology 27: 253-264.

Schieving, F., Pons, T.L., Werger, M.J.A. and Hirose, T. (1992) The distribution of nitrogen and photosynthetic activity at different plant densities in Carex acutiformis. Plant and Soil 143, 9-17.

Scieving, F. and Poorter, H. (1999) Carbon gain in a multispecies canopy: the role of specific leaf area and photosynthetic nitrogen-use efficiency in the tragedy of the commons. New Phytology 143: 201-211.

Schreiber U, Bilger W, Neubauer C (1995) Chlorophyll fluorescence as a nonintrusive indicator for rapid assessment of in vivo photosynthesis. In eds by E-D Schulze and MM Caldwell, Ecophysiology of photosynthesis. pp. 49-70. Springer.

Seemann JR, Sharkey TD, Wang JL, Osmond CB (1987) Environmental effects on photosynthesis, nitrogen-use efficiency and metabolite pools in leaves of sun and shade plants. Plant Physiol, 84, 796-802.

Sharkey TD (1985) Photosynthesis in intact leaves of C3 plants: physics, physiology and rate limitations. Bot Rev 51: 53-105.

Sharkey TD, Savitch LV, Butz ND (1991) Photometric method for routine determination of Kcat and carbamylation of rubisco. Photosynthesis Research 28: 41-48.

Sharp RE, Mattews MA, Boyer JS (1984) Kik effect and the quantum yield of photosynthesis. Plant Physiol 75: 95-101.

Shinano T, Lei TT, Kawamukai T, Inoue MT, Koike T, Tadano T (1996) Dimethylsulfoxide method for the extraction of chlorophylls a and b from the leaves of wheat, field bean, dwarf bamboo, and oak. Photosynthetica 32: 409-415.

Sims DA, Pearcy RW (1989) Photosynthetic characteristics of a tropical forest understory herb, Alocasia macrorrhiza, and a related crop species, Colocasia esculenata grown in contrastin light environments. Oecologia 79: 53-59.

Sims DA, Pearcy RW (1991) Photosynthesis and respiration in Alocasia macrorrhiza following transfers to high and low light. Oecologia 86: 447-453.

Sims DA, Luo Y, Seemann JR (1998a) Comparison of photosynthetic accliamtion to elevated CO2 and limited nitrogen supply in soybean. Plant Cell Environ 21: 945-952.

Sims DA, Luo Y, Seemann JR (1998b) Importance of leaf versus whole plant CO2 environement for photosynthetic acclimation Plant Cell Environ 21: 1189-1196

Smith H, Samson G, Fork DC (1993) Photosynthetic acclimation to shade: probing the role of phytochromes using photomorphogeneic mutants of tomato. Plant, Cell & Environment 16: 929-937.

Slatyer RO, Morrow PA (1977) Altitudinal variation in the photosynthetic characteristics of snow gum, Eucalyptus pauciflora Sieb. ex Spreng. I Seasonal changes under field conditions in the snowy mountains area of South-eastern Australia. Aust J Bot 25: 1-20.

Slatyer RO, Ferrar PJ (1977a) Altitudinal variation in the photosynthetic characteristics of snow gum, Eucalyptus pauciflora Sieb. ex Spreng. II. Effects of growth temperature under controlled conditions. Aust J Plant Physiol 4: 289-299.

Slatyer RO (1977a) Altitudinal variation in the photosynthetic characteristics of snow gum, Eucalyptus pauciflora Sieb. ex Spreng. III Temperature response of maerial grown in contrasting thermal environments. Aust J Plant Physiol 4: 301-12.

Slatyer RO (1977b) Altitudinal variation in the photosynthetic characteristics of snow gum, Eucalyptus pauciflora Sieb. ex Spreng. IV Temperature response of four populations grown at different temperatures. Aust J Plant Physiol 4: 583-594.

Slatyer RO, Ferrar PJ (1977) Altitudinal variation in the photosynthetic characteristics of snow gum, Eucalyptus pauciflora Sieb. ex Spreng. V. Rate of acclimation to an altered growth environment. Aust J Plant Physiol 4: 595-609.

Sodmergen, Kawano S, Tano S, Kuroiwa T (1989) Degradation of chloroplast DNA in second leaves of rice (Oryza sativa) before leaf yellowing. Protoplasma 160: 89-98.

Sonoike, K. and Terashima, I. (1994) Mechanism of the Photosystem I Photoinhibition in Leaves of Cucumis sativus L. Planta 194,287-293.

Sonoike, K., Terashima, I., Iwaki, M. and Itoh, S. (1995) Destructionof Photosystem I Iron-Sulfur Centers in Leaves of Cucumis sativus L. by Weak Illumination at Chilling Temperatures. FEBS Lett. 362, 235-238.

Sonoike, K. (1995) Selective Photoinhibition of Photosystem I in Isolated Thylakoid Membranes from Cucumber and Spinach. Plant Cell Physiol. 36,825-830.

Sonoike, K. (1996a) Degradation of psaB Gene Product, the ReactionCenter Subunit of Photosystem I, Is Caused during Photoinhibition of PhotosystemI: Possible Involvement of Active Oxygen Species. Plant Sci. 115, 157-164.

Sonoike, K. (1996b) Photoinhibition of Photosystem I: Its Physiological Significance in the Chilling Sensitivity of Plants. Plant Cell Physiol.37, 239-247.

Sonoike, K. (1998) Various Aspects of Inhibition of Photosynthesis underLight/Chilling Stress: "Photoinhibition at Chilling Temperatures" versus "Chilling Damage in the Light". J. Plant Res., 111, 121-129.

Small ?? (1987) Photosynthetic rates in relation to nitrogen recycling as an adaptation to nutrient deficiency in peat bog plants. Canadian Journal of Botany 50: 2227-2233.

Steffen KL, Wheeler RM, Arora R, Palta JP, Tibbitts TW (1995) Balancing photosynthetic light-harvesting and light-utilization capacities in potato leaf tissue during acclimation to different growth temperatures. Physiologia Plantarum 94: 51-56.

Stitt M, von Schaewen A, Willmitzer L (1997) 'Sink' regulation of photosynthetic metabolism in transgenic tobacco plants expressing yeast invertase in their cell wall involves a decrease of the Calvin-cycle enzymes and an increase in glycolytic enzymes. Planta 183: 40-50.

Strand A, Hurry V, Henkes S, Huner N, Gustafsson P, Gardestrom P, Stitt M (1999) Acclimation of Arabidopsis leaves developing at low temperatures. Increasing cytoplasmic volume accompanies increased activities of enzymes in the Calvin cycle and in the sucrose-biosythesis pathway. Plant Physiology 119: 1387-1397.

Strotmann H, Bickel-Sandkotter S (1984) Structure, function, and regulation of chloroplast ATPase. Ann Rev Plant Physiol, 35, 97-120.

Salvucci ME, Crafts-Brandner SJ. 2004c. Relationship between the heat tolerance of photosynthesis and the thermal stability of rubisco activase in plants from contrasting thermal environments. Plant Physiology 134, 1460-1470.

Syvertsen JP, Lloyd J, McConchie C, Kriedemann PE, Farquhar GD (1995) On the relationship between leaf anatomy and CO2 diffusion through the meshophyll of hypostomatous leaves. Plant Cell Environ 18: 149-157.

Tait MA, Hik DS (2003) Is dimethylsulfoxide a reliable solvent for extracting chlorophyll under field conditions?PHOTOSYNTHESIS RESEARCH 78 (1): 87-91

高木慎吾(2001)葉緑体の定位運動 寺島一郎編 朝倉植物生理学講座5環境応答 49-56. 朝倉書店

Takashima T, Hikosaka K, Hirose T (2004) Photosynthesis or persistence: nitrogen allocation in leaves of evergreen and deciduous Quercus species. Plant, Cell and Environment, 27: 1047-1054.

Takenaka A (1986) Comparative ecophysiology of two representative Quercus species appearing in different stages of succession. Ecological Research 1: 129-140.

Tanaka, T., 1972. Studies on the light-curves of carbon assimilation of rice plants - the interrelation among the light-curves, the plant type and the maximizing yield of rice. Bulletin of National Institute of Agricultural Science A, 19: 1-100.

Tang Y, Washitani I, Iwaki H (1992) Seasonal variations of microsite light availability within a Misvanthus sinensis canopy. Ecological Research 7: 97-106.

Terashima I, Saeki T (1983) Light environment within a leaf. I. optical properties of paradermal sections of Camellia leaves with special reference to difference in the optical properties of palisade and spongy tissues. Plant Cell Physiol 24: 1493-1501.

Terashima I, Inoue Y (1984) Comparative photosynthetic properties of palisade tissue chloroplasts and spongy tissue chloroplasts of Camellia japonica L.:functional adjustment of the photosynthetic apparatus to light environment within a leaf. Plant Cell Physiol 25: 555-563.

Terashima I, Inoue Y (1985a) Palisade tissue chloroplasts and spongy tissue chloroplasts in spinach: Biochemical and ultrastructural differences. Plant Cell Physiol 26: 63-75.

Terashima I, Inoue Y (1985b) Vertical gradients in photosynthetic properties of spinach chloroplasts dependent on intraleaf light environment. Plant Cell Physiol 26: 63-75

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: 489-499.

Terashima I (1986) Dorsiventrality in photosynthetic light response curves of a leaf. J Exp Bot 37: 399-405.

Terashima I, Sakaguchi S, Hara N (1986) Intra-leaf and intra-cellular gradients in chloroplast ultrastructure of dorsiventral leaves illuminated from the adaxial or abaxial side during their development. Plant Cell Physiol 27: 1023-1031.

Terashima I, Evans JR (1988) Effects of light and nitrogen nutrition on the organization of the photosynthetic apparatus in spinach. Plant Cell Physiol 29: 143-155.

Terashima I, Wong S-C, Osmond CB, Farquhar GD (1988) Characterisation of non-uniform photosynthesis induced by abscisic acid in leaves having different meshophyll anatomies. Plant and Cell Physiology 29: 385-394.

Terashima I (1989) Productive structure of a leaf. In Photosynthesis (ed Brigs W.R.), pp. 207-226. Alan R. Liss, Inc., New York.

Terashima I, Huand L-K, Osmond CB (1989) Effects of leaf chilling on thylakoid functions, measured at room temperature, in Cucumis sativus L. and Oryza sativa L. Plant Cell Physiol 30: 841-850.

Terashima I, Kashino Y, Katoh S (1991a) Exposure of leaves of Cucumis sativus L. to low temperatures in the light causes uncoupling of thylakoids. I. Studies with isolated thylakoids. Plant Cell Physiol 32: 1275-1283

Terashima I, Sonoike K, Kawazu T, Katoh S (1991b) Exposure of leaves of Cucumis sativus L. to low temperature in the light causes uncoupling of thylakoids II. Non-destructive measurements in intact leaves. Plant Cell Physiol 32: 1275-1283.

Terashima I (1992) Anatomy of non-uniform leaf photosynthesis. Photosyn Res 31: 195-212.

Terashima I, Funayama S, Sonoike K (1994) The site of photoinhibition in leaves of Cucumis sativus L. at low temperature is photosystem I, not photosystem II. Planta 193: 300-306

Terashima I, Hikosaka K (1995) Comparative ecophysiology of leaf and canopy photosynthesis. Plant Cell Environ 18: 1111-1128.

TERASHIMA I., MASUZAWA T. & OHBA H. (1993) Photosynthetic characteristics of a giant alpine plant, Rheum nobile Hook. f. et Thomas. and of some other alpine species measured at 4300 m , in the Eastern Himalaya, Nepal. Oecologia 95:194-201.

TERASHIMA I., MASUZAWA T., OHBA H. & YOKOI Y. (1995) Is potosynthesis suppressed at higher elevations due to low CO2 pressure? Ecology 76: 2663-2668.

Terashima I, Ishibashi M, Ono K, Hikosaka K. 1995. Three resistances to CO2 diffusion: leaf-surface water, intercellular spaces and mesophyll cells. In: Mathis P, ed. Photosynthesis: From Light to Biosphere Vol V. Dordrecht: Kluwer Academic Press, 537-542.

寺島一郎(1999)光環境と葉の光合成 (渡邊昭ら編)植物細胞工学シリーズ11 植物の環境応答 秀潤社 pp. 92-101

Terashima I, Ono K (2002) Effects of HgCl2 on CO2 dependence of leaf photosynthesis. Evidence indicating involvement of aquaporins in CO2 diffusion across the plasma membrane. Plant and Cell Physiology 43: 70-78.

寺島一郎(2003)葉の光合成:葉の内部の光環境とCO2環境 (村岡裕由・可知直毅編)光と水と植物のかたち pp. 85-118.

Testy RO (1995) A field study of the effects of elevated CO2 on carbon assimilation, stomatal conductance and leaf and branch growth of Pinus taeda trees. Plant Cell Environ 18: 565-573.

Thomson WA, Huang LK, Kriedemann PE (1992) Photosynthetic respponse to light and nutrients in sun-tolerant and shade-tolerant rainforest trees. II. Leaf gas exchange and component processes of photosynthesis. Aust J Plant Physiol 19: 19-42.

Thomas H, Stoddart JL (1975) Separation of chlorophyll degradation from other senescence processes in leaves of a mutant genotype of meadow fescue (Festuca pratensis L.). Plant Physiol 56: 438-441.

Thomas H, Stoddart JL (1980) Leaf senescence. Ann Rev Plant Physiol 321: 83-111.

Thornley JHM (1972) A balanced quantative model for root:shoot ratios in vegetative plants. Annals of Botany 36: 431-441.

Thornley JMC (1976) Mathematical models in plant physiology. Academic Press.

Tinoco-Ojanguren C, Pearcy RW (1993) Stomatal dynamics and its importance to carbon gain in two rain forest Piper species. II. Stomatal vesus biochemical limitations during photosynthetic induction. Oecologia 94: 395-402

Tissue DT, Griffin KL, Thomas RB, Strain BR (1995) Effects of low and elevated CO2 on C3 and C4 annuals Oecologia 101: 21-28.

Turnbull MH, Doley D, Yates DJ (1993) The dynamics of photosynthetic acclimation to changes in light quantity and quality in three Australian rainforest tree species. Oecologia 94: 218-228.

Tyystjarvi E, Aro E-M (1996) The rate constant of photoinhiition, measured in lincomycin-treated leaves, is directly proportional to light intensity. Proc Natl Acad Sci USA 96: 2213-2218

Verhagen, A. M. W., J. H. Wilson & E. J. Britten, 1963. Plant production in relation to foliage illumination. Annals of Botany, 27: 627-640.

Veron LP (1960) Spectrophotometric determination od chlorophylls and pheophytins in plant extracts. Analytical Chemistry 32: 1144

Villar R, Held AA, Merino J (1995) Dark leaf respiration in light and darkness of an evergreen and a deciduous plant species. Plant Physiol 107: 421-427.

Villar R, Robleto JR, De Jong Y, Poorter H (2006) Differences in construction costs and chemical composition between deciduous and evergreen woody species are small as compared to differences among families. Plant, Cell And Environment 29: 1629-1643.

Vitousek PM (1982) Nutrient cycling and nitrogen use efficiency. Amer Nat 119: 553-572

Vitousek PM, Field CB, Matson PA (1990) Variation in foliar d13C in Hawaiian Metrosideros polymorpha: a case of internal resistance ? Oecologia, 84, 362-370.

Vu JCV, Yelenosky G (1988) Water deficit and associated changes in some photosynthetic parameters in leaves of 'Valencia' orange (Citrus sinensis [L.] Osbeck). Plant Physiology 88: 375-378.

Walters MB, Field CB (1987) Photosynthetic light acclimation in two rain forest Piper species with different ecological amplitudes. Oecologia 72: 449-456.

Warren CR, Adams MA, Chen ZL (2000) Is photosynthesis related to concentrations of nitrogen and rubisco in leaves of Australian native plants? Aust J Plant Physiol 27: 407-416

Warrem CR, Adams MA (2001) Distribution of N, rubisco, and photosynthesis in Pinus pinaster and acclimation to light. Plant Cell Environ 24: 597-609

Warren CR, Adams MA (2004) Evergreen trees do not maximize instantaneous photosynthesis. Trends Plant Sci 9: 270-274

Watson, D. J. & K. J. Witts, 1959. The net assimilation rates of wild and cultivated beets. Annals of Botany, 23: 431-439.

Webber, A.N., Nie, G.Y. and Long, S.P., 1994. Acclimation of photosynthetic proteins to rising atmospheric CO2. Photosyn. Res., 39: 413-425.

Wellburn AR (1994) The spectral determination of chlorophylls a and b, as well as total carotenoids, using various solvents with spectrophotometers of different resolution. Journal of Plant Physiology 144: 307-313.

Werf van der A, Kooijman A, Welschen R, Lambers H (1988) Respiratory energy costs for the maintenance of biomass, for growth and for ion uptake in roots of Carex diandra and Carex acutiformis. Physiologia Plantarum 72: 483-491.

Werf van der A, Visser AJ, Schieving F, Lambers H (1993) Evidence for optimal partitioning of biomass and nitrogen at a range of nitrogen availabilities for a fast-and slow-growing species. Functional Ecology 7: 63-74.

Westbeek MHM, Pons TL, Cambridge ML, Atkin OK (1999) Analysis of differences in photosynthetic nitrogen use efficiency of alpine and lowland Poa species. Oeclogia 120: 19-26.

Wild A, Ke B, Shaw ER (1973) The effect of light intensity during growth of Sinapis alba on the electron-tarnsport components. Z Pflanzenphysiol Bd 69 S: 344-350.

Williams DG, Ehleringer JR (1996) Carbon isotope discrimination in three semi-arid woodland species along a monsoon gradient. Oecologia 106: 455-460.

Williams K, Percival F, Merino J, Mooney HA (1987) Estimation of tissue construction cost from heat of combution and organic nitrogen content. Plant, Cell and Environment. 10: 725-734.

Williams K, Field CB, Mooney HA (1989) Relationships among leaf construction cost, leaf longebity, and light environment in rain-forest plants of the genus Piper. American Naturalist 13: 198-211.

Williams WE, Gorton HL, Witial SM (2003) Chloroplast movements in the field. Plant, Cell and Environment 26: 2005-2014.

Wintermans JFGM, De Mots (1965) Biochimica et Biophysica Acta 109: 448-453.

de Wit CT (1964) Photosynthesis of leaf canopies. Agricultural Research Report No. 663. Pudoc Wageningen.

Wittenbach VA (1977) ?

Wong SC, Cowan IR, Farquhar GD (1979) Stomatal conductance correlates with photosynthetic capacity. Nature 282: 424-426.

Woodrow IE, Mott KA (1993) Modelling C3 photosynthesis: a sensitivity analysis of the photosynthetic carbon-reduction cycle. Planta 191: 421-432.

Woodrow, I.E., 1994. Optimal acclimation of the C3 photosynthetic system under enhanced CO2. Photosyn. Res., 39: 401-412.

Wright IJ, Reich PB, Westoby M, Ackerly DD, Baruch Z, Bongers F, Cavendar-Bares J, Chapin T, Cornelissen JHC, Diemer M, Flexas J, Garnier E, Groom PK, Gulias J, Hikosaka K, Lamont BB, Lee T, Lee B, Lusk C, Midgley JJ, Navas M-L, Niinemets ?, Oleksyn J, Osada N, Poorter H, Poot P, Prior L, Pyankov VI, Roumet C, Thomas SC, Tjoelker MG, Veneklaas EJ, Villar R. 2004. The leaf economics spectrum worldwide. Nature 428: 821-827

Wright IJ, Westoby M (2002) Leaves at low versus high rainfall: coordination of structure, lifespan and physiology. New Phytol 155: 403-416

Wullschleger SD (1993) Biochemical limitations to carbon assimilation in C3 plants - a retrospective analysis of the A/Ci curves from 109 species. J Exp Bot 44: 907-920.

Yamasaki T, Yamakawa T, Tamane Y, Koike H, Satoh K, Katoh S (2002) Temperature acclimation of photosynthesis and related changes in photosystem II electron transport in winter wheat. Plant Physiology 128: 1087-1097.

Yamashita N, Ishida A, Kushima H, Tanaka N (2000) Acclimation to sudden increase in light favoring an invasive over native trees in subtropical idlands, Japan. Oecologia 125: 412-419.

山谷知行(編)(2001) 代謝 朝倉植物生理学講座 朝倉書店

Yamori W, Noguchi K, Terashima I. 2005. Temperature acclimation of photosynthesis in spinach leaves: analyses of photosynthetic components and temperature dependencies of photosynthetic partial reactions. Plant, Cell and Environment 28, 536-547.

Yamori W, Suzuki K, Noguchi K, Nakai M, Terashima I. 2006. Effects of rubisco kinetics and rubisco activation state on the temperature dependence of the photosynthetic rate in spinach leaves from contrasting growth temperatures. Plant Cell Environ 29: 1659-1670.

Yokoi Y, Kimura M, Hogetsu K (1978) Quantitative relationships between growth and respiration I. Components of respiratory loss and growth efficiencies of etiolated red bean seedlings. Bot Mag Tokyo 91: 31-41

Yokota T & Hagiwara A (1996) Dependence of the aboveground CO2 exchange rate on tree size in field-grown Hinoki Cypress (Chamaecyparis obtusa). J Plant Res 109: 177-184.

Yoshida Y (1961) The nuclear control of chloroplast activity in Elodea leaf cells. Protoplasma 54: 476-492.

Yoshie F (1986) Intercellular CO2 concentration and water-use efficiency of temperature plants with different life-forms and from different microhabitats. Oecologia, 68, 370-374.

Ziegler & Egle (1965) Betr Biol Pflanzen 41: 11-37.

Ziska L. H., Hogan K. P., Smith A. P. & Drake B. G. (1991) Growth and photosynthetic response of nine tropical species with long-term exposure to elevated carbon dioxide. Oecologia 86, 383-389.

 

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